fix: PR review — DB reload, market-local date, market-scoped scan_candidates

Address PR #110 review findings: 1. High — Realtime mode now loads playbook from DB before calling Gemini, preventing duplicate API calls on process restart (4/day budget). 2. Medium — Pass market-local date (via market.timezone) to generate_playbook() and _empty_playbook() instead of date.today(). 3. Medium — scan_candidates restructured from {stock_code: candidate} to {market_code: {stock_code: candidate}} to prevent KR/US symbol collision. New test: test_scan_candidates_market_scoped verifies cross-market isolation. Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
fix: resolve lint issues in main.py and test_main.py
2026-02-09 23:00:06 +09:00 · 2026-02-08 22:28:31 +09:00 · 2026-02-08 22:24:19 +09:00 · 2026-02-08 22:07:36 +09:00 · 2026-02-08 21:57:39 +09:00 · 2026-02-08 21:36:42 +09:00
26 changed files with 4756 additions and 268 deletions
--- a/CLAUDE.md
+++ b/CLAUDE.md
@@ -45,6 +45,39 @@ Get real-time alerts for trades, circuit breakers, and system events via Telegra
 **Fail-safe**: Notifications never crash the trading system. Missing credentials or API errors are logged but trading continues normally.
 ## Smart Volatility Scanner (Optional)
 Python-first filtering pipeline that reduces Gemini API calls by pre-filtering stocks using technical indicators.
 ### How It Works
 1. **Fetch Rankings** — KIS API volume surge rankings (top 30 stocks)
 2. **Python Filter** — RSI + volume ratio calculations (no AI)
   - Volume > 200% of previous day
   - RSI(14) < 30 (oversold) OR RSI(14) > 70 (momentum)
 3. **AI Judgment** — Only qualified candidates (1-3 stocks) sent to Gemini
 ### Configuration
 Add to `.env` (optional, has sensible defaults):
 ```bash
 RSI_OVERSOLD_THRESHOLD=30    # 0-50, default 30
 RSI_MOMENTUM_THRESHOLD=70    # 50-100, default 70
 VOL_MULTIPLIER=2.0           # Volume threshold (2.0 = 200%)
 SCANNER_TOP_N=3              # Max candidates per scan
 ```
 ### Benefits
 - **Reduces API costs** — Process 1-3 stocks instead of 20-30
 - **Python-based filtering** — Fast technical analysis before AI
 - **Evolution-ready** — Selection context logged for strategy optimization
 - **Fault-tolerant** — Falls back to static watchlist on API failure
 ### Realtime Mode Only
 Smart Scanner runs in `TRADE_MODE=realtime` only. Daily mode uses static watchlists for batch efficiency.
 ## Documentation
 - **[Workflow Guide](docs/workflow.md)** — Git workflow policy and agent-based development
@@ -75,6 +108,7 @@ User requirements and feedback are tracked in [docs/requirements-log.md](docs/re
 ```
 src/
 ├── analysis/        # Technical analysis (RSI, volatility, smart scanner)
 ├── broker/          # KIS API client (domestic + overseas)
 ├── brain/           # Gemini AI decision engine
 ├── core/            # Risk manager (READ-ONLY)
@@ -85,7 +119,7 @@ src/
 ├── main.py          # Trading loop orchestrator
 └── config.py        # Settings (from .env)
-tests/               # 273 tests across 13 files
+tests/               # 343 tests across 14 files
 docs/                # Extended documentation
 ```
--- a/docs/agent-constraints.md
+++ b/docs/agent-constraints.md
@@ -0,0 +1,45 @@
 # Agent Constraints
 This document records **persistent behavioral constraints** for agents working on this repository.
 It is distinct from `docs/requirements-log.md`, which records **project/product requirements**.
 ## Scope
 - Applies to all AI agents and automation that modify this repo.
 - Supplements (does not replace) `docs/agents.md` and `docs/workflow.md`.
 ## Persistent Rules
 1. **Workflow enforcement**
   - Follow `docs/workflow.md` for all changes.
   - Create a Gitea issue before any code or documentation change.
   - Work on a feature branch `feature/issue-{N}-{short-description}` and open a PR.
   - Never commit directly to `main`.
 2. **Document-first routing**
   - When performing work, consult relevant `docs/` files *before* making changes.
   - Route decisions to the documented policy whenever applicable.
   - If guidance conflicts, prefer the stricter/safety-first rule and note it in the PR.
 3. **Docs with code**
   - Any code change must be accompanied by relevant documentation updates.
   - If no doc update is needed, state the reason explicitly in the PR.
 4. **Session-persistent user constraints**
   - If the user requests that a behavior should persist across sessions, record it here
     (or in a dedicated policy doc) and reference it when working.
   - Keep entries short and concrete, with dates.
 ## Change Control
 - Changes to this file follow the same workflow as code changes.
 - Keep the history chronological and minimize rewording of existing entries.
 ## History
 ### 2026-02-08
 - Always enforce Gitea workflow: issue -> feature branch -> PR before changes.
 - When work requires guidance, consult the relevant `docs/` policies first.
 - Any code change must be accompanied by relevant documentation updates.
 - Persist user constraints across sessions by recording them in this document.
--- a/docs/architecture.md
+++ b/docs/architecture.md
@@ -64,7 +64,39 @@ High-frequency trading with individual stock analysis:
 - `get_open_markets()` returns currently active markets
 - `get_next_market_open()` finds next market to open and when
-### 2. Brain (`src/brain/gemini_client.py`)
+**New API Methods** (added in v0.9.0):
 - `fetch_market_rankings()` — Fetch volume surge rankings from KIS API
 - `get_daily_prices()` — Fetch OHLCV history for technical analysis
 ### 2. Analysis (`src/analysis/`)
 **VolatilityAnalyzer** (`volatility.py`) — Technical indicator calculations
 - ATR (Average True Range) for volatility measurement
 - RSI (Relative Strength Index) using Wilder's smoothing method
 - Price change percentages across multiple timeframes
 - Volume surge ratios and price-volume divergence
 - Momentum scoring (0-100 scale)
 - Breakout/breakdown pattern detection
 **SmartVolatilityScanner** (`smart_scanner.py`) — Python-first filtering pipeline
 - **Step 1**: Fetch volume rankings from KIS API (top 30 stocks)
 - **Step 2**: Calculate RSI and volume ratio for each stock
 - **Step 3**: Apply filters:
  - Volume ratio >= `VOL_MULTIPLIER` (default 2.0x previous day)
  - RSI < `RSI_OVERSOLD_THRESHOLD` (30) OR RSI > `RSI_MOMENTUM_THRESHOLD` (70)
 - **Step 4**: Score candidates by RSI extremity (60%) + volume surge (40%)
 - **Step 5**: Return top N candidates (default 3) for AI analysis
 - **Fallback**: Uses static watchlist if ranking API unavailable
 - **Realtime mode only**: Daily mode uses batch processing for API efficiency
 **Benefits:**
 - Reduces Gemini API calls from 20-30 stocks to 1-3 qualified candidates
 - Fast Python-based filtering before expensive AI judgment
 - Logs selection context (RSI, volume_ratio, signal, score) for Evolution system
 ### 3. Brain (`src/brain/gemini_client.py`)
 **GeminiClient** — AI decision engine powered by Google Gemini
@@ -74,7 +106,7 @@ High-frequency trading with individual stock analysis:
 - Falls back to safe HOLD on any parse/API error
 - Handles markdown-wrapped JSON, malformed responses, invalid actions
-### 3. Risk Manager (`src/core/risk_manager.py`)
+### 4. Risk Manager (`src/core/risk_manager.py`)
 **RiskManager** — Safety circuit breaker and order validation
@@ -86,7 +118,7 @@ High-frequency trading with individual stock analysis:
 - **Fat-Finger Protection**: Rejects orders exceeding 30% of available cash
  - Must always be enforced, cannot be disabled
-### 4. Notifications (`src/notifications/telegram_client.py`)
+### 5. Notifications (`src/notifications/telegram_client.py`)
 **TelegramClient** — Real-time event notifications via Telegram Bot API
@@ -105,7 +137,7 @@ High-frequency trading with individual stock analysis:
 **Setup:** See [src/notifications/README.md](../src/notifications/README.md) for bot creation and configuration.
-### 5. Evolution (`src/evolution/optimizer.py`)
+### 6. Evolution (`src/evolution/optimizer.py`)
 **StrategyOptimizer** — Self-improvement loop
@@ -117,9 +149,11 @@ High-frequency trading with individual stock analysis:
 ## Data Flow
 ### Realtime Mode (with Smart Scanner)
 ```
 ┌─────────────────────────────────────────────────────────────┐
-│ Main Loop (60s cycle per stock, per market)                │
+│ Main Loop (60s cycle per market)                           │
 └─────────────────────────────────────────────────────────────┘
                           │
                           ▼
@@ -132,6 +166,21 @@ High-frequency trading with individual stock analysis:
                           │
                           ▼
        ┌──────────────────────────────────┐
        │ Smart Scanner (Python-first)      │
        │ - Fetch volume rankings (KIS)    │
        │ - Get 20d price history per stock│
        │ - Calculate RSI(14) + vol ratio  │
        │ - Filter: vol>2x AND RSI extreme │
        │ - Return top 3 qualified stocks  │
        └──────────────────┬────────────────┘
                           │
                           ▼
        ┌──────────────────────────────────┐
        │ For Each Qualified Candidate      │
        └──────────────────┬────────────────┘
                           │
                           ▼
        ┌──────────────────────────────────┐
        │ Broker: Fetch Market Data        │
        │ - Domestic: orderbook + balance  │
        │ - Overseas: price + balance      │
@@ -145,7 +194,7 @@ High-frequency trading with individual stock analysis:
                           │
                           ▼
        ┌──────────────────────────────────┐
-        │ Brain: Get Decision               │
+        │ Brain: Get Decision (AI)          │
        │ - Build prompt with market data   │
        │ - Call Gemini API                 │
        │ - Parse JSON response             │
@@ -181,6 +230,9 @@ High-frequency trading with individual stock analysis:
        │ - SQLite (data/trades.db)         │
        │ - Track: action, confidence,      │
        │   rationale, market, exchange     │
        │ - NEW: selection_context (JSON)   │
        │   - RSI, volume_ratio, signal     │
        │   - For Evolution optimization    │
        └───────────────────────────────────┘
 ```
@@ -200,11 +252,24 @@ CREATE TABLE trades (
    price REAL,
    pnl REAL DEFAULT 0.0,
    market TEXT DEFAULT 'KR',       -- KR | US_NASDAQ | JP | etc.
-    exchange_code TEXT DEFAULT 'KRX' -- KRX | NASD | NYSE | etc.
+    exchange_code TEXT DEFAULT 'KRX', -- KRX | NASD | NYSE | etc.
    selection_context TEXT          -- JSON: {rsi, volume_ratio, signal, score}
 );
 ```
-Auto-migration: Adds `market` and `exchange_code` columns if missing for backward compatibility.
+**Selection Context** (new in v0.9.0): Stores scanner selection criteria as JSON:
 ```json
 {
  "rsi": 28.5,
  "volume_ratio": 2.7,
  "signal": "oversold",
  "score": 85.2
 }
 ```
 Enables Evolution system to analyze correlation between selection criteria and trade outcomes.
 Auto-migration: Adds `market`, `exchange_code`, and `selection_context` columns if missing for backward compatibility.
 ## Configuration
@@ -236,6 +301,12 @@ SESSION_INTERVAL_HOURS=6      # Hours between sessions (daily mode only)
 TELEGRAM_BOT_TOKEN=1234567890:ABCdefGHIjklMNOpqrsTUVwxyz
 TELEGRAM_CHAT_ID=123456789
 TELEGRAM_ENABLED=true
 # Smart Scanner (optional, realtime mode only)
 RSI_OVERSOLD_THRESHOLD=30    # 0-50, oversold threshold
 RSI_MOMENTUM_THRESHOLD=70    # 50-100, momentum threshold
 VOL_MULTIPLIER=2.0           # Minimum volume ratio (2.0 = 200%)
 SCANNER_TOP_N=3              # Max qualified candidates per scan
 ```
 Tests use in-memory SQLite (`DB_PATH=":memory:"`) and dummy credentials via `tests/conftest.py`.
--- a/docs/requirements-log.md
+++ b/docs/requirements-log.md
@@ -26,3 +26,41 @@
 ### 문서화
 - 시스템 구조, 기능별 설명 등 코드 문서화 항상 신경쓸 것
 - 새로운 기능 추가 시 관련 문서 업데이트 필수
 ---
 ## 2026-02-06
 ### Smart Volatility Scanner (Python-First, AI-Last 파이프라인)
 **배경:**
 - 정적 종목 리스트를 순회하는 방식은 비효율적
 - KIS API 거래량 순위를 통해 시장 주도주를 자동 탐지해야 함
 - Gemini API 호출 전에 Python 기반 기술적 분석으로 필터링 필요
 **요구사항:**
 1. KIS API 거래량 순위 API 통합 (`fetch_market_rankings`)
 2. 일별 가격 히스토리 API 추가 (`get_daily_prices`)
 3. RSI(14) 계산 기능 구현 (Wilder's smoothing method)
 4. 필터 조건:
   - 거래량 > 전일 대비 200% (VOL_MULTIPLIER)
   - RSI < 30 (과매도) OR RSI > 70 (모멘텀)
 5. 상위 1-3개 적격 종목만 Gemini에 전달
 6. 종목 선정 배경(RSI, volume_ratio, signal, score) 데이터베이스 기록
 **구현 결과:**
 - `src/analysis/smart_scanner.py`: SmartVolatilityScanner 클래스
 - `src/analysis/volatility.py`: calculate_rsi() 메서드 추가
 - `src/broker/kis_api.py`: 2개 신규 API 메서드
 - `src/db.py`: selection_context 컬럼 추가
 - 설정 가능한 임계값: RSI_OVERSOLD_THRESHOLD, RSI_MOMENTUM_THRESHOLD, VOL_MULTIPLIER, SCANNER_TOP_N
 **효과:**
 - Gemini API 호출 20-30개 → 1-3개로 감소
 - Python 기반 빠른 필터링 → 비용 절감
 - 선정 기준 추적 → Evolution 시스템 최적화 가능
 - API 장애 시 정적 watchlist로 자동 전환
 **참고:** Realtime 모드 전용. Daily 모드는 배치 효율성을 위해 정적 watchlist 사용.
 **이슈/PR:** #76, #77
--- a/docs/workflow.md
+++ b/docs/workflow.md
@@ -6,6 +6,7 @@
 1. **Create Gitea Issue First** — All features, bug fixes, and policy changes require a Gitea issue before any code is written
 2. **Create Feature Branch** — Branch from `main` using format `feature/issue-{N}-{short-description}`
   - After creating the branch, run `git pull origin main` and rebase to ensure the branch is up to date
 3. **Implement Changes** — Write code, tests, and documentation on the feature branch
 4. **Create Pull Request** — Submit PR to `main` branch referencing the issue number
 5. **Review & Merge** — After approval, merge via PR (squash or merge commit)
--- a/src/analysis/init.py
+++ b/src/analysis/init.py
@@ -3,6 +3,7 @@
 from __future__ import annotations
 from src.analysis.scanner import MarketScanner
 from src.analysis.smart_scanner import ScanCandidate, SmartVolatilityScanner
 from src.analysis.volatility import VolatilityAnalyzer
-__all__ = ["VolatilityAnalyzer", "MarketScanner"]
+__all__ = ["VolatilityAnalyzer", "MarketScanner", "SmartVolatilityScanner", "ScanCandidate"]
--- a/src/analysis/smart_scanner.py
+++ b/src/analysis/smart_scanner.py
@@ -0,0 +1,192 @@
 """Smart Volatility Scanner with RSI and volume filters.
 Fetches market rankings from KIS API and applies technical filters
 to identify high-probability trading candidates.
 """
 from __future__ import annotations
 import logging
 from dataclasses import dataclass
 from typing import Any
 from src.analysis.volatility import VolatilityAnalyzer
 from src.broker.kis_api import KISBroker
 from src.config import Settings
 logger = logging.getLogger(__name__)
@dataclass
 class ScanCandidate:
    """A qualified candidate from the smart scanner."""
    stock_code: str
    name: str
    price: float
    volume: float
    volume_ratio: float  # Current volume / previous day volume
    rsi: float
    signal: str  # "oversold" or "momentum"
    score: float  # Composite score for ranking
 class SmartVolatilityScanner:
    """Scans market rankings and applies RSI/volume filters.
    Flow:
    1. Fetch volume rankings from KIS API
    2. For each ranked stock, fetch daily prices
    3. Calculate RSI and volume ratio
    4. Apply filters: volume > VOL_MULTIPLIER AND (RSI < 30 OR RSI > 70)
    5. Return top N qualified candidates
    """
    def __init__(
        self,
        broker: KISBroker,
        volatility_analyzer: VolatilityAnalyzer,
        settings: Settings,
    ) -> None:
        """Initialize the smart scanner.
        Args:
            broker: KIS broker for API calls
            volatility_analyzer: Analyzer for RSI calculation
            settings: Application settings
        """
        self.broker = broker
        self.analyzer = volatility_analyzer
        self.settings = settings
        # Extract scanner settings
        self.rsi_oversold = settings.RSI_OVERSOLD_THRESHOLD
        self.rsi_momentum = settings.RSI_MOMENTUM_THRESHOLD
        self.vol_multiplier = settings.VOL_MULTIPLIER
        self.top_n = settings.SCANNER_TOP_N
    async def scan(
        self,
        fallback_stocks: list[str] | None = None,
    ) -> list[ScanCandidate]:
        """Execute smart scan and return qualified candidates.
        Args:
            fallback_stocks: Stock codes to use if ranking API fails
        Returns:
            List of ScanCandidate, sorted by score, up to top_n items
        """
        # Step 1: Fetch rankings
        try:
            rankings = await self.broker.fetch_market_rankings(
                ranking_type="volume",
                limit=30,  # Fetch more than needed for filtering
            )
            logger.info("Fetched %d stocks from volume rankings", len(rankings))
        except ConnectionError as exc:
            logger.warning("Ranking API failed, using fallback: %s", exc)
            if fallback_stocks:
                # Create minimal ranking data for fallback
                rankings = [
                    {
                        "stock_code": code,
                        "name": code,
                        "price": 0,
                        "volume": 0,
                        "change_rate": 0,
                        "volume_increase_rate": 0,
                    }
                    for code in fallback_stocks
                ]
            else:
                return []
        # Step 2: Analyze each stock
        candidates: list[ScanCandidate] = []
        for stock in rankings:
            stock_code = stock["stock_code"]
            if not stock_code:
                continue
            try:
                # Fetch daily prices for RSI calculation
                daily_prices = await self.broker.get_daily_prices(stock_code, days=20)
                if len(daily_prices) < 15:  # Need at least 14+1 for RSI
                    logger.debug("Insufficient price history for %s", stock_code)
                    continue
                # Calculate RSI
                close_prices = [p["close"] for p in daily_prices]
                rsi = self.analyzer.calculate_rsi(close_prices, period=14)
                # Calculate volume ratio (today vs previous day avg)
                if len(daily_prices) >= 2:
                    prev_day_volume = daily_prices[-2]["volume"]
                    current_volume = stock.get("volume", 0) or daily_prices[-1]["volume"]
                    volume_ratio = (
                        current_volume / prev_day_volume if prev_day_volume > 0 else 1.0
                    )
                else:
                    volume_ratio = stock.get("volume_increase_rate", 0) / 100 + 1  # Fallback
                # Apply filters
                volume_qualified = volume_ratio >= self.vol_multiplier
                rsi_oversold = rsi < self.rsi_oversold
                rsi_momentum = rsi > self.rsi_momentum
                if volume_qualified and (rsi_oversold or rsi_momentum):
                    signal = "oversold" if rsi_oversold else "momentum"
                    # Calculate composite score
                    # Higher score for: extreme RSI + high volume
                    rsi_extremity = abs(rsi - 50) / 50  # 0-1 scale
                    volume_score = min(volume_ratio / 5, 1.0)  # Cap at 5x
                    score = (rsi_extremity * 0.6 + volume_score * 0.4) * 100
                    candidates.append(
                        ScanCandidate(
                            stock_code=stock_code,
                            name=stock.get("name", stock_code),
                            price=stock.get("price", daily_prices[-1]["close"]),
                            volume=current_volume,
                            volume_ratio=volume_ratio,
                            rsi=rsi,
                            signal=signal,
                            score=score,
                        )
                    )
                    logger.info(
                        "Qualified: %s (%s) RSI=%.1f vol=%.1fx signal=%s score=%.1f",
                        stock_code,
                        stock.get("name", ""),
                        rsi,
                        volume_ratio,
                        signal,
                        score,
                    )
            except ConnectionError as exc:
                logger.warning("Failed to analyze %s: %s", stock_code, exc)
                continue
            except Exception as exc:
                logger.error("Unexpected error analyzing %s: %s", stock_code, exc)
                continue
        # Sort by score and return top N
        candidates.sort(key=lambda c: c.score, reverse=True)
        return candidates[: self.top_n]
    def get_stock_codes(self, candidates: list[ScanCandidate]) -> list[str]:
        """Extract stock codes from candidates for watchlist update.
        Args:
            candidates: List of scan candidates
        Returns:
            List of stock codes
        """
        return [c.stock_code for c in candidates]
--- a/src/analysis/volatility.py
+++ b/src/analysis/volatility.py
@@ -124,6 +124,54 @@ class VolatilityAnalyzer:
            return 1.0
        return current_volume / avg_volume
    def calculate_rsi(
        self,
        close_prices: list[float],
        period: int = 14,
    ) -> float:
        """Calculate Relative Strength Index (RSI) using Wilder's smoothing.
        Args:
            close_prices: List of closing prices (oldest to newest, minimum period+1 values)
            period: RSI period (default 14)
        Returns:
            RSI value between 0 and 100, or 50.0 (neutral) if insufficient data
        Examples:
            >>> analyzer = VolatilityAnalyzer()
            >>> prices = [100 - i * 0.5 for i in range(20)]  # Downtrend
            >>> rsi = analyzer.calculate_rsi(prices)
            >>> assert rsi < 50  # Oversold territory
        """
        if len(close_prices) < period + 1:
            return 50.0  # Neutral RSI if insufficient data
        # Calculate price changes
        changes = [close_prices[i] - close_prices[i - 1] for i in range(1, len(close_prices))]
        # Separate gains and losses
        gains = [max(0.0, change) for change in changes]
        losses = [max(0.0, -change) for change in changes]
        # Calculate initial average gain/loss (simple average for first period)
        avg_gain = sum(gains[:period]) / period
        avg_loss = sum(losses[:period]) / period
        # Apply Wilder's smoothing for remaining periods
        for i in range(period, len(changes)):
            avg_gain = (avg_gain * (period - 1) + gains[i]) / period
            avg_loss = (avg_loss * (period - 1) + losses[i]) / period
        # Calculate RS and RSI
        if avg_loss == 0:
            return 100.0  # All gains, maximum RSI
        rs = avg_gain / avg_loss
        rsi = 100 - (100 / (1 + rs))
        return rsi
    def calculate_pv_divergence(
        self,
        price_change: float,
--- a/src/broker/kis_api.py
+++ b/src/broker/kis_api.py
@@ -280,3 +280,153 @@ class KISBroker:
                return data
        except (TimeoutError, aiohttp.ClientError) as exc:
            raise ConnectionError(f"Network error sending order: {exc}") from exc
    async def fetch_market_rankings(
        self,
        ranking_type: str = "volume",
        limit: int = 30,
    ) -> list[dict[str, Any]]:
        """Fetch market rankings from KIS API.
        Args:
            ranking_type: Type of ranking ("volume" or "fluctuation")
            limit: Maximum number of results to return
        Returns:
            List of stock data dicts with keys: stock_code, name, price, volume,
            change_rate, volume_increase_rate
        Raises:
            ConnectionError: If API request fails
        """
        await self._rate_limiter.acquire()
        session = self._get_session()
        # TR_ID for volume ranking
        tr_id = "FHPST01710000" if ranking_type == "volume" else "FHPST01710100"
        headers = await self._auth_headers(tr_id)
        params = {
            "FID_COND_MRKT_DIV_CODE": "J",  # Stock/ETF/ETN
            "FID_COND_SCR_DIV_CODE": "20001",  # Volume surge
            "FID_INPUT_ISCD": "0000",  # All stocks
            "FID_DIV_CLS_CODE": "0",  # All types
            "FID_BLNG_CLS_CODE": "0",
            "FID_TRGT_CLS_CODE": "111111111",
            "FID_TRGT_EXLS_CLS_CODE": "000000",
            "FID_INPUT_PRICE_1": "0",
            "FID_INPUT_PRICE_2": "0",
            "FID_VOL_CNT": "0",
            "FID_INPUT_DATE_1": "",
        }
        url = f"{self._base_url}/uapi/domestic-stock/v1/quotations/volume-rank"
        try:
            async with session.get(url, headers=headers, params=params) as resp:
                if resp.status != 200:
                    text = await resp.text()
                    raise ConnectionError(
                        f"fetch_market_rankings failed ({resp.status}): {text}"
                    )
                data = await resp.json()
            # Parse response - output is a list of ranked stocks
            def _safe_float(value: str | float | None, default: float = 0.0) -> float:
                if value is None or value == "":
                    return default
                try:
                    return float(value)
                except (ValueError, TypeError):
                    return default
            rankings = []
            for item in data.get("output", [])[:limit]:
                rankings.append({
                    "stock_code": item.get("mksc_shrn_iscd", ""),
                    "name": item.get("hts_kor_isnm", ""),
                    "price": _safe_float(item.get("stck_prpr", "0")),
                    "volume": _safe_float(item.get("acml_vol", "0")),
                    "change_rate": _safe_float(item.get("prdy_ctrt", "0")),
                    "volume_increase_rate": _safe_float(item.get("vol_inrt", "0")),
                })
            return rankings
        except (TimeoutError, aiohttp.ClientError) as exc:
            raise ConnectionError(f"Network error fetching rankings: {exc}") from exc
    async def get_daily_prices(
        self,
        stock_code: str,
        days: int = 20,
    ) -> list[dict[str, Any]]:
        """Fetch daily OHLCV price history for a stock.
        Args:
            stock_code: 6-digit stock code
            days: Number of trading days to fetch (default 20 for RSI calculation)
        Returns:
            List of daily price dicts with keys: date, open, high, low, close, volume
            Sorted oldest to newest
        Raises:
            ConnectionError: If API request fails
        """
        await self._rate_limiter.acquire()
        session = self._get_session()
        headers = await self._auth_headers("FHKST03010100")
        # Calculate date range (today and N days ago)
        from datetime import datetime, timedelta
        end_date = datetime.now().strftime("%Y%m%d")
        start_date = (datetime.now() - timedelta(days=days + 10)).strftime("%Y%m%d")
        params = {
            "FID_COND_MRKT_DIV_CODE": "J",
            "FID_INPUT_ISCD": stock_code,
            "FID_INPUT_DATE_1": start_date,
            "FID_INPUT_DATE_2": end_date,
            "FID_PERIOD_DIV_CODE": "D",  # Daily
            "FID_ORG_ADJ_PRC": "0",  # Adjusted price
        }
        url = f"{self._base_url}/uapi/domestic-stock/v1/quotations/inquire-daily-itemchartprice"
        try:
            async with session.get(url, headers=headers, params=params) as resp:
                if resp.status != 200:
                    text = await resp.text()
                    raise ConnectionError(
                        f"get_daily_prices failed ({resp.status}): {text}"
                    )
                data = await resp.json()
            # Parse response
            def _safe_float(value: str | float | None, default: float = 0.0) -> float:
                if value is None or value == "":
                    return default
                try:
                    return float(value)
                except (ValueError, TypeError):
                    return default
            prices = []
            for item in data.get("output2", []):
                prices.append({
                    "date": item.get("stck_bsop_date", ""),
                    "open": _safe_float(item.get("stck_oprc", "0")),
                    "high": _safe_float(item.get("stck_hgpr", "0")),
                    "low": _safe_float(item.get("stck_lwpr", "0")),
                    "close": _safe_float(item.get("stck_clpr", "0")),
                    "volume": _safe_float(item.get("acml_vol", "0")),
                })
            # Sort oldest to newest (KIS returns newest first)
            prices.reverse()
            return prices[:days]  # Return only requested number of days
        except (TimeoutError, aiohttp.ClientError) as exc:
            raise ConnectionError(f"Network error fetching daily prices: {exc}") from exc
--- a/src/config.py
+++ b/src/config.py
@@ -33,6 +33,12 @@ class Settings(BaseSettings):
    FAT_FINGER_PCT: float = Field(default=30.0, gt=0.0, le=100.0)
    CONFIDENCE_THRESHOLD: int = Field(default=80, ge=0, le=100)
    # Smart Scanner Configuration
    RSI_OVERSOLD_THRESHOLD: int = Field(default=30, ge=0, le=50)
    RSI_MOMENTUM_THRESHOLD: int = Field(default=70, ge=50, le=100)
    VOL_MULTIPLIER: float = Field(default=2.0, gt=1.0, le=10.0)
    SCANNER_TOP_N: int = Field(default=3, ge=1, le=10)
    # Database
    DB_PATH: str = "data/trade_logs.db"
@@ -49,8 +55,15 @@ class Settings(BaseSettings):
    DAILY_SESSIONS: int = Field(default=4, ge=1, le=10)
    SESSION_INTERVAL_HOURS: int = Field(default=6, ge=1, le=24)
    # Pre-Market Planner
    PRE_MARKET_MINUTES: int = Field(default=30, ge=10, le=120)
    MAX_SCENARIOS_PER_STOCK: int = Field(default=5, ge=1, le=10)
    PLANNER_TIMEOUT_SECONDS: int = Field(default=60, ge=10, le=300)
    DEFENSIVE_PLAYBOOK_ON_FAILURE: bool = True
    RESCAN_INTERVAL_SECONDS: int = Field(default=300, ge=60, le=900)
    # Market selection (comma-separated market codes)
-    ENABLED_MARKETS: str = "KR"
+    ENABLED_MARKETS: str = "KR,US"
    # Backup and Disaster Recovery (optional)
    BACKUP_ENABLED: bool = True
--- a/src/db.py
+++ b/src/db.py
@@ -2,6 +2,7 @@
 from __future__ import annotations
 import json
 import sqlite3
 from datetime import UTC, datetime
 from pathlib import Path
@@ -38,6 +39,8 @@ def init_db(db_path: str) -> sqlite3.Connection:
        conn.execute("ALTER TABLE trades ADD COLUMN market TEXT DEFAULT 'KR'")
    if "exchange_code" not in columns:
        conn.execute("ALTER TABLE trades ADD COLUMN exchange_code TEXT DEFAULT 'KRX'")
    if "selection_context" not in columns:
        conn.execute("ALTER TABLE trades ADD COLUMN selection_context TEXT")
    # Context tree tables for multi-layered memory management
    conn.execute(
@@ -88,6 +91,27 @@ def init_db(db_path: str) -> sqlite3.Connection:
        """
    )
    # Playbook storage for pre-market strategy persistence
    conn.execute(
        """
        CREATE TABLE IF NOT EXISTS playbooks (
            id INTEGER PRIMARY KEY AUTOINCREMENT,
            date TEXT NOT NULL,
            market TEXT NOT NULL,
            status TEXT NOT NULL DEFAULT 'pending',
            playbook_json TEXT NOT NULL,
            generated_at TEXT NOT NULL,
            token_count INTEGER DEFAULT 0,
            scenario_count INTEGER DEFAULT 0,
            match_count INTEGER DEFAULT 0,
            UNIQUE(date, market)
        )
        """
    )
    conn.execute("CREATE INDEX IF NOT EXISTS idx_playbooks_date ON playbooks(date)")
    conn.execute("CREATE INDEX IF NOT EXISTS idx_playbooks_market ON playbooks(market)")
    # Create indices for efficient context queries
    conn.execute("CREATE INDEX IF NOT EXISTS idx_contexts_layer ON contexts(layer)")
    conn.execute("CREATE INDEX IF NOT EXISTS idx_contexts_timeframe ON contexts(timeframe)")
@@ -118,15 +142,33 @@ def log_trade(
    pnl: float = 0.0,
    market: str = "KR",
    exchange_code: str = "KRX",
    selection_context: dict[str, any] | None = None,
 ) -> None:
-    """Insert a trade record into the database."""
+    """Insert a trade record into the database.
    Args:
        conn: Database connection
        stock_code: Stock code
        action: Trade action (BUY/SELL/HOLD)
        confidence: Confidence level (0-100)
        rationale: AI decision rationale
        quantity: Number of shares
        price: Trade price
        pnl: Profit/loss
        market: Market code
        exchange_code: Exchange code
        selection_context: Scanner selection data (RSI, volume_ratio, signal, score)
    """
    # Serialize selection context to JSON
    context_json = json.dumps(selection_context) if selection_context else None
    conn.execute(
        """
        INSERT INTO trades (
            timestamp, stock_code, action, confidence, rationale,
-            quantity, price, pnl, market, exchange_code
+            quantity, price, pnl, market, exchange_code, selection_context
        )
-        VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, ?)
+        VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?)
        """,
        (
            datetime.now(UTC).isoformat(),
@@ -139,6 +181,7 @@ def log_trade(
            pnl,
            market,
            exchange_code,
            context_json,
        ),
    )
    conn.commit()
--- a/src/main.py
+++ b/src/main.py
@@ -10,13 +10,14 @@ import argparse
 import asyncio
 import logging
 import signal
 import sys
 from datetime import UTC, datetime
 from typing import Any
 from src.analysis.scanner import MarketScanner
 from src.analysis.smart_scanner import ScanCandidate, SmartVolatilityScanner
 from src.analysis.volatility import VolatilityAnalyzer
-from src.brain.gemini_client import GeminiClient
+from src.brain.context_selector import ContextSelector
 from src.brain.gemini_client import GeminiClient, TradeDecision
 from src.broker.kis_api import KISBroker
 from src.broker.overseas import OverseasBroker
 from src.config import Settings
@@ -30,6 +31,10 @@ from src.logging.decision_logger import DecisionLogger
 from src.logging_config import setup_logging
 from src.markets.schedule import MarketInfo, get_next_market_open, get_open_markets
 from src.notifications.telegram_client import TelegramClient, TelegramCommandHandler
 from src.strategy.models import DayPlaybook
 from src.strategy.playbook_store import PlaybookStore
 from src.strategy.pre_market_planner import PreMarketPlanner
 from src.strategy.scenario_engine import ScenarioEngine
 logger = logging.getLogger(__name__)
@@ -62,14 +67,6 @@ def safe_float(value: str | float | None, default: float = 0.0) -> float:
        return default
 # Target stock codes to monitor per market
 WATCHLISTS = {
    "KR": ["005930", "000660", "035420"],  # Samsung, SK Hynix, NAVER
    "US_NASDAQ": ["AAPL", "MSFT", "GOOGL"],  # Example US stocks
    "US_NYSE": ["JPM", "BAC"],  # Example NYSE stocks
    "JP": ["7203", "6758"],  # Toyota, Sony
 }
 TRADE_INTERVAL_SECONDS = 60
 SCAN_INTERVAL_SECONDS = 60  # Scan markets every 60 seconds
 MAX_CONNECTION_RETRIES = 3
@@ -78,20 +75,12 @@ MAX_CONNECTION_RETRIES = 3
 DAILY_TRADE_SESSIONS = 4  # Number of trading sessions per day
 TRADE_SESSION_INTERVAL_HOURS = 6  # Hours between sessions
 # Full stock universe per market (for scanning)
 # In production, this would be loaded from a database or API
 STOCK_UNIVERSE = {
    "KR": ["005930", "000660", "035420", "051910", "005380", "005490"],
    "US_NASDAQ": ["AAPL", "MSFT", "GOOGL", "AMZN", "NVDA", "TSLA"],
    "US_NYSE": ["JPM", "BAC", "XOM", "JNJ", "V"],
    "JP": ["7203", "6758", "9984", "6861"],
 }
 async def trading_cycle(
    broker: KISBroker,
    overseas_broker: OverseasBroker,
-    brain: GeminiClient,
+    scenario_engine: ScenarioEngine,
    playbook: DayPlaybook,
    risk: RiskManager,
    db_conn: Any,
    decision_logger: DecisionLogger,
@@ -100,6 +89,7 @@ async def trading_cycle(
    telegram: TelegramClient,
    market: MarketInfo,
    stock_code: str,
    scan_candidates: dict[str, dict[str, ScanCandidate]],
 ) -> None:
    """Execute one trading cycle for a single stock."""
    cycle_start_time = asyncio.get_event_loop().time()
@@ -150,13 +140,27 @@ async def trading_cycle(
        else 0.0
    )
-    market_data = {
+    market_data: dict[str, Any] = {
        "stock_code": stock_code,
        "market_name": market.name,
        "current_price": current_price,
        "foreigner_net": foreigner_net,
    }
    # Enrich market_data with scanner metrics for scenario engine
    market_candidates = scan_candidates.get(market.code, {})
    candidate = market_candidates.get(stock_code)
    if candidate:
        market_data["rsi"] = candidate.rsi
        market_data["volume_ratio"] = candidate.volume_ratio
    # Build portfolio data for global rule evaluation
    portfolio_data = {
        "portfolio_pnl_pct": pnl_pct,
        "total_cash": total_cash,
        "total_eval": total_eval,
    }
    # 1.5. Get volatility metrics from context store (L7_REALTIME)
    latest_timeframe = context_store.get_latest_timeframe(ContextLayer.L7_REALTIME)
    volatility_score = 50.0  # Default normal volatility
@@ -193,8 +197,13 @@ async def trading_cycle(
        volume_surge,
    )
-    # 2. Ask the brain for a decision
+    # 2. Evaluate scenario (local, no API call)
-    decision = await brain.decide(market_data)
+    match = scenario_engine.evaluate(playbook, stock_code, market_data, portfolio_data)
    decision = TradeDecision(
        action=match.action.value,
        confidence=match.confidence,
        rationale=match.rationale,
    )
    logger.info(
        "Decision for %s (%s): %s (confidence=%d)",
        stock_code,
@@ -203,6 +212,19 @@ async def trading_cycle(
        decision.confidence,
    )
    # 2.1. Notify scenario match
    if match.matched_scenario is not None:
        try:
            condition_parts = [f"{k}={v}" for k, v in match.match_details.items()]
            await telegram.notify_scenario_matched(
                stock_code=stock_code,
                action=decision.action,
                condition_summary=", ".join(condition_parts) if condition_parts else "matched",
                confidence=float(decision.confidence),
            )
        except Exception as exc:
            logger.warning("Scenario matched notification failed: %s", exc)
    # 2.5. Log decision with context snapshot
    context_snapshot = {
        "L1": {
@@ -215,7 +237,7 @@ async def trading_cycle(
            "purchase_total": purchase_total,
            "pnl_pct": pnl_pct,
        },
-        # L3-L7 will be populated when context tree is implemented
+        "scenario_match": match.match_details,
    }
    input_data = {
        "current_price": current_price,
@@ -292,7 +314,17 @@ async def trading_cycle(
        except Exception as exc:
            logger.warning("Telegram notification failed: %s", exc)
-    # 6. Log trade
+    # 6. Log trade with selection context
    selection_context = None
    if stock_code in market_candidates:
        candidate = market_candidates[stock_code]
        selection_context = {
            "rsi": candidate.rsi,
            "volume_ratio": candidate.volume_ratio,
            "signal": candidate.signal,
            "score": candidate.score,
        }
    log_trade(
        conn=db_conn,
        stock_code=stock_code,
@@ -301,6 +333,7 @@ async def trading_cycle(
        rationale=decision.rationale,
        market=market.code,
        exchange_code=market.exchange_code,
        selection_context=selection_context,
    )
    # 7. Latency monitoring
@@ -328,7 +361,9 @@ async def trading_cycle(
 async def run_daily_session(
    broker: KISBroker,
    overseas_broker: OverseasBroker,
-    brain: GeminiClient,
+    scenario_engine: ScenarioEngine,
    playbook_store: PlaybookStore,
    pre_market_planner: PreMarketPlanner,
    risk: RiskManager,
    db_conn: Any,
    decision_logger: DecisionLogger,
@@ -336,13 +371,12 @@ async def run_daily_session(
    criticality_assessor: CriticalityAssessor,
    telegram: TelegramClient,
    settings: Settings,
    smart_scanner: SmartVolatilityScanner | None = None,
 ) -> None:
    """Execute one daily trading session.
-    Designed for API efficiency with Gemini Free tier:
+    V2 proactive strategy: 1 Gemini call for playbook generation,
-    - Batch decision making (1 API call per market)
+    then local scenario evaluation per stock (0 API calls).
    - Runs N times per day at fixed intervals
    - Minimizes API usage while maintaining trading capability
    """
    # Get currently open markets
    open_markets = get_open_markets(settings.enabled_market_list)
@@ -355,21 +389,66 @@ async def run_daily_session(
    # Process each open market
    for market in open_markets:
-        # Get watchlist for this market
+        # Use market-local date for playbook keying
-        watchlist = WATCHLISTS.get(market.code, [])
+        market_today = datetime.now(market.timezone).date()
-        if not watchlist:
+
-            logger.debug("No watchlist for market %s", market.code)
+        # Dynamic stock discovery via scanner (no static watchlists)
        candidates_list: list[ScanCandidate] = []
        try:
            candidates_list = await smart_scanner.scan() if smart_scanner else []
        except Exception as exc:
            logger.error("Smart Scanner failed for %s: %s", market.name, exc)
        if not candidates_list:
            logger.info("No scanner candidates for market %s — skipping", market.code)
            continue
        watchlist = [c.stock_code for c in candidates_list]
        candidate_map = {c.stock_code: c for c in candidates_list}
        logger.info("Processing market: %s (%d stocks)", market.name, len(watchlist))
-        # Collect market data for all stocks in the watchlist
+        # Generate or load playbook (1 Gemini API call per market per day)
        playbook = playbook_store.load(market_today, market.code)
        if playbook is None:
            try:
                playbook = await pre_market_planner.generate_playbook(
                    market=market.code,
                    candidates=candidates_list,
                    today=market_today,
                )
                playbook_store.save(playbook)
                try:
                    await telegram.notify_playbook_generated(
                        market=market.code,
                        stock_count=playbook.stock_count,
                        scenario_count=playbook.scenario_count,
                        token_count=playbook.token_count,
                    )
                except Exception as exc:
                    logger.warning("Playbook notification failed: %s", exc)
                logger.info(
                    "Generated playbook for %s: %d stocks, %d scenarios",
                    market.code, playbook.stock_count, playbook.scenario_count,
                )
            except Exception as exc:
                logger.error("Playbook generation failed for %s: %s", market.code, exc)
                try:
                    await telegram.notify_playbook_failed(
                        market=market.code, reason=str(exc)[:200],
                    )
                except Exception as notify_exc:
                    logger.warning("Playbook failed notification error: %s", notify_exc)
                playbook = PreMarketPlanner._empty_playbook(market_today, market.code)
        # Collect market data for all stocks from scanner
        stocks_data = []
        for stock_code in watchlist:
            try:
                if market.is_domestic:
                    orderbook = await broker.get_orderbook(stock_code)
-                    current_price = safe_float(orderbook.get("output1", {}).get("stck_prpr", "0"))
+                    current_price = safe_float(
                        orderbook.get("output1", {}).get("stck_prpr", "0")
                    )
                    foreigner_net = safe_float(
                        orderbook.get("output1", {}).get("frgn_ntby_qty", "0")
                    )
@@ -377,17 +456,23 @@ async def run_daily_session(
                    price_data = await overseas_broker.get_overseas_price(
                        market.exchange_code, stock_code
                    )
-                    current_price = safe_float(price_data.get("output", {}).get("last", "0"))
+                    current_price = safe_float(
                        price_data.get("output", {}).get("last", "0")
                    )
                    foreigner_net = 0.0
-                stocks_data.append(
+                stock_data: dict[str, Any] = {
                    {
                    "stock_code": stock_code,
                    "market_name": market.name,
                    "current_price": current_price,
                    "foreigner_net": foreigner_net,
                }
-                )
+                # Enrich with scanner metrics
                cand = candidate_map.get(stock_code)
                if cand:
                    stock_data["rsi"] = cand.rsi
                    stock_data["volume_ratio"] = cand.volume_ratio
                stocks_data.append(stock_data)
            except Exception as exc:
                logger.error("Failed to fetch data for %s: %s", stock_code, exc)
                continue
@@ -396,17 +481,19 @@ async def run_daily_session(
            logger.warning("No valid stock data for market %s", market.code)
            continue
        # Get batch decisions (1 API call for all stocks in this market)
        logger.info("Requesting batch decision for %d stocks in %s", len(stocks_data), market.name)
        decisions = await brain.decide_batch(stocks_data)
        # Get balance data once for the market
        if market.is_domestic:
            balance_data = await broker.get_balance()
            output2 = balance_data.get("output2", [{}])
-            total_eval = safe_float(output2[0].get("tot_evlu_amt", "0")) if output2 else 0
+            total_eval = safe_float(
-            total_cash = safe_float(output2[0].get("dnca_tot_amt", "0")) if output2 else 0
+                output2[0].get("tot_evlu_amt", "0")
-            purchase_total = safe_float(output2[0].get("pchs_amt_smtl_amt", "0")) if output2 else 0
+            ) if output2 else 0
            total_cash = safe_float(
                output2[0].get("dnca_tot_amt", "0")
            ) if output2 else 0
            purchase_total = safe_float(
                output2[0].get("pchs_amt_smtl_amt", "0")
            ) if output2 else 0
        else:
            balance_data = await overseas_broker.get_overseas_balance(market.exchange_code)
            output2 = balance_data.get("output2", [{}])
@@ -419,21 +506,37 @@ async def run_daily_session(
            total_eval = safe_float(balance_info.get("frcr_evlu_tota", "0") or "0")
            total_cash = safe_float(balance_info.get("frcr_dncl_amt_2", "0") or "0")
-            purchase_total = safe_float(balance_info.get("frcr_buy_amt_smtl", "0") or "0")
+            purchase_total = safe_float(
                balance_info.get("frcr_buy_amt_smtl", "0") or "0"
            )
        # Calculate daily P&L %
        pnl_pct = (
-            ((total_eval - purchase_total) / purchase_total * 100) if purchase_total > 0 else 0.0
+            ((total_eval - purchase_total) / purchase_total * 100)
            if purchase_total > 0
            else 0.0
        )
        portfolio_data = {
            "portfolio_pnl_pct": pnl_pct,
            "total_cash": total_cash,
            "total_eval": total_eval,
        }
-        # Execute decisions for each stock
+        # Evaluate scenarios for each stock (local, no API calls)
        logger.info(
            "Evaluating %d stocks against playbook for %s",
            len(stocks_data), market.name,
        )
        for stock_data in stocks_data:
            stock_code = stock_data["stock_code"]
-            decision = decisions.get(stock_code)
+            match = scenario_engine.evaluate(
-
+                playbook, stock_code, stock_data, portfolio_data,
-            if not decision:
+            )
-                logger.warning("No decision for %s — skipping", stock_code)
+            decision = TradeDecision(
-                continue
+                action=match.action.value,
                confidence=match.confidence,
                rationale=match.rationale,
            )
            logger.info(
                "Decision for %s (%s): %s (confidence=%d)",
@@ -455,6 +558,7 @@ async def run_daily_session(
                    "purchase_total": purchase_total,
                    "pnl_pct": pnl_pct,
                },
                "scenario_match": match.match_details,
            }
            input_data = {
                "current_price": stock_data["current_price"],
@@ -506,7 +610,9 @@ async def run_daily_session(
                            threshold=exc.threshold,
                        )
                    except Exception as notify_exc:
-                        logger.warning("Circuit breaker notification failed: %s", notify_exc)
+                        logger.warning(
                            "Circuit breaker notification failed: %s", notify_exc
                        )
                    raise
                # Send order
@@ -541,7 +647,9 @@ async def run_daily_session(
                    except Exception as exc:
                        logger.warning("Telegram notification failed: %s", exc)
                except Exception as exc:
-                    logger.error("Order execution failed for %s: %s", stock_code, exc)
+                    logger.error(
                        "Order execution failed for %s: %s", stock_code, exc
                    )
                    continue
            # Log trade
@@ -568,6 +676,20 @@ async def run(settings: Settings) -> None:
    decision_logger = DecisionLogger(db_conn)
    context_store = ContextStore(db_conn)
    # V2 proactive strategy components
    context_selector = ContextSelector(context_store)
    scenario_engine = ScenarioEngine()
    playbook_store = PlaybookStore(db_conn)
    pre_market_planner = PreMarketPlanner(
        gemini_client=brain,
        context_store=context_store,
        context_selector=context_selector,
        settings=settings,
    )
    # Track playbooks per market (in-memory cache)
    playbooks: dict[str, DayPlaybook] = {}
    # Initialize Telegram notifications
    telegram = TelegramClient(
        bot_token=settings.TELEGRAM_BOT_TOKEN,
@@ -579,25 +701,10 @@ async def run(settings: Settings) -> None:
    command_handler = TelegramCommandHandler(telegram)
    # Register basic commands
    async def handle_start() -> None:
        """Handle /start command."""
        message = (
            "<b>🤖 The Ouroboros Trading Bot</b>\n\n"
            "AI-powered global stock trading agent with real-time notifications.\n\n"
            "<b>Available commands:</b>\n"
            "/help - Show this help message\n"
            "/status - Current trading status\n"
            "/positions - View holdings\n"
            "/stop - Pause trading\n"
            "/resume - Resume trading"
        )
        await telegram.send_message(message)
    async def handle_help() -> None:
        """Handle /help command."""
        message = (
            "<b>📖 Available Commands</b>\n\n"
            "/start - Welcome message\n"
            "/help - Show available commands\n"
            "/status - Trading status (mode, markets, P&L)\n"
            "/positions - Current holdings\n"
@@ -639,11 +746,21 @@ async def run(settings: Settings) -> None:
            # Get trading status
            trading_status = "Active" if pause_trading.is_set() else "Paused"
-            # Get current P&L from risk manager
+            # Calculate P&L from balance data
            try:
                balance = await broker.get_balance()
-                current_pnl = risk.calculate_pnl(balance)
+                output2 = balance.get("output2", [{}])
                if output2:
                    total_eval = safe_float(output2[0].get("tot_evlu_amt", "0"))
                    purchase_total = safe_float(output2[0].get("pchs_amt_smtl_amt", "0"))
                    current_pnl = (
                        ((total_eval - purchase_total) / purchase_total * 100)
                        if purchase_total > 0
                        else 0.0
                    )
                    pnl_str = f"{current_pnl:+.2f}%"
                else:
                    pnl_str = "N/A"
            except Exception as exc:
                logger.warning("Failed to get P&L: %s", exc)
                pnl_str = "N/A"
@@ -657,7 +774,7 @@ async def run(settings: Settings) -> None:
                f"<b>Markets:</b> {markets_str}\n"
                f"<b>Trading:</b> {trading_status}\n\n"
                f"<b>Current P&L:</b> {pnl_str}\n"
-                f"<b>Circuit Breaker:</b> {risk.circuit_breaker_threshold:.1f}%"
+                f"<b>Circuit Breaker:</b> {risk._cb_threshold:.1f}%"
            )
            await telegram.send_message(message)
@@ -668,52 +785,40 @@ async def run(settings: Settings) -> None:
            )
    async def handle_positions() -> None:
-        """Handle /positions command - show current holdings."""
+        """Handle /positions command - show account summary."""
        try:
            # Get account balance
            balance = await broker.get_balance()
            output2 = balance.get("output2", [{}])
-            # Check if there are any positions
+            if not output2:
            if not balance.stocks:
                await telegram.send_message(
-                    "<b>💼 Current Holdings</b>\n\n"
+                    "<b>💼 Account Summary</b>\n\n"
-                    "No positions currently held."
+                    "No balance information available."
                )
                return
-            # Group positions by market (domestic vs overseas)
+            # Extract account-level data
-            domestic_positions = []
+            total_eval = safe_float(output2[0].get("tot_evlu_amt", "0"))
-            overseas_positions = []
+            total_cash = safe_float(output2[0].get("dnca_tot_amt", "0"))
            purchase_total = safe_float(output2[0].get("pchs_amt_smtl_amt", "0"))
-            for stock in balance.stocks:
+            # Calculate P&L
-                position_str = (
+            pnl_pct = (
-                    f"• {stock.code}: {stock.quantity} shares @ "
+                ((total_eval - purchase_total) / purchase_total * 100)
-                    f"{stock.avg_price:,.0f}"
+                if purchase_total > 0
                else 0.0
            )
            pnl_sign = "+" if pnl_pct >= 0 else ""
-                # Simple heuristic: if code is 6 digits, it's domestic (Korea)
+            message = (
-                if len(stock.code) == 6 and stock.code.isdigit():
+                "<b>💼 Account Summary</b>\n\n"
-                    domestic_positions.append(position_str)
+                f"<b>Total Evaluation:</b> ₩{total_eval:,.0f}\n"
-                else:
+                f"<b>Available Cash:</b> ₩{total_cash:,.0f}\n"
-                    overseas_positions.append(position_str)
+                f"<b>Purchase Total:</b> ₩{purchase_total:,.0f}\n"
-
+                f"<b>P&L:</b> {pnl_sign}{pnl_pct:.2f}%\n\n"
-            # Build message
+                "<i>Note: Individual position details require API enhancement</i>"
            message_parts = ["<b>💼 Current Holdings</b>\n"]
            if domestic_positions:
                message_parts.append("\n🇰🇷 <b>Korea</b>")
                message_parts.extend(domestic_positions)
            if overseas_positions:
                message_parts.append("\n🇺🇸 <b>Overseas</b>")
                message_parts.extend(overseas_positions)
            # Add total cash
            message_parts.append(
                f"\n<b>Cash:</b> ₩{balance.total_cash:,.0f}"
            )
            message = "\n".join(message_parts)
            await telegram.send_message(message)
        except Exception as exc:
@@ -722,7 +827,6 @@ async def run(settings: Settings) -> None:
                "<b>⚠️ Error</b>\n\nFailed to retrieve positions."
            )
    command_handler.register_command("start", handle_start)
    command_handler.register_command("help", handle_help)
    command_handler.register_command("stop", handle_stop)
    command_handler.register_command("resume", handle_resume)
@@ -740,6 +844,19 @@ async def run(settings: Settings) -> None:
        max_concurrent_scans=1,  # Fully serialized to avoid EGW00201
    )
    # Initialize smart scanner (Python-first, AI-last pipeline)
    smart_scanner = SmartVolatilityScanner(
        broker=broker,
        volatility_analyzer=volatility_analyzer,
        settings=settings,
    )
    # Track scan candidates per market for selection context logging
    scan_candidates: dict[str, dict[str, ScanCandidate]] = {}  # market -> {stock_code -> candidate}
    # Active stocks per market (dynamically discovered by scanner)
    active_stocks: dict[str, list[str]] = {}  # market_code -> [stock_codes]
    # Initialize latency control system
    criticality_assessor = CriticalityAssessor(
        critical_pnl_threshold=-2.5,  # Near circuit breaker at -3.0%
@@ -804,7 +921,9 @@ async def run(settings: Settings) -> None:
                    await run_daily_session(
                        broker,
                        overseas_broker,
-                        brain,
+                        scenario_engine,
                        playbook_store,
                        pre_market_planner,
                        risk,
                        db_conn,
                        decision_logger,
@@ -812,6 +931,7 @@ async def run(settings: Settings) -> None:
                        criticality_assessor,
                        telegram,
                        settings,
                        smart_scanner=smart_scanner,
                    )
                except CircuitBreakerTripped:
                    logger.critical("Circuit breaker tripped — shutting down")
@@ -851,6 +971,8 @@ async def run(settings: Settings) -> None:
                            except Exception as exc:
                                logger.warning("Market close notification failed: %s", exc)
                            _market_states[market_code] = False
                            # Clear playbook for closed market (new one generated next open)
                            playbooks.pop(market_code, None)
                    # No markets open — wait until next market opens
                    try:
@@ -885,59 +1007,129 @@ async def run(settings: Settings) -> None:
                            logger.warning("Market open notification failed: %s", exc)
                        _market_states[market.code] = True
-                    # Volatility Hunter: Scan market periodically to update watchlist
+                    # Smart Scanner: dynamic stock discovery (no static watchlists)
                    now_timestamp = asyncio.get_event_loop().time()
                    last_scan = last_scan_time.get(market.code, 0.0)
-                    if now_timestamp - last_scan >= SCAN_INTERVAL_SECONDS:
+                    rescan_interval = settings.RESCAN_INTERVAL_SECONDS
                    if now_timestamp - last_scan >= rescan_interval:
                        try:
-                            # Scan all stocks in the universe
+                            logger.info("Smart Scanner: Scanning %s market", market.name)
-                            stock_universe = STOCK_UNIVERSE.get(market.code, [])
+
-                            if stock_universe:
+                            candidates = await smart_scanner.scan()
-                                logger.info("Volatility Hunter: Scanning %s market", market.name)
+
-                                scan_result = await market_scanner.scan_market(
+                            if candidates:
-                                    market, stock_universe
+                                # Use scanner results directly as trading candidates
                                active_stocks[market.code] = smart_scanner.get_stock_codes(
                                    candidates
                                )
-                                # Update watchlist with top movers
+                                # Store candidates per market for selection context logging
-                                current_watchlist = WATCHLISTS.get(market.code, [])
+                                scan_candidates[market.code] = {
-                                updated_watchlist = market_scanner.get_updated_watchlist(
+                                    c.stock_code: c for c in candidates
-                                    current_watchlist,
+                                }
                                    scan_result,
                                    max_replacements=2,
                                )
                                WATCHLISTS[market.code] = updated_watchlist
                                logger.info(
-                                    "Volatility Hunter: Watchlist updated for %s (%d top movers, %d breakouts)",
+                                    "Smart Scanner: Found %d candidates for %s: %s",
                                    len(candidates),
                                    market.name,
-                                    len(scan_result.top_movers),
+                                    [f"{c.stock_code}(RSI={c.rsi:.0f})" for c in candidates],
                                    len(scan_result.breakouts),
                                )
-                            last_scan_time[market.code] = now_timestamp
+                                # Get market-local date for playbook keying
-                        except Exception as exc:
+                                market_today = datetime.now(
-                            logger.error("Volatility Hunter scan failed for %s: %s", market.name, exc)
+                                    market.timezone
                                ).date()
-                    # Get watchlist for this market
+                                # Load or generate playbook (1 Gemini call per market per day)
-                    watchlist = WATCHLISTS.get(market.code, [])
+                                if market.code not in playbooks:
-                    if not watchlist:
+                                    # Try DB first (survives process restart)
-                        logger.debug("No watchlist for market %s", market.code)
+                                    stored_pb = playbook_store.load(market_today, market.code)
                                    if stored_pb is not None:
                                        playbooks[market.code] = stored_pb
                                        logger.info(
                                            "Loaded existing playbook for %s from DB"
                                            " (%d stocks, %d scenarios)",
                                            market.code,
                                            stored_pb.stock_count,
                                            stored_pb.scenario_count,
                                        )
                                    else:
                                        try:
                                            pb = await pre_market_planner.generate_playbook(
                                                market=market.code,
                                                candidates=candidates,
                                                today=market_today,
                                            )
                                            playbook_store.save(pb)
                                            playbooks[market.code] = pb
                                            try:
                                                await telegram.notify_playbook_generated(
                                                    market=market.code,
                                                    stock_count=pb.stock_count,
                                                    scenario_count=pb.scenario_count,
                                                    token_count=pb.token_count,
                                                )
                                            except Exception as exc:
                                                logger.warning(
                                                    "Playbook notification failed: %s", exc
                                                )
                                        except Exception as exc:
                                            logger.error(
                                                "Playbook generation failed for %s: %s",
                                                market.code, exc,
                                            )
                                            try:
                                                await telegram.notify_playbook_failed(
                                                    market=market.code,
                                                    reason=str(exc)[:200],
                                                )
                                            except Exception:
                                                pass
                                            playbooks[market.code] = (
                                                PreMarketPlanner._empty_playbook(
                                                    market_today, market.code
                                                )
                                            )
                            else:
                                logger.info(
                                    "Smart Scanner: No candidates for %s — no trades", market.name
                                )
                                active_stocks[market.code] = []
                            last_scan_time[market.code] = now_timestamp
                        except Exception as exc:
                            logger.error("Smart Scanner failed for %s: %s", market.name, exc)
                    # Get active stocks from scanner (dynamic, no static fallback)
                    stock_codes = active_stocks.get(market.code, [])
                    if not stock_codes:
                        logger.debug("No active stocks for market %s", market.code)
                        continue
-                    logger.info("Processing market: %s (%d stocks)", market.name, len(watchlist))
+                    logger.info("Processing market: %s (%d stocks)", market.name, len(stock_codes))
-                    # Process each stock in the watchlist
+                    # Process each stock from scanner results
-                    for stock_code in watchlist:
+                    for stock_code in stock_codes:
                        if shutdown.is_set():
                            break
                        # Get playbook for this market
                        market_playbook = playbooks.get(
                            market.code,
                            PreMarketPlanner._empty_playbook(
                                datetime.now(market.timezone).date(), market.code
                            ),
                        )
                        # Retry logic for connection errors
                        for attempt in range(1, MAX_CONNECTION_RETRIES + 1):
                            try:
                                await trading_cycle(
                                    broker,
                                    overseas_broker,
-                                    brain,
+                                    scenario_engine,
                                    market_playbook,
                                    risk,
                                    db_conn,
                                    decision_logger,
@@ -946,6 +1138,7 @@ async def run(settings: Settings) -> None:
                                    telegram,
                                    market,
                                    stock_code,
                                    scan_candidates,
                                )
                                break  # Success — exit retry loop
                            except CircuitBreakerTripped as exc:
@@ -985,7 +1178,8 @@ async def run(settings: Settings) -> None:
                metrics = await priority_queue.get_metrics()
                if metrics.total_enqueued > 0:
                    logger.info(
-                        "Priority queue metrics: enqueued=%d, dequeued=%d, size=%d, timeouts=%d, errors=%d",
+                        "Priority queue metrics: enqueued=%d, dequeued=%d,"
                        " size=%d, timeouts=%d, errors=%d",
                        metrics.total_enqueued,
                        metrics.total_dequeued,
                        metrics.current_size,
--- a/src/notifications/telegram_client.py
+++ b/src/notifications/telegram_client.py
@@ -304,6 +304,77 @@ class TelegramClient:
            NotificationMessage(priority=NotificationPriority.MEDIUM, message=message)
        )
    async def notify_playbook_generated(
        self,
        market: str,
        stock_count: int,
        scenario_count: int,
        token_count: int,
    ) -> None:
        """
        Notify that a daily playbook was generated.
        Args:
            market: Market code (e.g., "KR", "US")
            stock_count: Number of stocks in the playbook
            scenario_count: Total number of scenarios
            token_count: Gemini token usage for the playbook
        """
        message = (
            f"<b>Playbook Generated</b>\n"
            f"Market: {market}\n"
            f"Stocks: {stock_count}\n"
            f"Scenarios: {scenario_count}\n"
            f"Tokens: {token_count}"
        )
        await self._send_notification(
            NotificationMessage(priority=NotificationPriority.MEDIUM, message=message)
        )
    async def notify_scenario_matched(
        self,
        stock_code: str,
        action: str,
        condition_summary: str,
        confidence: float,
    ) -> None:
        """
        Notify that a scenario matched for a stock.
        Args:
            stock_code: Stock ticker symbol
            action: Scenario action (BUY/SELL/HOLD/REDUCE_ALL)
            condition_summary: Short summary of the matched condition
            confidence: Scenario confidence (0-100)
        """
        message = (
            f"<b>Scenario Matched</b>\n"
            f"Symbol: <code>{stock_code}</code>\n"
            f"Action: {action}\n"
            f"Condition: {condition_summary}\n"
            f"Confidence: {confidence:.0f}%"
        )
        await self._send_notification(
            NotificationMessage(priority=NotificationPriority.HIGH, message=message)
        )
    async def notify_playbook_failed(self, market: str, reason: str) -> None:
        """
        Notify that playbook generation failed.
        Args:
            market: Market code (e.g., "KR", "US")
            reason: Failure reason summary
        """
        message = (
            f"<b>Playbook Failed</b>\n"
            f"Market: {market}\n"
            f"Reason: {reason[:200]}"
        )
        await self._send_notification(
            NotificationMessage(priority=NotificationPriority.HIGH, message=message)
        )
    async def notify_system_shutdown(self, reason: str) -> None:
        """
        Notify system shutdown.
@@ -492,7 +563,8 @@ class TelegramCommandHandler:
            if not command_parts:
                return
-            command_name = command_parts[0]
+            # Remove @botname suffix if present (for group chats)
            command_name = command_parts[0].split("@")[0]
            # Execute handler
            handler = self._commands.get(command_name)
--- a/src/strategy/init.py
+++ b/src/strategy/init.py
--- a/src/strategy/models.py
+++ b/src/strategy/models.py
@@ -0,0 +1,164 @@
 """Pydantic models for pre-market scenario planning.
 Defines the data contracts for the proactive strategy system:
 - AI generates DayPlaybook before market open (structured JSON scenarios)
 - Local ScenarioEngine matches conditions during market hours (no API calls)
 """
 from __future__ import annotations
 from datetime import UTC, date, datetime
 from enum import Enum
 from pydantic import BaseModel, Field, field_validator
 class ScenarioAction(str, Enum):
    """Actions that can be taken by scenarios."""
    BUY = "BUY"
    SELL = "SELL"
    HOLD = "HOLD"
    REDUCE_ALL = "REDUCE_ALL"
 class MarketOutlook(str, Enum):
    """AI's assessment of market direction."""
    BULLISH = "bullish"
    NEUTRAL_TO_BULLISH = "neutral_to_bullish"
    NEUTRAL = "neutral"
    NEUTRAL_TO_BEARISH = "neutral_to_bearish"
    BEARISH = "bearish"
 class PlaybookStatus(str, Enum):
    """Lifecycle status of a playbook."""
    PENDING = "pending"
    READY = "ready"
    FAILED = "failed"
    EXPIRED = "expired"
 class StockCondition(BaseModel):
    """Condition fields for scenario matching (all optional, AND-combined).
    The ScenarioEngine evaluates all non-None fields as AND conditions.
    A condition matches only if ALL specified fields are satisfied.
    """
    rsi_below: float | None = None
    rsi_above: float | None = None
    volume_ratio_above: float | None = None
    volume_ratio_below: float | None = None
    price_above: float | None = None
    price_below: float | None = None
    price_change_pct_above: float | None = None
    price_change_pct_below: float | None = None
    def has_any_condition(self) -> bool:
        """Check if at least one condition field is set."""
        return any(
            v is not None
            for v in (
                self.rsi_below,
                self.rsi_above,
                self.volume_ratio_above,
                self.volume_ratio_below,
                self.price_above,
                self.price_below,
                self.price_change_pct_above,
                self.price_change_pct_below,
            )
        )
 class StockScenario(BaseModel):
    """A single condition-action rule for one stock."""
    condition: StockCondition
    action: ScenarioAction
    confidence: int = Field(ge=0, le=100)
    allocation_pct: float = Field(ge=0, le=100, default=10.0)
    stop_loss_pct: float = Field(le=0, default=-2.0)
    take_profit_pct: float = Field(ge=0, default=3.0)
    rationale: str = ""
 class StockPlaybook(BaseModel):
    """All scenarios for a single stock (ordered by priority)."""
    stock_code: str
    stock_name: str = ""
    scenarios: list[StockScenario] = Field(min_length=1)
 class GlobalRule(BaseModel):
    """Portfolio-level rule (checked before stock-level scenarios)."""
    condition: str  # e.g. "portfolio_pnl_pct < -2.0"
    action: ScenarioAction
    rationale: str = ""
 class CrossMarketContext(BaseModel):
    """Summary of another market's state for cross-market awareness."""
    market: str  # e.g. "US" or "KR"
    date: str
    total_pnl: float = 0.0
    win_rate: float = 0.0
    index_change_pct: float = 0.0  # e.g. KOSPI or S&P500 change
    key_events: list[str] = Field(default_factory=list)
    lessons: list[str] = Field(default_factory=list)
 class DayPlaybook(BaseModel):
    """Complete playbook for a single trading day in a single market.
    Generated by PreMarketPlanner (1 Gemini call per market per day).
    Consumed by ScenarioEngine during market hours (0 API calls).
    """
    date: date
    market: str  # "KR" or "US"
    market_outlook: MarketOutlook = MarketOutlook.NEUTRAL
    generated_at: str = ""  # ISO timestamp
    gemini_model: str = ""
    token_count: int = 0
    global_rules: list[GlobalRule] = Field(default_factory=list)
    stock_playbooks: list[StockPlaybook] = Field(default_factory=list)
    default_action: ScenarioAction = ScenarioAction.HOLD
    context_summary: dict = Field(default_factory=dict)
    cross_market: CrossMarketContext | None = None
    @field_validator("stock_playbooks")
    @classmethod
    def validate_unique_stocks(cls, v: list[StockPlaybook]) -> list[StockPlaybook]:
        codes = [pb.stock_code for pb in v]
        if len(codes) != len(set(codes)):
            raise ValueError("Duplicate stock codes in playbook")
        return v
    def get_stock_playbook(self, stock_code: str) -> StockPlaybook | None:
        """Find the playbook for a specific stock."""
        for pb in self.stock_playbooks:
            if pb.stock_code == stock_code:
                return pb
        return None
    @property
    def scenario_count(self) -> int:
        """Total number of scenarios across all stocks."""
        return sum(len(pb.scenarios) for pb in self.stock_playbooks)
    @property
    def stock_count(self) -> int:
        """Number of stocks with scenarios."""
        return len(self.stock_playbooks)
    def model_post_init(self, __context: object) -> None:
        """Set generated_at if not provided."""
        if not self.generated_at:
            self.generated_at = datetime.now(UTC).isoformat()
--- a/src/strategy/playbook_store.py
+++ b/src/strategy/playbook_store.py
@@ -0,0 +1,184 @@
 """Playbook persistence layer — CRUD for DayPlaybook in SQLite.
 Stores and retrieves market-specific daily playbooks with JSON serialization.
 Designed for the pre-market strategy system (one playbook per market per day).
 """
 from __future__ import annotations
 import json
 import logging
 import sqlite3
 from datetime import date
 from src.strategy.models import DayPlaybook, PlaybookStatus
 logger = logging.getLogger(__name__)
 class PlaybookStore:
    """CRUD operations for DayPlaybook persistence."""
    def __init__(self, conn: sqlite3.Connection) -> None:
        self._conn = conn
    def save(self, playbook: DayPlaybook) -> int:
        """Save or replace a playbook for a given date+market.
        Uses INSERT OR REPLACE to enforce UNIQUE(date, market).
        Returns:
            The row id of the inserted/replaced record.
        """
        playbook_json = playbook.model_dump_json()
        cursor = self._conn.execute(
            """
            INSERT OR REPLACE INTO playbooks
                (date, market, status, playbook_json, generated_at,
                 token_count, scenario_count, match_count)
            VALUES (?, ?, ?, ?, ?, ?, ?, ?)
            """,
            (
                playbook.date.isoformat(),
                playbook.market,
                PlaybookStatus.READY.value,
                playbook_json,
                playbook.generated_at,
                playbook.token_count,
                playbook.scenario_count,
                0,
            ),
        )
        self._conn.commit()
        row_id = cursor.lastrowid or 0
        logger.info(
            "Saved playbook for %s/%s (%d stocks, %d scenarios)",
            playbook.date, playbook.market,
            playbook.stock_count, playbook.scenario_count,
        )
        return row_id
    def load(self, target_date: date, market: str) -> DayPlaybook | None:
        """Load a playbook for a specific date and market.
        Returns:
            DayPlaybook if found, None otherwise.
        """
        row = self._conn.execute(
            "SELECT playbook_json FROM playbooks WHERE date = ? AND market = ?",
            (target_date.isoformat(), market),
        ).fetchone()
        if row is None:
            return None
        return DayPlaybook.model_validate_json(row[0])
    def get_status(self, target_date: date, market: str) -> PlaybookStatus | None:
        """Get the status of a playbook without deserializing the full JSON."""
        row = self._conn.execute(
            "SELECT status FROM playbooks WHERE date = ? AND market = ?",
            (target_date.isoformat(), market),
        ).fetchone()
        if row is None:
            return None
        return PlaybookStatus(row[0])
    def update_status(self, target_date: date, market: str, status: PlaybookStatus) -> bool:
        """Update the status of a playbook.
        Returns:
            True if a row was updated, False if not found.
        """
        cursor = self._conn.execute(
            "UPDATE playbooks SET status = ? WHERE date = ? AND market = ?",
            (status.value, target_date.isoformat(), market),
        )
        self._conn.commit()
        return cursor.rowcount > 0
    def increment_match_count(self, target_date: date, market: str) -> bool:
        """Increment the match_count for tracking scenario hits during the day.
        Returns:
            True if a row was updated, False if not found.
        """
        cursor = self._conn.execute(
            "UPDATE playbooks SET match_count = match_count + 1 WHERE date = ? AND market = ?",
            (target_date.isoformat(), market),
        )
        self._conn.commit()
        return cursor.rowcount > 0
    def get_stats(self, target_date: date, market: str) -> dict | None:
        """Get playbook stats without full deserialization.
        Returns:
            Dict with status, token_count, scenario_count, match_count, or None.
        """
        row = self._conn.execute(
            """
            SELECT status, token_count, scenario_count, match_count, generated_at
            FROM playbooks WHERE date = ? AND market = ?
            """,
            (target_date.isoformat(), market),
        ).fetchone()
        if row is None:
            return None
        return {
            "status": row[0],
            "token_count": row[1],
            "scenario_count": row[2],
            "match_count": row[3],
            "generated_at": row[4],
        }
    def list_recent(self, market: str | None = None, limit: int = 7) -> list[dict]:
        """List recent playbooks with summary info.
        Args:
            market: Filter by market code. None for all markets.
            limit: Max number of results.
        Returns:
            List of dicts with date, market, status, scenario_count, match_count.
        """
        if market is not None:
            rows = self._conn.execute(
                """
                SELECT date, market, status, scenario_count, match_count
                FROM playbooks WHERE market = ?
                ORDER BY date DESC LIMIT ?
                """,
                (market, limit),
            ).fetchall()
        else:
            rows = self._conn.execute(
                """
                SELECT date, market, status, scenario_count, match_count
                FROM playbooks
                ORDER BY date DESC LIMIT ?
                """,
                (limit,),
            ).fetchall()
        return [
            {
                "date": row[0],
                "market": row[1],
                "status": row[2],
                "scenario_count": row[3],
                "match_count": row[4],
            }
            for row in rows
        ]
    def delete(self, target_date: date, market: str) -> bool:
        """Delete a playbook.
        Returns:
            True if a row was deleted, False if not found.
        """
        cursor = self._conn.execute(
            "DELETE FROM playbooks WHERE date = ? AND market = ?",
            (target_date.isoformat(), market),
        )
        self._conn.commit()
        return cursor.rowcount > 0
--- a/src/strategy/pre_market_planner.py
+++ b/src/strategy/pre_market_planner.py
@@ -0,0 +1,419 @@
 """Pre-market planner — generates DayPlaybook via Gemini before market open.
 One Gemini API call per market per day. Candidates come from SmartVolatilityScanner.
 On failure, returns a defensive playbook (all HOLD, no trades).
 """
 from __future__ import annotations
 import json
 import logging
 from datetime import date
 from typing import Any
 from src.analysis.smart_scanner import ScanCandidate
 from src.brain.context_selector import ContextSelector, DecisionType
 from src.brain.gemini_client import GeminiClient
 from src.config import Settings
 from src.context.store import ContextLayer, ContextStore
 from src.strategy.models import (
    CrossMarketContext,
    DayPlaybook,
    GlobalRule,
    MarketOutlook,
    ScenarioAction,
    StockCondition,
    StockPlaybook,
    StockScenario,
 )
 logger = logging.getLogger(__name__)
 # Mapping from string to MarketOutlook enum
 _OUTLOOK_MAP: dict[str, MarketOutlook] = {
    "bullish": MarketOutlook.BULLISH,
    "neutral_to_bullish": MarketOutlook.NEUTRAL_TO_BULLISH,
    "neutral": MarketOutlook.NEUTRAL,
    "neutral_to_bearish": MarketOutlook.NEUTRAL_TO_BEARISH,
    "bearish": MarketOutlook.BEARISH,
 }
 _ACTION_MAP: dict[str, ScenarioAction] = {
    "BUY": ScenarioAction.BUY,
    "SELL": ScenarioAction.SELL,
    "HOLD": ScenarioAction.HOLD,
    "REDUCE_ALL": ScenarioAction.REDUCE_ALL,
 }
 class PreMarketPlanner:
    """Generates a DayPlaybook by calling Gemini once before market open.
    Flow:
    1. Collect strategic context (L5-L7) + cross-market context
    2. Build a structured prompt with scan candidates
    3. Call Gemini for JSON scenario generation
    4. Parse and validate response into DayPlaybook
    5. On failure → defensive playbook (HOLD everything)
    """
    def __init__(
        self,
        gemini_client: GeminiClient,
        context_store: ContextStore,
        context_selector: ContextSelector,
        settings: Settings,
    ) -> None:
        self._gemini = gemini_client
        self._context_store = context_store
        self._context_selector = context_selector
        self._settings = settings
    async def generate_playbook(
        self,
        market: str,
        candidates: list[ScanCandidate],
        today: date | None = None,
    ) -> DayPlaybook:
        """Generate a DayPlaybook for a market using Gemini.
        Args:
            market: Market code ("KR" or "US")
            candidates: Stock candidates from SmartVolatilityScanner
            today: Override date (defaults to date.today()). Use market-local date.
        Returns:
            DayPlaybook with scenarios. Empty/defensive if no candidates or failure.
        """
        if today is None:
            today = date.today()
        if not candidates:
            logger.info("No candidates for %s — returning empty playbook", market)
            return self._empty_playbook(today, market)
        try:
            # 1. Gather context
            context_data = self._gather_context()
            cross_market = self.build_cross_market_context(market, today)
            # 2. Build prompt
            prompt = self._build_prompt(market, candidates, context_data, cross_market)
            # 3. Call Gemini
            market_data = {
                "stock_code": "PLANNER",
                "current_price": 0,
                "prompt_override": prompt,
            }
            decision = await self._gemini.decide(market_data)
            # 4. Parse response
            playbook = self._parse_response(
                decision.rationale, today, market, candidates, cross_market
            )
            playbook_with_tokens = playbook.model_copy(
                update={"token_count": decision.token_count}
            )
            logger.info(
                "Generated playbook for %s: %d stocks, %d scenarios, %d tokens",
                market,
                playbook_with_tokens.stock_count,
                playbook_with_tokens.scenario_count,
                playbook_with_tokens.token_count,
            )
            return playbook_with_tokens
        except Exception:
            logger.exception("Playbook generation failed for %s", market)
            if self._settings.DEFENSIVE_PLAYBOOK_ON_FAILURE:
                return self._defensive_playbook(today, market, candidates)
            return self._empty_playbook(today, market)
    def build_cross_market_context(
        self, target_market: str, today: date | None = None,
    ) -> CrossMarketContext | None:
        """Build cross-market context from the other market's L6 data.
        KR planner → reads US scorecard from previous night.
        US planner → reads KR scorecard from today.
        Args:
            target_market: The market being planned ("KR" or "US")
            today: Override date (defaults to date.today()). Use market-local date.
        """
        other_market = "US" if target_market == "KR" else "KR"
        if today is None:
            today = date.today()
        timeframe = today.isoformat()
        scorecard_key = f"scorecard_{other_market}"
        scorecard_data = self._context_store.get_context(
            ContextLayer.L6_DAILY, timeframe, scorecard_key
        )
        if scorecard_data is None:
            logger.debug("No cross-market scorecard found for %s", other_market)
            return None
        if isinstance(scorecard_data, str):
            try:
                scorecard_data = json.loads(scorecard_data)
            except (json.JSONDecodeError, TypeError):
                return None
        if not isinstance(scorecard_data, dict):
            return None
        return CrossMarketContext(
            market=other_market,
            date=timeframe,
            total_pnl=float(scorecard_data.get("total_pnl", 0.0)),
            win_rate=float(scorecard_data.get("win_rate", 0.0)),
            index_change_pct=float(scorecard_data.get("index_change_pct", 0.0)),
            key_events=scorecard_data.get("key_events", []),
            lessons=scorecard_data.get("lessons", []),
        )
    def _gather_context(self) -> dict[str, Any]:
        """Gather strategic context using ContextSelector."""
        layers = self._context_selector.select_layers(
            decision_type=DecisionType.STRATEGIC,
            include_realtime=True,
        )
        return self._context_selector.get_context_data(layers, max_items_per_layer=10)
    def _build_prompt(
        self,
        market: str,
        candidates: list[ScanCandidate],
        context_data: dict[str, Any],
        cross_market: CrossMarketContext | None,
    ) -> str:
        """Build a structured prompt for Gemini to generate scenario JSON."""
        max_scenarios = self._settings.MAX_SCENARIOS_PER_STOCK
        candidates_text = "\n".join(
            f"  - {c.stock_code} ({c.name}): price={c.price}, "
            f"RSI={c.rsi:.1f}, volume_ratio={c.volume_ratio:.1f}, "
            f"signal={c.signal}, score={c.score:.1f}"
            for c in candidates
        )
        cross_market_text = ""
        if cross_market:
            cross_market_text = (
                f"\n## Other Market ({cross_market.market}) Summary\n"
                f"- P&L: {cross_market.total_pnl:+.2f}%\n"
                f"- Win Rate: {cross_market.win_rate:.0f}%\n"
                f"- Index Change: {cross_market.index_change_pct:+.2f}%\n"
            )
            if cross_market.lessons:
                cross_market_text += f"- Lessons: {'; '.join(cross_market.lessons[:3])}\n"
        context_text = ""
        if context_data:
            context_text = "\n## Strategic Context\n"
            for layer_name, layer_data in context_data.items():
                if layer_data:
                    context_text += f"### {layer_name}\n"
                    for key, value in list(layer_data.items())[:5]:
                        context_text += f"  - {key}: {value}\n"
        return (
            f"You are a pre-market trading strategist for the {market} market.\n"
            f"Generate structured trading scenarios for today.\n\n"
            f"## Candidates (from volatility scanner)\n{candidates_text}\n"
            f"{cross_market_text}"
            f"{context_text}\n"
            f"## Instructions\n"
            f"Return a JSON object with this exact structure:\n"
            f'{{\n'
            f'  "market_outlook": "bullish|neutral_to_bullish|neutral'
            f'|neutral_to_bearish|bearish",\n'
            f'  "global_rules": [\n'
            f'    {{"condition": "portfolio_pnl_pct < -2.0",'
            f' "action": "REDUCE_ALL", "rationale": "..."}}\n'
            f'  ],\n'
            f'  "stocks": [\n'
            f'    {{\n'
            f'      "stock_code": "...",\n'
            f'      "scenarios": [\n'
            f'        {{\n'
            f'          "condition": {{"rsi_below": 30, "volume_ratio_above": 2.0}},\n'
            f'          "action": "BUY|SELL|HOLD",\n'
            f'          "confidence": 85,\n'
            f'          "allocation_pct": 10.0,\n'
            f'          "stop_loss_pct": -2.0,\n'
            f'          "take_profit_pct": 3.0,\n'
            f'          "rationale": "..."\n'
            f'        }}\n'
            f'      ]\n'
            f'    }}\n'
            f'  ]\n'
            f'}}\n\n'
            f"Rules:\n"
            f"- Max {max_scenarios} scenarios per stock\n"
            f"- Only use stocks from the candidates list\n"
            f"- Confidence 0-100 (80+ for actionable trades)\n"
            f"- stop_loss_pct must be <= 0, take_profit_pct must be >= 0\n"
            f"- Return ONLY the JSON, no markdown fences or explanation\n"
        )
    def _parse_response(
        self,
        response_text: str,
        today: date,
        market: str,
        candidates: list[ScanCandidate],
        cross_market: CrossMarketContext | None,
    ) -> DayPlaybook:
        """Parse Gemini's JSON response into a validated DayPlaybook."""
        cleaned = self._extract_json(response_text)
        data = json.loads(cleaned)
        valid_codes = {c.stock_code for c in candidates}
        # Parse market outlook
        outlook_str = data.get("market_outlook", "neutral")
        market_outlook = _OUTLOOK_MAP.get(outlook_str, MarketOutlook.NEUTRAL)
        # Parse global rules
        global_rules = []
        for rule_data in data.get("global_rules", []):
            action_str = rule_data.get("action", "HOLD")
            action = _ACTION_MAP.get(action_str, ScenarioAction.HOLD)
            global_rules.append(
                GlobalRule(
                    condition=rule_data.get("condition", ""),
                    action=action,
                    rationale=rule_data.get("rationale", ""),
                )
            )
        # Parse stock playbooks
        stock_playbooks = []
        max_scenarios = self._settings.MAX_SCENARIOS_PER_STOCK
        for stock_data in data.get("stocks", []):
            code = stock_data.get("stock_code", "")
            if code not in valid_codes:
                logger.warning("Gemini returned unknown stock %s — skipping", code)
                continue
            scenarios = []
            for sc_data in stock_data.get("scenarios", [])[:max_scenarios]:
                scenario = self._parse_scenario(sc_data)
                if scenario:
                    scenarios.append(scenario)
            if scenarios:
                stock_playbooks.append(
                    StockPlaybook(
                        stock_code=code,
                        scenarios=scenarios,
                    )
                )
        return DayPlaybook(
            date=today,
            market=market,
            market_outlook=market_outlook,
            global_rules=global_rules,
            stock_playbooks=stock_playbooks,
            cross_market=cross_market,
        )
    def _parse_scenario(self, sc_data: dict) -> StockScenario | None:
        """Parse a single scenario from JSON data. Returns None if invalid."""
        try:
            cond_data = sc_data.get("condition", {})
            condition = StockCondition(
                rsi_below=cond_data.get("rsi_below"),
                rsi_above=cond_data.get("rsi_above"),
                volume_ratio_above=cond_data.get("volume_ratio_above"),
                volume_ratio_below=cond_data.get("volume_ratio_below"),
                price_above=cond_data.get("price_above"),
                price_below=cond_data.get("price_below"),
                price_change_pct_above=cond_data.get("price_change_pct_above"),
                price_change_pct_below=cond_data.get("price_change_pct_below"),
            )
            if not condition.has_any_condition():
                logger.warning("Scenario has no conditions — skipping")
                return None
            action_str = sc_data.get("action", "HOLD")
            action = _ACTION_MAP.get(action_str, ScenarioAction.HOLD)
            return StockScenario(
                condition=condition,
                action=action,
                confidence=int(sc_data.get("confidence", 50)),
                allocation_pct=float(sc_data.get("allocation_pct", 10.0)),
                stop_loss_pct=float(sc_data.get("stop_loss_pct", -2.0)),
                take_profit_pct=float(sc_data.get("take_profit_pct", 3.0)),
                rationale=sc_data.get("rationale", ""),
            )
        except (ValueError, TypeError) as e:
            logger.warning("Failed to parse scenario: %s", e)
            return None
    @staticmethod
    def _extract_json(text: str) -> str:
        """Extract JSON from response, stripping markdown fences if present."""
        stripped = text.strip()
        if stripped.startswith("```"):
            # Remove first line (```json or ```) and last line (```)
            lines = stripped.split("\n")
            lines = lines[1:]  # Remove opening fence
            if lines and lines[-1].strip() == "```":
                lines = lines[:-1]
            stripped = "\n".join(lines)
        return stripped.strip()
    @staticmethod
    def _empty_playbook(today: date, market: str) -> DayPlaybook:
        """Return an empty playbook (no stocks, no scenarios)."""
        return DayPlaybook(
            date=today,
            market=market,
            market_outlook=MarketOutlook.NEUTRAL,
            stock_playbooks=[],
        )
    @staticmethod
    def _defensive_playbook(
        today: date,
        market: str,
        candidates: list[ScanCandidate],
    ) -> DayPlaybook:
        """Return a defensive playbook — HOLD everything with stop-loss ready."""
        stock_playbooks = [
            StockPlaybook(
                stock_code=c.stock_code,
                scenarios=[
                    StockScenario(
                        condition=StockCondition(price_change_pct_below=-3.0),
                        action=ScenarioAction.SELL,
                        confidence=90,
                        stop_loss_pct=-3.0,
                        rationale="Defensive stop-loss (planner failure)",
                    ),
                ],
            )
            for c in candidates
        ]
        return DayPlaybook(
            date=today,
            market=market,
            market_outlook=MarketOutlook.NEUTRAL_TO_BEARISH,
            default_action=ScenarioAction.HOLD,
            stock_playbooks=stock_playbooks,
            global_rules=[
                GlobalRule(
                    condition="portfolio_pnl_pct < -2.0",
                    action=ScenarioAction.REDUCE_ALL,
                    rationale="Defensive: reduce on loss threshold",
                ),
            ],
        )
--- a/src/strategy/scenario_engine.py
+++ b/src/strategy/scenario_engine.py
@@ -0,0 +1,270 @@
 """Local scenario engine for playbook execution.
 Matches real-time market conditions against pre-defined scenarios
 without any API calls. Designed for sub-100ms execution.
 """
 from __future__ import annotations
 import logging
 from dataclasses import dataclass, field
 from typing import Any
 from src.strategy.models import (
    DayPlaybook,
    GlobalRule,
    ScenarioAction,
    StockCondition,
    StockScenario,
 )
 logger = logging.getLogger(__name__)
@dataclass
 class ScenarioMatch:
    """Result of matching market conditions against scenarios."""
    stock_code: str
    matched_scenario: StockScenario | None
    action: ScenarioAction
    confidence: int
    rationale: str
    global_rule_triggered: GlobalRule | None = None
    match_details: dict[str, Any] = field(default_factory=dict)
 class ScenarioEngine:
    """Evaluates playbook scenarios against real-time market data.
    No API calls — pure Python condition matching.
    Expected market_data keys: "rsi", "volume_ratio", "current_price", "price_change_pct".
    Callers must normalize data source keys to match this contract.
    """
    def __init__(self) -> None:
        self._warned_keys: set[str] = set()
    @staticmethod
    def _safe_float(value: Any) -> float | None:
        """Safely cast a value to float. Returns None on failure."""
        if value is None:
            return None
        try:
            return float(value)
        except (ValueError, TypeError):
            return None
    def _warn_missing_key(self, key: str) -> None:
        """Log a missing-key warning once per key per engine instance."""
        if key not in self._warned_keys:
            self._warned_keys.add(key)
            logger.warning("Condition requires '%s' but key missing from market_data", key)
    def evaluate(
        self,
        playbook: DayPlaybook,
        stock_code: str,
        market_data: dict[str, Any],
        portfolio_data: dict[str, Any],
    ) -> ScenarioMatch:
        """Match market conditions to scenarios and return a decision.
        Algorithm:
        1. Check global rules first (portfolio-level circuit breakers)
        2. Find the StockPlaybook for the given stock_code
        3. Iterate scenarios in order (first match wins)
        4. If no match, return playbook.default_action (HOLD)
        Args:
            playbook: Today's DayPlaybook for this market
            stock_code: Stock ticker to evaluate
            market_data: Real-time market data (price, rsi, volume_ratio, etc.)
            portfolio_data: Portfolio state (pnl_pct, total_cash, etc.)
        Returns:
            ScenarioMatch with the decision
        """
        # 1. Check global rules
        triggered_rule = self.check_global_rules(playbook, portfolio_data)
        if triggered_rule is not None:
            logger.info(
                "Global rule triggered for %s: %s -> %s",
                stock_code,
                triggered_rule.condition,
                triggered_rule.action.value,
            )
            return ScenarioMatch(
                stock_code=stock_code,
                matched_scenario=None,
                action=triggered_rule.action,
                confidence=100,
                rationale=f"Global rule: {triggered_rule.rationale or triggered_rule.condition}",
                global_rule_triggered=triggered_rule,
            )
        # 2. Find stock playbook
        stock_pb = playbook.get_stock_playbook(stock_code)
        if stock_pb is None:
            logger.debug("No playbook for %s — defaulting to %s", stock_code, playbook.default_action)
            return ScenarioMatch(
                stock_code=stock_code,
                matched_scenario=None,
                action=playbook.default_action,
                confidence=0,
                rationale=f"No scenarios defined for {stock_code}",
            )
        # 3. Iterate scenarios (first match wins)
        for scenario in stock_pb.scenarios:
            if self.evaluate_condition(scenario.condition, market_data):
                logger.info(
                    "Scenario matched for %s: %s (confidence=%d)",
                    stock_code,
                    scenario.action.value,
                    scenario.confidence,
                )
                return ScenarioMatch(
                    stock_code=stock_code,
                    matched_scenario=scenario,
                    action=scenario.action,
                    confidence=scenario.confidence,
                    rationale=scenario.rationale,
                    match_details=self._build_match_details(scenario.condition, market_data),
                )
        # 4. No match — default action
        logger.debug("No scenario matched for %s — defaulting to %s", stock_code, playbook.default_action)
        return ScenarioMatch(
            stock_code=stock_code,
            matched_scenario=None,
            action=playbook.default_action,
            confidence=0,
            rationale="No scenario conditions met — holding position",
        )
    def check_global_rules(
        self,
        playbook: DayPlaybook,
        portfolio_data: dict[str, Any],
    ) -> GlobalRule | None:
        """Check portfolio-level rules. Returns first triggered rule or None."""
        for rule in playbook.global_rules:
            if self._evaluate_global_condition(rule.condition, portfolio_data):
                return rule
        return None
    def evaluate_condition(
        self,
        condition: StockCondition,
        market_data: dict[str, Any],
    ) -> bool:
        """Evaluate all non-None fields in condition as AND.
        Returns True only if ALL specified conditions are met.
        Empty condition (no fields set) returns False for safety.
        """
        if not condition.has_any_condition():
            return False
        checks: list[bool] = []
        rsi = self._safe_float(market_data.get("rsi"))
        if condition.rsi_below is not None or condition.rsi_above is not None:
            if "rsi" not in market_data:
                self._warn_missing_key("rsi")
        if condition.rsi_below is not None:
            checks.append(rsi is not None and rsi < condition.rsi_below)
        if condition.rsi_above is not None:
            checks.append(rsi is not None and rsi > condition.rsi_above)
        volume_ratio = self._safe_float(market_data.get("volume_ratio"))
        if condition.volume_ratio_above is not None or condition.volume_ratio_below is not None:
            if "volume_ratio" not in market_data:
                self._warn_missing_key("volume_ratio")
        if condition.volume_ratio_above is not None:
            checks.append(volume_ratio is not None and volume_ratio > condition.volume_ratio_above)
        if condition.volume_ratio_below is not None:
            checks.append(volume_ratio is not None and volume_ratio < condition.volume_ratio_below)
        price = self._safe_float(market_data.get("current_price"))
        if condition.price_above is not None or condition.price_below is not None:
            if "current_price" not in market_data:
                self._warn_missing_key("current_price")
        if condition.price_above is not None:
            checks.append(price is not None and price > condition.price_above)
        if condition.price_below is not None:
            checks.append(price is not None and price < condition.price_below)
        price_change_pct = self._safe_float(market_data.get("price_change_pct"))
        if condition.price_change_pct_above is not None or condition.price_change_pct_below is not None:
            if "price_change_pct" not in market_data:
                self._warn_missing_key("price_change_pct")
        if condition.price_change_pct_above is not None:
            checks.append(price_change_pct is not None and price_change_pct > condition.price_change_pct_above)
        if condition.price_change_pct_below is not None:
            checks.append(price_change_pct is not None and price_change_pct < condition.price_change_pct_below)
        return len(checks) > 0 and all(checks)
    def _evaluate_global_condition(
        self,
        condition_str: str,
        portfolio_data: dict[str, Any],
    ) -> bool:
        """Evaluate a simple global condition string against portfolio data.
        Supports: "field < value", "field > value", "field <= value", "field >= value"
        """
        parts = condition_str.strip().split()
        if len(parts) != 3:
            logger.warning("Invalid global condition format: %s", condition_str)
            return False
        field_name, operator, value_str = parts
        try:
            threshold = float(value_str)
        except ValueError:
            logger.warning("Invalid threshold in condition: %s", condition_str)
            return False
        actual = portfolio_data.get(field_name)
        if actual is None:
            return False
        try:
            actual_val = float(actual)
        except (ValueError, TypeError):
            return False
        if operator == "<":
            return actual_val < threshold
        elif operator == ">":
            return actual_val > threshold
        elif operator == "<=":
            return actual_val <= threshold
        elif operator == ">=":
            return actual_val >= threshold
        else:
            logger.warning("Unknown operator in condition: %s", operator)
            return False
    def _build_match_details(
        self,
        condition: StockCondition,
        market_data: dict[str, Any],
    ) -> dict[str, Any]:
        """Build a summary of which conditions matched and their normalized values."""
        details: dict[str, Any] = {}
        if condition.rsi_below is not None or condition.rsi_above is not None:
            details["rsi"] = self._safe_float(market_data.get("rsi"))
        if condition.volume_ratio_above is not None or condition.volume_ratio_below is not None:
            details["volume_ratio"] = self._safe_float(market_data.get("volume_ratio"))
        if condition.price_above is not None or condition.price_below is not None:
            details["current_price"] = self._safe_float(market_data.get("current_price"))
        if condition.price_change_pct_above is not None or condition.price_change_pct_below is not None:
            details["price_change_pct"] = self._safe_float(market_data.get("price_change_pct"))
        return details
--- a/tests/test_main.py
+++ b/tests/test_main.py
@@ -1,12 +1,46 @@
-"""Tests for main trading loop telegram integration."""
+"""Tests for main trading loop integration."""
-import asyncio
+from datetime import date
 from unittest.mock import AsyncMock, MagicMock, patch
 import pytest
 from src.core.risk_manager import CircuitBreakerTripped, FatFingerRejected
 from src.main import safe_float, trading_cycle
 from src.strategy.models import (
    DayPlaybook,
    ScenarioAction,
    StockCondition,
    StockScenario,
 )
 from src.strategy.scenario_engine import ScenarioEngine, ScenarioMatch
 def _make_playbook(market: str = "KR") -> DayPlaybook:
    """Create a minimal empty playbook for testing."""
    return DayPlaybook(date=date(2026, 2, 8), market=market)
 def _make_buy_match(stock_code: str = "005930") -> ScenarioMatch:
    """Create a ScenarioMatch that returns BUY."""
    return ScenarioMatch(
        stock_code=stock_code,
        matched_scenario=None,
        action=ScenarioAction.BUY,
        confidence=85,
        rationale="Test buy",
    )
 def _make_hold_match(stock_code: str = "005930") -> ScenarioMatch:
    """Create a ScenarioMatch that returns HOLD."""
    return ScenarioMatch(
        stock_code=stock_code,
        matched_scenario=None,
        action=ScenarioAction.HOLD,
        confidence=0,
        rationale="No scenario conditions met",
    )
 class TestSafeFloat:
@@ -81,15 +115,16 @@ class TestTradingCycleTelegramIntegration:
        return broker
    @pytest.fixture
-    def mock_brain(self) -> MagicMock:
+    def mock_scenario_engine(self) -> MagicMock:
-        """Create mock brain that decides to buy."""
+        """Create mock scenario engine that returns BUY."""
-        brain = MagicMock()
+        engine = MagicMock(spec=ScenarioEngine)
-        decision = MagicMock()
+        engine.evaluate = MagicMock(return_value=_make_buy_match())
-        decision.action = "BUY"
+        return engine
-        decision.confidence = 85
+
-        decision.rationale = "Test buy"
+    @pytest.fixture
-        brain.decide = AsyncMock(return_value=decision)
+    def mock_playbook(self) -> DayPlaybook:
-        return brain
+        """Create a minimal day playbook."""
        return _make_playbook()
    @pytest.fixture
    def mock_risk(self) -> MagicMock:
@@ -134,6 +169,7 @@ class TestTradingCycleTelegramIntegration:
        telegram.notify_trade_execution = AsyncMock()
        telegram.notify_fat_finger = AsyncMock()
        telegram.notify_circuit_breaker = AsyncMock()
        telegram.notify_scenario_matched = AsyncMock()
        return telegram
    @pytest.fixture
@@ -151,7 +187,8 @@ class TestTradingCycleTelegramIntegration:
        self,
        mock_broker: MagicMock,
        mock_overseas_broker: MagicMock,
-        mock_brain: MagicMock,
+        mock_scenario_engine: MagicMock,
        mock_playbook: DayPlaybook,
        mock_risk: MagicMock,
        mock_db: MagicMock,
        mock_decision_logger: MagicMock,
@@ -165,7 +202,8 @@ class TestTradingCycleTelegramIntegration:
            await trading_cycle(
                broker=mock_broker,
                overseas_broker=mock_overseas_broker,
-                brain=mock_brain,
+                scenario_engine=mock_scenario_engine,
                playbook=mock_playbook,
                risk=mock_risk,
                db_conn=mock_db,
                decision_logger=mock_decision_logger,
@@ -174,6 +212,7 @@ class TestTradingCycleTelegramIntegration:
                telegram=mock_telegram,
                market=mock_market,
                stock_code="005930",
                scan_candidates={},
            )
        # Verify notification was sent
@@ -189,7 +228,8 @@ class TestTradingCycleTelegramIntegration:
        self,
        mock_broker: MagicMock,
        mock_overseas_broker: MagicMock,
-        mock_brain: MagicMock,
+        mock_scenario_engine: MagicMock,
        mock_playbook: DayPlaybook,
        mock_risk: MagicMock,
        mock_db: MagicMock,
        mock_decision_logger: MagicMock,
@@ -207,7 +247,8 @@ class TestTradingCycleTelegramIntegration:
            await trading_cycle(
                broker=mock_broker,
                overseas_broker=mock_overseas_broker,
-                brain=mock_brain,
+                scenario_engine=mock_scenario_engine,
                playbook=mock_playbook,
                risk=mock_risk,
                db_conn=mock_db,
                decision_logger=mock_decision_logger,
@@ -216,6 +257,7 @@ class TestTradingCycleTelegramIntegration:
                telegram=mock_telegram,
                market=mock_market,
                stock_code="005930",
                scan_candidates={},
            )
        # Verify notification was attempted
@@ -226,7 +268,8 @@ class TestTradingCycleTelegramIntegration:
        self,
        mock_broker: MagicMock,
        mock_overseas_broker: MagicMock,
-        mock_brain: MagicMock,
+        mock_scenario_engine: MagicMock,
        mock_playbook: DayPlaybook,
        mock_risk: MagicMock,
        mock_db: MagicMock,
        mock_decision_logger: MagicMock,
@@ -248,7 +291,8 @@ class TestTradingCycleTelegramIntegration:
                await trading_cycle(
                    broker=mock_broker,
                    overseas_broker=mock_overseas_broker,
-                    brain=mock_brain,
+                    scenario_engine=mock_scenario_engine,
                    playbook=mock_playbook,
                    risk=mock_risk,
                    db_conn=mock_db,
                    decision_logger=mock_decision_logger,
@@ -257,6 +301,7 @@ class TestTradingCycleTelegramIntegration:
                    telegram=mock_telegram,
                    market=mock_market,
                    stock_code="005930",
                    scan_candidates={},
                )
        # Verify notification was sent
@@ -272,7 +317,8 @@ class TestTradingCycleTelegramIntegration:
        self,
        mock_broker: MagicMock,
        mock_overseas_broker: MagicMock,
-        mock_brain: MagicMock,
+        mock_scenario_engine: MagicMock,
        mock_playbook: DayPlaybook,
        mock_risk: MagicMock,
        mock_db: MagicMock,
        mock_decision_logger: MagicMock,
@@ -296,7 +342,8 @@ class TestTradingCycleTelegramIntegration:
                await trading_cycle(
                    broker=mock_broker,
                    overseas_broker=mock_overseas_broker,
-                    brain=mock_brain,
+                    scenario_engine=mock_scenario_engine,
                    playbook=mock_playbook,
                    risk=mock_risk,
                    db_conn=mock_db,
                    decision_logger=mock_decision_logger,
@@ -305,6 +352,7 @@ class TestTradingCycleTelegramIntegration:
                    telegram=mock_telegram,
                    market=mock_market,
                    stock_code="005930",
                    scan_candidates={},
                )
        # Verify notification was attempted
@@ -315,7 +363,8 @@ class TestTradingCycleTelegramIntegration:
        self,
        mock_broker: MagicMock,
        mock_overseas_broker: MagicMock,
-        mock_brain: MagicMock,
+        mock_scenario_engine: MagicMock,
        mock_playbook: DayPlaybook,
        mock_risk: MagicMock,
        mock_db: MagicMock,
        mock_decision_logger: MagicMock,
@@ -325,18 +374,15 @@ class TestTradingCycleTelegramIntegration:
        mock_market: MagicMock,
    ) -> None:
        """Test no trade notification sent when decision is HOLD."""
-        # Change brain decision to HOLD
+        # Scenario engine returns HOLD
-        decision = MagicMock()
+        mock_scenario_engine.evaluate = MagicMock(return_value=_make_hold_match())
        decision.action = "HOLD"
        decision.confidence = 50
        decision.rationale = "Insufficient signal"
        mock_brain.decide = AsyncMock(return_value=decision)
        with patch("src.main.log_trade"):
            await trading_cycle(
                broker=mock_broker,
                overseas_broker=mock_overseas_broker,
-                brain=mock_brain,
+                scenario_engine=mock_scenario_engine,
                playbook=mock_playbook,
                risk=mock_risk,
                db_conn=mock_db,
                decision_logger=mock_decision_logger,
@@ -345,6 +391,7 @@ class TestTradingCycleTelegramIntegration:
                telegram=mock_telegram,
                market=mock_market,
                stock_code="005930",
                scan_candidates={},
            )
        # Verify no trade notification sent
@@ -467,15 +514,16 @@ class TestOverseasBalanceParsing:
        return market
    @pytest.fixture
-    def mock_brain_hold(self) -> MagicMock:
+    def mock_scenario_engine_hold(self) -> MagicMock:
-        """Create mock brain that always holds."""
+        """Create mock scenario engine that always returns HOLD."""
-        brain = MagicMock()
+        engine = MagicMock(spec=ScenarioEngine)
-        decision = MagicMock()
+        engine.evaluate = MagicMock(return_value=_make_hold_match("AAPL"))
-        decision.action = "HOLD"
+        return engine
-        decision.confidence = 50
+
-        decision.rationale = "Testing balance parsing"
+    @pytest.fixture
-        brain.decide = AsyncMock(return_value=decision)
+    def mock_playbook(self) -> DayPlaybook:
-        return brain
+        """Create a minimal playbook."""
        return _make_playbook("US")
    @pytest.fixture
    def mock_risk(self) -> MagicMock:
@@ -512,14 +560,17 @@ class TestOverseasBalanceParsing:
    @pytest.fixture
    def mock_telegram(self) -> MagicMock:
        """Create mock telegram client."""
-        return MagicMock()
+        telegram = MagicMock()
        telegram.notify_scenario_matched = AsyncMock()
        return telegram
    @pytest.mark.asyncio
    async def test_overseas_balance_list_format(
        self,
        mock_domestic_broker: MagicMock,
        mock_overseas_broker_with_list: MagicMock,
-        mock_brain_hold: MagicMock,
+        mock_scenario_engine_hold: MagicMock,
        mock_playbook: DayPlaybook,
        mock_risk: MagicMock,
        mock_db: MagicMock,
        mock_decision_logger: MagicMock,
@@ -534,7 +585,8 @@ class TestOverseasBalanceParsing:
            await trading_cycle(
                broker=mock_domestic_broker,
                overseas_broker=mock_overseas_broker_with_list,
-                brain=mock_brain_hold,
+                scenario_engine=mock_scenario_engine_hold,
                playbook=mock_playbook,
                risk=mock_risk,
                db_conn=mock_db,
                decision_logger=mock_decision_logger,
@@ -543,6 +595,7 @@ class TestOverseasBalanceParsing:
                telegram=mock_telegram,
                market=mock_overseas_market,
                stock_code="AAPL",
                scan_candidates={},
            )
        # Verify balance API was called
@@ -553,7 +606,8 @@ class TestOverseasBalanceParsing:
        self,
        mock_domestic_broker: MagicMock,
        mock_overseas_broker_with_dict: MagicMock,
-        mock_brain_hold: MagicMock,
+        mock_scenario_engine_hold: MagicMock,
        mock_playbook: DayPlaybook,
        mock_risk: MagicMock,
        mock_db: MagicMock,
        mock_decision_logger: MagicMock,
@@ -568,7 +622,8 @@ class TestOverseasBalanceParsing:
            await trading_cycle(
                broker=mock_domestic_broker,
                overseas_broker=mock_overseas_broker_with_dict,
-                brain=mock_brain_hold,
+                scenario_engine=mock_scenario_engine_hold,
                playbook=mock_playbook,
                risk=mock_risk,
                db_conn=mock_db,
                decision_logger=mock_decision_logger,
@@ -577,6 +632,7 @@ class TestOverseasBalanceParsing:
                telegram=mock_telegram,
                market=mock_overseas_market,
                stock_code="AAPL",
                scan_candidates={},
            )
        # Verify balance API was called
@@ -587,7 +643,8 @@ class TestOverseasBalanceParsing:
        self,
        mock_domestic_broker: MagicMock,
        mock_overseas_broker_with_empty: MagicMock,
-        mock_brain_hold: MagicMock,
+        mock_scenario_engine_hold: MagicMock,
        mock_playbook: DayPlaybook,
        mock_risk: MagicMock,
        mock_db: MagicMock,
        mock_decision_logger: MagicMock,
@@ -602,7 +659,8 @@ class TestOverseasBalanceParsing:
            await trading_cycle(
                broker=mock_domestic_broker,
                overseas_broker=mock_overseas_broker_with_empty,
-                brain=mock_brain_hold,
+                scenario_engine=mock_scenario_engine_hold,
                playbook=mock_playbook,
                risk=mock_risk,
                db_conn=mock_db,
                decision_logger=mock_decision_logger,
@@ -611,6 +669,7 @@ class TestOverseasBalanceParsing:
                telegram=mock_telegram,
                market=mock_overseas_market,
                stock_code="AAPL",
                scan_candidates={},
            )
        # Verify balance API was called
@@ -621,7 +680,8 @@ class TestOverseasBalanceParsing:
        self,
        mock_domestic_broker: MagicMock,
        mock_overseas_broker_with_empty_price: MagicMock,
-        mock_brain_hold: MagicMock,
+        mock_scenario_engine_hold: MagicMock,
        mock_playbook: DayPlaybook,
        mock_risk: MagicMock,
        mock_db: MagicMock,
        mock_decision_logger: MagicMock,
@@ -636,7 +696,8 @@ class TestOverseasBalanceParsing:
            await trading_cycle(
                broker=mock_domestic_broker,
                overseas_broker=mock_overseas_broker_with_empty_price,
-                brain=mock_brain_hold,
+                scenario_engine=mock_scenario_engine_hold,
                playbook=mock_playbook,
                risk=mock_risk,
                db_conn=mock_db,
                decision_logger=mock_decision_logger,
@@ -645,7 +706,346 @@ class TestOverseasBalanceParsing:
                telegram=mock_telegram,
                market=mock_overseas_market,
                stock_code="AAPL",
                scan_candidates={},
            )
        # Verify price API was called
        mock_overseas_broker_with_empty_price.get_overseas_price.assert_called_once()
 class TestScenarioEngineIntegration:
    """Test scenario engine integration in trading_cycle."""
    @pytest.fixture
    def mock_broker(self) -> MagicMock:
        """Create mock broker with standard domestic data."""
        broker = MagicMock()
        broker.get_orderbook = AsyncMock(
            return_value={
                "output1": {"stck_prpr": "50000", "frgn_ntby_qty": "100"}
            }
        )
        broker.get_balance = AsyncMock(
            return_value={
                "output2": [
                    {
                        "tot_evlu_amt": "10000000",
                        "dnca_tot_amt": "5000000",
                        "pchs_amt_smtl_amt": "9500000",
                    }
                ]
            }
        )
        broker.send_order = AsyncMock(return_value={"msg1": "OK"})
        return broker
    @pytest.fixture
    def mock_market(self) -> MagicMock:
        """Create mock KR market."""
        market = MagicMock()
        market.name = "Korea"
        market.code = "KR"
        market.exchange_code = "KRX"
        market.is_domestic = True
        return market
    @pytest.fixture
    def mock_telegram(self) -> MagicMock:
        """Create mock telegram with all notification methods."""
        telegram = MagicMock()
        telegram.notify_trade_execution = AsyncMock()
        telegram.notify_scenario_matched = AsyncMock()
        telegram.notify_fat_finger = AsyncMock()
        return telegram
    @pytest.mark.asyncio
    async def test_scenario_engine_called_with_enriched_market_data(
        self, mock_broker: MagicMock, mock_market: MagicMock, mock_telegram: MagicMock,
    ) -> None:
        """Test scenario engine receives market_data enriched with scanner metrics."""
        from src.analysis.smart_scanner import ScanCandidate
        engine = MagicMock(spec=ScenarioEngine)
        engine.evaluate = MagicMock(return_value=_make_hold_match())
        playbook = _make_playbook()
        candidate = ScanCandidate(
            stock_code="005930", name="Samsung", price=50000,
            volume=1000000, volume_ratio=3.5, rsi=25.0,
            signal="oversold", score=85.0,
        )
        with patch("src.main.log_trade"):
            await trading_cycle(
                broker=mock_broker,
                overseas_broker=MagicMock(),
                scenario_engine=engine,
                playbook=playbook,
                risk=MagicMock(),
                db_conn=MagicMock(),
                decision_logger=MagicMock(),
                context_store=MagicMock(get_latest_timeframe=MagicMock(return_value=None)),
                criticality_assessor=MagicMock(
                    assess_market_conditions=MagicMock(return_value=MagicMock(value="NORMAL")),
                    get_timeout=MagicMock(return_value=5.0),
                ),
                telegram=mock_telegram,
                market=mock_market,
                stock_code="005930",
                scan_candidates={"KR": {"005930": candidate}},
            )
        # Verify evaluate was called
        engine.evaluate.assert_called_once()
        call_args = engine.evaluate.call_args
        market_data = call_args[0][2]  # 3rd positional arg
        portfolio_data = call_args[0][3]  # 4th positional arg
        # Scanner data should be enriched into market_data
        assert market_data["rsi"] == 25.0
        assert market_data["volume_ratio"] == 3.5
        assert market_data["current_price"] == 50000.0
        # Portfolio data should include pnl
        assert "portfolio_pnl_pct" in portfolio_data
        assert "total_cash" in portfolio_data
    @pytest.mark.asyncio
    async def test_scan_candidates_market_scoped(
        self, mock_broker: MagicMock, mock_market: MagicMock, mock_telegram: MagicMock,
    ) -> None:
        """Test scan_candidates uses market-scoped lookup, ignoring other markets."""
        from src.analysis.smart_scanner import ScanCandidate
        engine = MagicMock(spec=ScenarioEngine)
        engine.evaluate = MagicMock(return_value=_make_hold_match())
        # Candidate stored under US market — should NOT be found for KR market
        us_candidate = ScanCandidate(
            stock_code="005930", name="Overlap", price=100,
            volume=500000, volume_ratio=5.0, rsi=15.0,
            signal="oversold", score=90.0,
        )
        with patch("src.main.log_trade"):
            await trading_cycle(
                broker=mock_broker,
                overseas_broker=MagicMock(),
                scenario_engine=engine,
                playbook=_make_playbook(),
                risk=MagicMock(),
                db_conn=MagicMock(),
                decision_logger=MagicMock(),
                context_store=MagicMock(get_latest_timeframe=MagicMock(return_value=None)),
                criticality_assessor=MagicMock(
                    assess_market_conditions=MagicMock(return_value=MagicMock(value="NORMAL")),
                    get_timeout=MagicMock(return_value=5.0),
                ),
                telegram=mock_telegram,
                market=mock_market,  # KR market
                stock_code="005930",
                scan_candidates={"US": {"005930": us_candidate}},  # Wrong market
            )
        # Should NOT have rsi/volume_ratio because candidate is under US, not KR
        market_data = engine.evaluate.call_args[0][2]
        assert "rsi" not in market_data
        assert "volume_ratio" not in market_data
    @pytest.mark.asyncio
    async def test_scenario_engine_called_without_scanner_data(
        self, mock_broker: MagicMock, mock_market: MagicMock, mock_telegram: MagicMock,
    ) -> None:
        """Test scenario engine works when stock has no scan candidate."""
        engine = MagicMock(spec=ScenarioEngine)
        engine.evaluate = MagicMock(return_value=_make_hold_match())
        playbook = _make_playbook()
        with patch("src.main.log_trade"):
            await trading_cycle(
                broker=mock_broker,
                overseas_broker=MagicMock(),
                scenario_engine=engine,
                playbook=playbook,
                risk=MagicMock(),
                db_conn=MagicMock(),
                decision_logger=MagicMock(),
                context_store=MagicMock(get_latest_timeframe=MagicMock(return_value=None)),
                criticality_assessor=MagicMock(
                    assess_market_conditions=MagicMock(return_value=MagicMock(value="NORMAL")),
                    get_timeout=MagicMock(return_value=5.0),
                ),
                telegram=mock_telegram,
                market=mock_market,
                stock_code="005930",
                scan_candidates={},  # No scanner data
            )
        # Should still work, just without rsi/volume_ratio
        engine.evaluate.assert_called_once()
        market_data = engine.evaluate.call_args[0][2]
        assert "rsi" not in market_data
        assert "volume_ratio" not in market_data
        assert market_data["current_price"] == 50000.0
    @pytest.mark.asyncio
    async def test_scenario_matched_notification_sent(
        self, mock_broker: MagicMock, mock_market: MagicMock, mock_telegram: MagicMock,
    ) -> None:
        """Test telegram notification sent when a scenario matches."""
        # Create a match with matched_scenario (not None)
        scenario = StockScenario(
            condition=StockCondition(rsi_below=30),
            action=ScenarioAction.BUY,
            confidence=88,
            rationale="RSI oversold bounce",
        )
        match = ScenarioMatch(
            stock_code="005930",
            matched_scenario=scenario,
            action=ScenarioAction.BUY,
            confidence=88,
            rationale="RSI oversold bounce",
            match_details={"rsi": 25.0},
        )
        engine = MagicMock(spec=ScenarioEngine)
        engine.evaluate = MagicMock(return_value=match)
        with patch("src.main.log_trade"):
            await trading_cycle(
                broker=mock_broker,
                overseas_broker=MagicMock(),
                scenario_engine=engine,
                playbook=_make_playbook(),
                risk=MagicMock(),
                db_conn=MagicMock(),
                decision_logger=MagicMock(),
                context_store=MagicMock(get_latest_timeframe=MagicMock(return_value=None)),
                criticality_assessor=MagicMock(
                    assess_market_conditions=MagicMock(return_value=MagicMock(value="NORMAL")),
                    get_timeout=MagicMock(return_value=5.0),
                ),
                telegram=mock_telegram,
                market=mock_market,
                stock_code="005930",
                scan_candidates={},
            )
        # Scenario matched notification should be sent
        mock_telegram.notify_scenario_matched.assert_called_once()
        call_kwargs = mock_telegram.notify_scenario_matched.call_args.kwargs
        assert call_kwargs["stock_code"] == "005930"
        assert call_kwargs["action"] == "BUY"
        assert "rsi=25.0" in call_kwargs["condition_summary"]
    @pytest.mark.asyncio
    async def test_no_scenario_matched_notification_on_default_hold(
        self, mock_broker: MagicMock, mock_market: MagicMock, mock_telegram: MagicMock,
    ) -> None:
        """Test no scenario notification when default HOLD is returned."""
        engine = MagicMock(spec=ScenarioEngine)
        engine.evaluate = MagicMock(return_value=_make_hold_match())
        with patch("src.main.log_trade"):
            await trading_cycle(
                broker=mock_broker,
                overseas_broker=MagicMock(),
                scenario_engine=engine,
                playbook=_make_playbook(),
                risk=MagicMock(),
                db_conn=MagicMock(),
                decision_logger=MagicMock(),
                context_store=MagicMock(get_latest_timeframe=MagicMock(return_value=None)),
                criticality_assessor=MagicMock(
                    assess_market_conditions=MagicMock(return_value=MagicMock(value="NORMAL")),
                    get_timeout=MagicMock(return_value=5.0),
                ),
                telegram=mock_telegram,
                market=mock_market,
                stock_code="005930",
                scan_candidates={},
            )
        # No scenario matched notification for default HOLD
        mock_telegram.notify_scenario_matched.assert_not_called()
    @pytest.mark.asyncio
    async def test_decision_logger_receives_scenario_match_details(
        self, mock_broker: MagicMock, mock_market: MagicMock, mock_telegram: MagicMock,
    ) -> None:
        """Test decision logger context includes scenario match details."""
        match = ScenarioMatch(
            stock_code="005930",
            matched_scenario=None,
            action=ScenarioAction.HOLD,
            confidence=0,
            rationale="No match",
            match_details={"rsi": 45.0, "volume_ratio": 1.2},
        )
        engine = MagicMock(spec=ScenarioEngine)
        engine.evaluate = MagicMock(return_value=match)
        decision_logger = MagicMock()
        with patch("src.main.log_trade"):
            await trading_cycle(
                broker=mock_broker,
                overseas_broker=MagicMock(),
                scenario_engine=engine,
                playbook=_make_playbook(),
                risk=MagicMock(),
                db_conn=MagicMock(),
                decision_logger=decision_logger,
                context_store=MagicMock(get_latest_timeframe=MagicMock(return_value=None)),
                criticality_assessor=MagicMock(
                    assess_market_conditions=MagicMock(return_value=MagicMock(value="NORMAL")),
                    get_timeout=MagicMock(return_value=5.0),
                ),
                telegram=mock_telegram,
                market=mock_market,
                stock_code="005930",
                scan_candidates={},
            )
        decision_logger.log_decision.assert_called_once()
        call_kwargs = decision_logger.log_decision.call_args.kwargs
        assert "scenario_match" in call_kwargs["context_snapshot"]
        assert call_kwargs["context_snapshot"]["scenario_match"]["rsi"] == 45.0
    @pytest.mark.asyncio
    async def test_reduce_all_does_not_execute_order(
        self, mock_broker: MagicMock, mock_market: MagicMock, mock_telegram: MagicMock,
    ) -> None:
        """Test REDUCE_ALL action does not trigger order execution."""
        match = ScenarioMatch(
            stock_code="005930",
            matched_scenario=None,
            action=ScenarioAction.REDUCE_ALL,
            confidence=100,
            rationale="Global rule: portfolio loss > 2%",
        )
        engine = MagicMock(spec=ScenarioEngine)
        engine.evaluate = MagicMock(return_value=match)
        with patch("src.main.log_trade"):
            await trading_cycle(
                broker=mock_broker,
                overseas_broker=MagicMock(),
                scenario_engine=engine,
                playbook=_make_playbook(),
                risk=MagicMock(),
                db_conn=MagicMock(),
                decision_logger=MagicMock(),
                context_store=MagicMock(get_latest_timeframe=MagicMock(return_value=None)),
                criticality_assessor=MagicMock(
                    assess_market_conditions=MagicMock(return_value=MagicMock(value="NORMAL")),
                    get_timeout=MagicMock(return_value=5.0),
                ),
                telegram=mock_telegram,
                market=mock_market,
                stock_code="005930",
                scan_candidates={},
            )
        # REDUCE_ALL is not BUY or SELL — no order sent
        mock_broker.send_order.assert_not_called()
        mock_telegram.notify_trade_execution.assert_not_called()
--- a/tests/test_playbook_store.py
+++ b/tests/test_playbook_store.py
@@ -0,0 +1,289 @@
 """Tests for playbook persistence (PlaybookStore + DB schema)."""
 from __future__ import annotations
 from datetime import date
 import pytest
 from src.db import init_db
 from src.strategy.models import (
    DayPlaybook,
    GlobalRule,
    MarketOutlook,
    PlaybookStatus,
    ScenarioAction,
    StockCondition,
    StockPlaybook,
    StockScenario,
 )
 from src.strategy.playbook_store import PlaybookStore
@pytest.fixture
 def conn():
    """Create an in-memory DB with schema."""
    connection = init_db(":memory:")
    yield connection
    connection.close()
@pytest.fixture
 def store(conn) -> PlaybookStore:
    return PlaybookStore(conn)
 def _make_playbook(
    target_date: date = date(2026, 2, 8),
    market: str = "KR",
    outlook: MarketOutlook = MarketOutlook.NEUTRAL,
    stock_codes: list[str] | None = None,
 ) -> DayPlaybook:
    """Create a test playbook with sensible defaults."""
    if stock_codes is None:
        stock_codes = ["005930"]
    return DayPlaybook(
        date=target_date,
        market=market,
        market_outlook=outlook,
        token_count=150,
        stock_playbooks=[
            StockPlaybook(
                stock_code=code,
                scenarios=[
                    StockScenario(
                        condition=StockCondition(rsi_below=30.0),
                        action=ScenarioAction.BUY,
                        confidence=85,
                        rationale=f"Oversold bounce for {code}",
                    ),
                ],
            )
            for code in stock_codes
        ],
        global_rules=[
            GlobalRule(
                condition="portfolio_pnl_pct < -2.0",
                action=ScenarioAction.REDUCE_ALL,
                rationale="Near circuit breaker",
            ),
        ],
    )
 # ---------------------------------------------------------------------------
 # Schema
 # ---------------------------------------------------------------------------
 class TestSchema:
    def test_playbooks_table_exists(self, conn) -> None:
        row = conn.execute(
            "SELECT name FROM sqlite_master WHERE type='table' AND name='playbooks'"
        ).fetchone()
        assert row is not None
    def test_unique_constraint(self, store: PlaybookStore) -> None:
        pb = _make_playbook()
        store.save(pb)
        # Saving again for same date+market should replace, not error
        pb2 = _make_playbook(stock_codes=["005930", "000660"])
        store.save(pb2)
        loaded = store.load(date(2026, 2, 8), "KR")
        assert loaded is not None
        assert loaded.stock_count == 2
 # ---------------------------------------------------------------------------
 # Save / Load
 # ---------------------------------------------------------------------------
 class TestSaveLoad:
    def test_save_and_load(self, store: PlaybookStore) -> None:
        pb = _make_playbook()
        row_id = store.save(pb)
        assert row_id > 0
        loaded = store.load(date(2026, 2, 8), "KR")
        assert loaded is not None
        assert loaded.date == date(2026, 2, 8)
        assert loaded.market == "KR"
        assert loaded.stock_count == 1
        assert loaded.scenario_count == 1
    def test_load_not_found(self, store: PlaybookStore) -> None:
        result = store.load(date(2026, 1, 1), "KR")
        assert result is None
    def test_save_preserves_all_fields(self, store: PlaybookStore) -> None:
        pb = _make_playbook(
            outlook=MarketOutlook.BULLISH,
            stock_codes=["005930", "AAPL"],
        )
        store.save(pb)
        loaded = store.load(date(2026, 2, 8), "KR")
        assert loaded is not None
        assert loaded.market_outlook == MarketOutlook.BULLISH
        assert loaded.stock_count == 2
        assert loaded.global_rules[0].action == ScenarioAction.REDUCE_ALL
        assert loaded.token_count == 150
    def test_save_different_markets(self, store: PlaybookStore) -> None:
        kr = _make_playbook(market="KR")
        us = _make_playbook(market="US", stock_codes=["AAPL"])
        store.save(kr)
        store.save(us)
        kr_loaded = store.load(date(2026, 2, 8), "KR")
        us_loaded = store.load(date(2026, 2, 8), "US")
        assert kr_loaded is not None
        assert us_loaded is not None
        assert kr_loaded.market == "KR"
        assert us_loaded.market == "US"
        assert kr_loaded.stock_playbooks[0].stock_code == "005930"
        assert us_loaded.stock_playbooks[0].stock_code == "AAPL"
    def test_save_different_dates(self, store: PlaybookStore) -> None:
        d1 = _make_playbook(target_date=date(2026, 2, 7))
        d2 = _make_playbook(target_date=date(2026, 2, 8))
        store.save(d1)
        store.save(d2)
        assert store.load(date(2026, 2, 7), "KR") is not None
        assert store.load(date(2026, 2, 8), "KR") is not None
    def test_replace_updates_data(self, store: PlaybookStore) -> None:
        pb1 = _make_playbook(outlook=MarketOutlook.BEARISH)
        store.save(pb1)
        pb2 = _make_playbook(outlook=MarketOutlook.BULLISH)
        store.save(pb2)
        loaded = store.load(date(2026, 2, 8), "KR")
        assert loaded is not None
        assert loaded.market_outlook == MarketOutlook.BULLISH
 # ---------------------------------------------------------------------------
 # Status
 # ---------------------------------------------------------------------------
 class TestStatus:
    def test_get_status(self, store: PlaybookStore) -> None:
        store.save(_make_playbook())
        status = store.get_status(date(2026, 2, 8), "KR")
        assert status == PlaybookStatus.READY
    def test_get_status_not_found(self, store: PlaybookStore) -> None:
        assert store.get_status(date(2026, 1, 1), "KR") is None
    def test_update_status(self, store: PlaybookStore) -> None:
        store.save(_make_playbook())
        updated = store.update_status(date(2026, 2, 8), "KR", PlaybookStatus.EXPIRED)
        assert updated is True
        status = store.get_status(date(2026, 2, 8), "KR")
        assert status == PlaybookStatus.EXPIRED
    def test_update_status_not_found(self, store: PlaybookStore) -> None:
        updated = store.update_status(date(2026, 1, 1), "KR", PlaybookStatus.FAILED)
        assert updated is False
 # ---------------------------------------------------------------------------
 # Match count
 # ---------------------------------------------------------------------------
 class TestMatchCount:
    def test_increment_match_count(self, store: PlaybookStore) -> None:
        store.save(_make_playbook())
        store.increment_match_count(date(2026, 2, 8), "KR")
        store.increment_match_count(date(2026, 2, 8), "KR")
        stats = store.get_stats(date(2026, 2, 8), "KR")
        assert stats is not None
        assert stats["match_count"] == 2
    def test_increment_not_found(self, store: PlaybookStore) -> None:
        result = store.increment_match_count(date(2026, 1, 1), "KR")
        assert result is False
 # ---------------------------------------------------------------------------
 # Stats
 # ---------------------------------------------------------------------------
 class TestStats:
    def test_get_stats(self, store: PlaybookStore) -> None:
        store.save(_make_playbook())
        stats = store.get_stats(date(2026, 2, 8), "KR")
        assert stats is not None
        assert stats["status"] == "ready"
        assert stats["token_count"] == 150
        assert stats["scenario_count"] == 1
        assert stats["match_count"] == 0
        assert stats["generated_at"] != ""
    def test_get_stats_not_found(self, store: PlaybookStore) -> None:
        assert store.get_stats(date(2026, 1, 1), "KR") is None
 # ---------------------------------------------------------------------------
 # List recent
 # ---------------------------------------------------------------------------
 class TestListRecent:
    def test_list_recent(self, store: PlaybookStore) -> None:
        for day in range(5, 10):
            store.save(_make_playbook(target_date=date(2026, 2, day)))
        results = store.list_recent(market="KR", limit=3)
        assert len(results) == 3
        # Most recent first
        assert results[0]["date"] == "2026-02-09"
        assert results[2]["date"] == "2026-02-07"
    def test_list_recent_all_markets(self, store: PlaybookStore) -> None:
        store.save(_make_playbook(market="KR"))
        store.save(_make_playbook(market="US", stock_codes=["AAPL"]))
        results = store.list_recent(market=None, limit=10)
        assert len(results) == 2
    def test_list_recent_empty(self, store: PlaybookStore) -> None:
        results = store.list_recent(market="KR")
        assert results == []
    def test_list_recent_filter_by_market(self, store: PlaybookStore) -> None:
        store.save(_make_playbook(market="KR"))
        store.save(_make_playbook(market="US", stock_codes=["AAPL"]))
        kr_only = store.list_recent(market="KR")
        assert len(kr_only) == 1
        assert kr_only[0]["market"] == "KR"
 # ---------------------------------------------------------------------------
 # Delete
 # ---------------------------------------------------------------------------
 class TestDelete:
    def test_delete(self, store: PlaybookStore) -> None:
        store.save(_make_playbook())
        deleted = store.delete(date(2026, 2, 8), "KR")
        assert deleted is True
        assert store.load(date(2026, 2, 8), "KR") is None
    def test_delete_not_found(self, store: PlaybookStore) -> None:
        deleted = store.delete(date(2026, 1, 1), "KR")
        assert deleted is False
    def test_delete_one_market_keeps_other(self, store: PlaybookStore) -> None:
        store.save(_make_playbook(market="KR"))
        store.save(_make_playbook(market="US", stock_codes=["AAPL"]))
        store.delete(date(2026, 2, 8), "KR")
        assert store.load(date(2026, 2, 8), "KR") is None
        assert store.load(date(2026, 2, 8), "US") is not None
--- a/tests/test_pre_market_planner.py
+++ b/tests/test_pre_market_planner.py
@@ -0,0 +1,552 @@
 """Tests for PreMarketPlanner — Gemini prompt builder + response parser."""
 from __future__ import annotations
 import json
 from datetime import date
 from unittest.mock import AsyncMock, MagicMock
 import pytest
 from src.analysis.smart_scanner import ScanCandidate
 from src.brain.gemini_client import TradeDecision
 from src.config import Settings
 from src.context.store import ContextLayer
 from src.strategy.models import (
    CrossMarketContext,
    DayPlaybook,
    MarketOutlook,
    PlaybookStatus,
    ScenarioAction,
 )
 from src.strategy.pre_market_planner import PreMarketPlanner
 # ---------------------------------------------------------------------------
 # Fixtures
 # ---------------------------------------------------------------------------
 def _candidate(
    code: str = "005930",
    name: str = "Samsung",
    price: float = 71000,
    rsi: float = 28.5,
    volume_ratio: float = 3.2,
    signal: str = "oversold",
    score: float = 82.0,
 ) -> ScanCandidate:
    return ScanCandidate(
        stock_code=code,
        name=name,
        price=price,
        volume=1_500_000,
        volume_ratio=volume_ratio,
        rsi=rsi,
        signal=signal,
        score=score,
    )
 def _gemini_response_json(
    outlook: str = "neutral_to_bullish",
    stocks: list[dict] | None = None,
    global_rules: list[dict] | None = None,
 ) -> str:
    """Build a valid Gemini JSON response."""
    if stocks is None:
        stocks = [
            {
                "stock_code": "005930",
                "scenarios": [
                    {
                        "condition": {"rsi_below": 30, "volume_ratio_above": 2.5},
                        "action": "BUY",
                        "confidence": 85,
                        "allocation_pct": 15.0,
                        "stop_loss_pct": -2.0,
                        "take_profit_pct": 4.0,
                        "rationale": "Oversold bounce with high volume",
                    }
                ],
            }
        ]
    if global_rules is None:
        global_rules = [
            {
                "condition": "portfolio_pnl_pct < -2.0",
                "action": "REDUCE_ALL",
                "rationale": "Near circuit breaker",
            }
        ]
    return json.dumps(
        {"market_outlook": outlook, "global_rules": global_rules, "stocks": stocks}
    )
 def _make_planner(
    gemini_response: str = "",
    token_count: int = 200,
    context_data: dict | None = None,
    scorecard_data: dict | None = None,
 ) -> PreMarketPlanner:
    """Create a PreMarketPlanner with mocked dependencies."""
    if not gemini_response:
        gemini_response = _gemini_response_json()
    # Mock GeminiClient
    gemini = AsyncMock()
    gemini.decide = AsyncMock(
        return_value=TradeDecision(
            action="HOLD",
            confidence=0,
            rationale=gemini_response,
            token_count=token_count,
        )
    )
    # Mock ContextStore
    store = MagicMock()
    store.get_context = MagicMock(return_value=scorecard_data)
    # Mock ContextSelector
    selector = MagicMock()
    selector.select_layers = MagicMock(return_value=[ContextLayer.L7_REALTIME, ContextLayer.L6_DAILY])
    selector.get_context_data = MagicMock(return_value=context_data or {})
    settings = Settings(
        KIS_APP_KEY="test",
        KIS_APP_SECRET="test",
        KIS_ACCOUNT_NO="12345678-01",
        GEMINI_API_KEY="test",
    )
    return PreMarketPlanner(gemini, store, selector, settings)
 # ---------------------------------------------------------------------------
 # generate_playbook
 # ---------------------------------------------------------------------------
 class TestGeneratePlaybook:
    @pytest.mark.asyncio
    async def test_basic_generation(self) -> None:
        planner = _make_planner()
        candidates = [_candidate()]
        pb = await planner.generate_playbook("KR", candidates, today=date(2026, 2, 8))
        assert isinstance(pb, DayPlaybook)
        assert pb.market == "KR"
        assert pb.stock_count == 1
        assert pb.scenario_count == 1
        assert pb.market_outlook == MarketOutlook.NEUTRAL_TO_BULLISH
        assert pb.token_count == 200
    @pytest.mark.asyncio
    async def test_empty_candidates_returns_empty_playbook(self) -> None:
        planner = _make_planner()
        pb = await planner.generate_playbook("KR", [], today=date(2026, 2, 8))
        assert pb.stock_count == 0
        assert pb.scenario_count == 0
        assert pb.market_outlook == MarketOutlook.NEUTRAL
    @pytest.mark.asyncio
    async def test_gemini_failure_returns_defensive(self) -> None:
        planner = _make_planner()
        planner._gemini.decide = AsyncMock(side_effect=RuntimeError("API timeout"))
        candidates = [_candidate()]
        pb = await planner.generate_playbook("KR", candidates, today=date(2026, 2, 8))
        assert pb.default_action == ScenarioAction.HOLD
        assert pb.market_outlook == MarketOutlook.NEUTRAL_TO_BEARISH
        assert pb.stock_count == 1
        # Defensive playbook has stop-loss scenarios
        assert pb.stock_playbooks[0].scenarios[0].action == ScenarioAction.SELL
    @pytest.mark.asyncio
    async def test_gemini_failure_empty_when_defensive_disabled(self) -> None:
        planner = _make_planner()
        planner._settings.DEFENSIVE_PLAYBOOK_ON_FAILURE = False
        planner._gemini.decide = AsyncMock(side_effect=RuntimeError("fail"))
        candidates = [_candidate()]
        pb = await planner.generate_playbook("KR", candidates, today=date(2026, 2, 8))
        assert pb.stock_count == 0
    @pytest.mark.asyncio
    async def test_multiple_candidates(self) -> None:
        stocks = [
            {
                "stock_code": "005930",
                "scenarios": [
                    {
                        "condition": {"rsi_below": 30},
                        "action": "BUY",
                        "confidence": 85,
                        "rationale": "Oversold",
                    }
                ],
            },
            {
                "stock_code": "AAPL",
                "scenarios": [
                    {
                        "condition": {"rsi_above": 75},
                        "action": "SELL",
                        "confidence": 80,
                        "rationale": "Overbought",
                    }
                ],
            },
        ]
        planner = _make_planner(gemini_response=_gemini_response_json(stocks=stocks))
        candidates = [_candidate(), _candidate(code="AAPL", name="Apple")]
        pb = await planner.generate_playbook("US", candidates, today=date(2026, 2, 8))
        assert pb.stock_count == 2
        codes = [sp.stock_code for sp in pb.stock_playbooks]
        assert "005930" in codes
        assert "AAPL" in codes
    @pytest.mark.asyncio
    async def test_unknown_stock_in_response_skipped(self) -> None:
        stocks = [
            {
                "stock_code": "005930",
                "scenarios": [{"condition": {"rsi_below": 30}, "action": "BUY", "confidence": 85, "rationale": "ok"}],
            },
            {
                "stock_code": "UNKNOWN",
                "scenarios": [{"condition": {"rsi_below": 20}, "action": "BUY", "confidence": 90, "rationale": "bad"}],
            },
        ]
        planner = _make_planner(gemini_response=_gemini_response_json(stocks=stocks))
        candidates = [_candidate()]  # Only 005930
        pb = await planner.generate_playbook("KR", candidates, today=date(2026, 2, 8))
        assert pb.stock_count == 1
        assert pb.stock_playbooks[0].stock_code == "005930"
    @pytest.mark.asyncio
    async def test_global_rules_parsed(self) -> None:
        planner = _make_planner()
        candidates = [_candidate()]
        pb = await planner.generate_playbook("KR", candidates, today=date(2026, 2, 8))
        assert len(pb.global_rules) == 1
        assert pb.global_rules[0].action == ScenarioAction.REDUCE_ALL
    @pytest.mark.asyncio
    async def test_token_count_from_decision(self) -> None:
        planner = _make_planner(token_count=450)
        candidates = [_candidate()]
        pb = await planner.generate_playbook("KR", candidates, today=date(2026, 2, 8))
        assert pb.token_count == 450
 # ---------------------------------------------------------------------------
 # _parse_response
 # ---------------------------------------------------------------------------
 class TestParseResponse:
    def test_parse_full_response(self) -> None:
        planner = _make_planner()
        response = _gemini_response_json(outlook="bearish")
        candidates = [_candidate()]
        pb = planner._parse_response(response, date(2026, 2, 8), "KR", candidates, None)
        assert pb.market_outlook == MarketOutlook.BEARISH
        assert pb.stock_count == 1
        assert pb.stock_playbooks[0].scenarios[0].confidence == 85
    def test_parse_with_markdown_fences(self) -> None:
        planner = _make_planner()
        response = f"```json\n{_gemini_response_json()}\n```"
        candidates = [_candidate()]
        pb = planner._parse_response(response, date(2026, 2, 8), "KR", candidates, None)
        assert pb.stock_count == 1
    def test_parse_unknown_outlook_defaults_neutral(self) -> None:
        planner = _make_planner()
        response = _gemini_response_json(outlook="super_bullish")
        candidates = [_candidate()]
        pb = planner._parse_response(response, date(2026, 2, 8), "KR", candidates, None)
        assert pb.market_outlook == MarketOutlook.NEUTRAL
    def test_parse_scenario_with_all_condition_fields(self) -> None:
        planner = _make_planner()
        stocks = [
            {
                "stock_code": "005930",
                "scenarios": [
                    {
                        "condition": {
                            "rsi_below": 25,
                            "volume_ratio_above": 3.0,
                            "price_change_pct_below": -2.0,
                        },
                        "action": "BUY",
                        "confidence": 92,
                        "allocation_pct": 20.0,
                        "stop_loss_pct": -3.0,
                        "take_profit_pct": 5.0,
                        "rationale": "Multi-condition entry",
                    }
                ],
            }
        ]
        response = _gemini_response_json(stocks=stocks)
        candidates = [_candidate()]
        pb = planner._parse_response(response, date(2026, 2, 8), "KR", candidates, None)
        sc = pb.stock_playbooks[0].scenarios[0]
        assert sc.condition.rsi_below == 25
        assert sc.condition.volume_ratio_above == 3.0
        assert sc.condition.price_change_pct_below == -2.0
        assert sc.allocation_pct == 20.0
        assert sc.stop_loss_pct == -3.0
        assert sc.take_profit_pct == 5.0
    def test_parse_empty_condition_scenario_skipped(self) -> None:
        planner = _make_planner()
        stocks = [
            {
                "stock_code": "005930",
                "scenarios": [
                    {
                        "condition": {},
                        "action": "BUY",
                        "confidence": 85,
                        "rationale": "No conditions",
                    },
                    {
                        "condition": {"rsi_below": 30},
                        "action": "BUY",
                        "confidence": 80,
                        "rationale": "Valid",
                    },
                ],
            }
        ]
        response = _gemini_response_json(stocks=stocks)
        candidates = [_candidate()]
        pb = planner._parse_response(response, date(2026, 2, 8), "KR", candidates, None)
        # Empty condition scenario skipped, valid one kept
        assert pb.stock_count == 1
        assert pb.stock_playbooks[0].scenarios[0].confidence == 80
    def test_parse_max_scenarios_enforced(self) -> None:
        planner = _make_planner()
        # Settings default MAX_SCENARIOS_PER_STOCK = 5
        scenarios = [
            {
                "condition": {"rsi_below": 20 + i},
                "action": "BUY",
                "confidence": 80 + i,
                "rationale": f"Scenario {i}",
            }
            for i in range(8)  # 8 scenarios, should be capped to 5
        ]
        stocks = [{"stock_code": "005930", "scenarios": scenarios}]
        response = _gemini_response_json(stocks=stocks)
        candidates = [_candidate()]
        pb = planner._parse_response(response, date(2026, 2, 8), "KR", candidates, None)
        assert len(pb.stock_playbooks[0].scenarios) == 5
    def test_parse_invalid_json_raises(self) -> None:
        planner = _make_planner()
        candidates = [_candidate()]
        with pytest.raises(json.JSONDecodeError):
            planner._parse_response("not json at all", date(2026, 2, 8), "KR", candidates, None)
    def test_parse_cross_market_preserved(self) -> None:
        planner = _make_planner()
        response = _gemini_response_json()
        candidates = [_candidate()]
        cross = CrossMarketContext(market="US", date="2026-02-07", total_pnl=1.5, win_rate=60)
        pb = planner._parse_response(response, date(2026, 2, 8), "KR", candidates, cross)
        assert pb.cross_market is not None
        assert pb.cross_market.market == "US"
        assert pb.cross_market.total_pnl == 1.5
 # ---------------------------------------------------------------------------
 # build_cross_market_context
 # ---------------------------------------------------------------------------
 class TestBuildCrossMarketContext:
    def test_kr_reads_us_scorecard(self) -> None:
        scorecard = {"total_pnl": 2.5, "win_rate": 65, "index_change_pct": 0.8, "lessons": ["Stay patient"]}
        planner = _make_planner(scorecard_data=scorecard)
        ctx = planner.build_cross_market_context("KR", today=date(2026, 2, 8))
        assert ctx is not None
        assert ctx.market == "US"
        assert ctx.total_pnl == 2.5
        assert ctx.win_rate == 65
        assert "Stay patient" in ctx.lessons
        # Verify it queried scorecard_US
        planner._context_store.get_context.assert_called_once_with(
            ContextLayer.L6_DAILY, "2026-02-08", "scorecard_US"
        )
    def test_us_reads_kr_scorecard(self) -> None:
        scorecard = {"total_pnl": -1.0, "win_rate": 40, "index_change_pct": -0.5}
        planner = _make_planner(scorecard_data=scorecard)
        ctx = planner.build_cross_market_context("US", today=date(2026, 2, 8))
        assert ctx is not None
        assert ctx.market == "KR"
        assert ctx.total_pnl == -1.0
        planner._context_store.get_context.assert_called_once_with(
            ContextLayer.L6_DAILY, "2026-02-08", "scorecard_KR"
        )
    def test_no_scorecard_returns_none(self) -> None:
        planner = _make_planner(scorecard_data=None)
        ctx = planner.build_cross_market_context("KR", today=date(2026, 2, 8))
        assert ctx is None
    def test_invalid_scorecard_returns_none(self) -> None:
        planner = _make_planner(scorecard_data="not a dict and not json")
        ctx = planner.build_cross_market_context("KR", today=date(2026, 2, 8))
        assert ctx is None
 # ---------------------------------------------------------------------------
 # _build_prompt
 # ---------------------------------------------------------------------------
 class TestBuildPrompt:
    def test_prompt_contains_candidates(self) -> None:
        planner = _make_planner()
        candidates = [_candidate(code="005930", name="Samsung")]
        prompt = planner._build_prompt("KR", candidates, {}, None)
        assert "005930" in prompt
        assert "Samsung" in prompt
        assert "RSI=" in prompt
        assert "volume_ratio=" in prompt
    def test_prompt_contains_cross_market(self) -> None:
        planner = _make_planner()
        cross = CrossMarketContext(
            market="US", date="2026-02-07", total_pnl=1.5,
            win_rate=60, index_change_pct=0.8, lessons=["Cut losses early"],
        )
        prompt = planner._build_prompt("KR", [_candidate()], {}, cross)
        assert "Other Market (US)" in prompt
        assert "+1.50%" in prompt
        assert "Cut losses early" in prompt
    def test_prompt_contains_context_data(self) -> None:
        planner = _make_planner()
        context = {"L6_DAILY": {"win_rate": 0.65, "total_pnl": 2.5}}
        prompt = planner._build_prompt("KR", [_candidate()], context, None)
        assert "Strategic Context" in prompt
        assert "L6_DAILY" in prompt
        assert "win_rate" in prompt
    def test_prompt_contains_max_scenarios(self) -> None:
        planner = _make_planner()
        prompt = planner._build_prompt("KR", [_candidate()], {}, None)
        assert f"Max {planner._settings.MAX_SCENARIOS_PER_STOCK} scenarios" in prompt
    def test_prompt_market_name(self) -> None:
        planner = _make_planner()
        prompt = planner._build_prompt("US", [_candidate()], {}, None)
        assert "US market" in prompt
 # ---------------------------------------------------------------------------
 # _extract_json
 # ---------------------------------------------------------------------------
 class TestExtractJson:
    def test_plain_json(self) -> None:
        assert PreMarketPlanner._extract_json('{"a": 1}') == '{"a": 1}'
    def test_with_json_fence(self) -> None:
        text = '```json\n{"a": 1}\n```'
        assert PreMarketPlanner._extract_json(text) == '{"a": 1}'
    def test_with_plain_fence(self) -> None:
        text = '```\n{"a": 1}\n```'
        assert PreMarketPlanner._extract_json(text) == '{"a": 1}'
    def test_with_whitespace(self) -> None:
        text = '  \n  {"a": 1}  \n  '
        assert PreMarketPlanner._extract_json(text) == '{"a": 1}'
 # ---------------------------------------------------------------------------
 # Defensive playbook
 # ---------------------------------------------------------------------------
 class TestDefensivePlaybook:
    def test_defensive_has_stop_loss(self) -> None:
        candidates = [_candidate(code="005930"), _candidate(code="AAPL")]
        pb = PreMarketPlanner._defensive_playbook(date(2026, 2, 8), "KR", candidates)
        assert pb.default_action == ScenarioAction.HOLD
        assert pb.market_outlook == MarketOutlook.NEUTRAL_TO_BEARISH
        assert pb.stock_count == 2
        for sp in pb.stock_playbooks:
            assert sp.scenarios[0].action == ScenarioAction.SELL
            assert sp.scenarios[0].stop_loss_pct == -3.0
    def test_defensive_has_global_rule(self) -> None:
        pb = PreMarketPlanner._defensive_playbook(date(2026, 2, 8), "KR", [_candidate()])
        assert len(pb.global_rules) == 1
        assert pb.global_rules[0].action == ScenarioAction.REDUCE_ALL
    def test_empty_playbook(self) -> None:
        pb = PreMarketPlanner._empty_playbook(date(2026, 2, 8), "US")
        assert pb.stock_count == 0
        assert pb.market == "US"
        assert pb.market_outlook == MarketOutlook.NEUTRAL
--- a/tests/test_scenario_engine.py
+++ b/tests/test_scenario_engine.py
@@ -0,0 +1,442 @@
 """Tests for the local scenario engine."""
 from __future__ import annotations
 from datetime import date
 import pytest
 from src.strategy.models import (
    DayPlaybook,
    GlobalRule,
    ScenarioAction,
    StockCondition,
    StockPlaybook,
    StockScenario,
 )
 from src.strategy.scenario_engine import ScenarioEngine, ScenarioMatch
@pytest.fixture
 def engine() -> ScenarioEngine:
    return ScenarioEngine()
 def _scenario(
    rsi_below: float | None = None,
    rsi_above: float | None = None,
    volume_ratio_above: float | None = None,
    action: ScenarioAction = ScenarioAction.BUY,
    confidence: int = 85,
    **kwargs,
 ) -> StockScenario:
    return StockScenario(
        condition=StockCondition(
            rsi_below=rsi_below,
            rsi_above=rsi_above,
            volume_ratio_above=volume_ratio_above,
            **kwargs,
        ),
        action=action,
        confidence=confidence,
        rationale=f"Test scenario: {action.value}",
    )
 def _playbook(
    stock_code: str = "005930",
    scenarios: list[StockScenario] | None = None,
    global_rules: list[GlobalRule] | None = None,
    default_action: ScenarioAction = ScenarioAction.HOLD,
 ) -> DayPlaybook:
    if scenarios is None:
        scenarios = [_scenario(rsi_below=30.0)]
    return DayPlaybook(
        date=date(2026, 2, 7),
        market="KR",
        stock_playbooks=[StockPlaybook(stock_code=stock_code, scenarios=scenarios)],
        global_rules=global_rules or [],
        default_action=default_action,
    )
 # ---------------------------------------------------------------------------
 # evaluate_condition
 # ---------------------------------------------------------------------------
 class TestEvaluateCondition:
    def test_rsi_below_match(self, engine: ScenarioEngine) -> None:
        cond = StockCondition(rsi_below=30.0)
        assert engine.evaluate_condition(cond, {"rsi": 25.0})
    def test_rsi_below_no_match(self, engine: ScenarioEngine) -> None:
        cond = StockCondition(rsi_below=30.0)
        assert not engine.evaluate_condition(cond, {"rsi": 35.0})
    def test_rsi_above_match(self, engine: ScenarioEngine) -> None:
        cond = StockCondition(rsi_above=70.0)
        assert engine.evaluate_condition(cond, {"rsi": 75.0})
    def test_rsi_above_no_match(self, engine: ScenarioEngine) -> None:
        cond = StockCondition(rsi_above=70.0)
        assert not engine.evaluate_condition(cond, {"rsi": 65.0})
    def test_volume_ratio_above_match(self, engine: ScenarioEngine) -> None:
        cond = StockCondition(volume_ratio_above=3.0)
        assert engine.evaluate_condition(cond, {"volume_ratio": 4.5})
    def test_volume_ratio_below_match(self, engine: ScenarioEngine) -> None:
        cond = StockCondition(volume_ratio_below=1.0)
        assert engine.evaluate_condition(cond, {"volume_ratio": 0.5})
    def test_price_above_match(self, engine: ScenarioEngine) -> None:
        cond = StockCondition(price_above=50000)
        assert engine.evaluate_condition(cond, {"current_price": 55000})
    def test_price_below_match(self, engine: ScenarioEngine) -> None:
        cond = StockCondition(price_below=50000)
        assert engine.evaluate_condition(cond, {"current_price": 45000})
    def test_price_change_pct_above_match(self, engine: ScenarioEngine) -> None:
        cond = StockCondition(price_change_pct_above=2.0)
        assert engine.evaluate_condition(cond, {"price_change_pct": 3.5})
    def test_price_change_pct_below_match(self, engine: ScenarioEngine) -> None:
        cond = StockCondition(price_change_pct_below=-3.0)
        assert engine.evaluate_condition(cond, {"price_change_pct": -4.0})
    def test_multiple_conditions_and_logic(self, engine: ScenarioEngine) -> None:
        cond = StockCondition(rsi_below=30.0, volume_ratio_above=3.0)
        # Both met
        assert engine.evaluate_condition(cond, {"rsi": 25.0, "volume_ratio": 4.0})
        # Only RSI met
        assert not engine.evaluate_condition(cond, {"rsi": 25.0, "volume_ratio": 2.0})
        # Only volume met
        assert not engine.evaluate_condition(cond, {"rsi": 35.0, "volume_ratio": 4.0})
        # Neither met
        assert not engine.evaluate_condition(cond, {"rsi": 35.0, "volume_ratio": 2.0})
    def test_empty_condition_returns_false(self, engine: ScenarioEngine) -> None:
        cond = StockCondition()
        assert not engine.evaluate_condition(cond, {"rsi": 25.0})
    def test_missing_data_returns_false(self, engine: ScenarioEngine) -> None:
        cond = StockCondition(rsi_below=30.0)
        assert not engine.evaluate_condition(cond, {})
    def test_none_data_returns_false(self, engine: ScenarioEngine) -> None:
        cond = StockCondition(rsi_below=30.0)
        assert not engine.evaluate_condition(cond, {"rsi": None})
    def test_boundary_value_not_matched(self, engine: ScenarioEngine) -> None:
        """rsi_below=30 should NOT match rsi=30 (strict less than)."""
        cond = StockCondition(rsi_below=30.0)
        assert not engine.evaluate_condition(cond, {"rsi": 30.0})
    def test_boundary_value_above_not_matched(self, engine: ScenarioEngine) -> None:
        """rsi_above=70 should NOT match rsi=70 (strict greater than)."""
        cond = StockCondition(rsi_above=70.0)
        assert not engine.evaluate_condition(cond, {"rsi": 70.0})
    def test_string_value_no_exception(self, engine: ScenarioEngine) -> None:
        """String numeric value should not raise TypeError."""
        cond = StockCondition(rsi_below=30.0)
        # "25" can be cast to float → should match
        assert engine.evaluate_condition(cond, {"rsi": "25"})
        # "35" → should not match
        assert not engine.evaluate_condition(cond, {"rsi": "35"})
    def test_percent_string_returns_false(self, engine: ScenarioEngine) -> None:
        """Percent string like '30%' cannot be cast to float → False, no exception."""
        cond = StockCondition(rsi_below=30.0)
        assert not engine.evaluate_condition(cond, {"rsi": "30%"})
    def test_decimal_value_no_exception(self, engine: ScenarioEngine) -> None:
        """Decimal values should be safely handled."""
        from decimal import Decimal
        cond = StockCondition(rsi_below=30.0)
        assert engine.evaluate_condition(cond, {"rsi": Decimal("25.0")})
    def test_mixed_invalid_types_no_exception(self, engine: ScenarioEngine) -> None:
        """Various invalid types should not raise exceptions."""
        cond = StockCondition(
            rsi_below=30.0, volume_ratio_above=2.0,
            price_above=100, price_change_pct_below=-1.0,
        )
        data = {
            "rsi": [25],           # list
            "volume_ratio": "bad",  # non-numeric string
            "current_price": {},    # dict
            "price_change_pct": object(),  # arbitrary object
        }
        # Should return False (invalid types → None → False), never raise
        assert not engine.evaluate_condition(cond, data)
    def test_missing_key_logs_warning_once(self, caplog) -> None:
        """Missing key warning should fire only once per key per engine instance."""
        import logging
        eng = ScenarioEngine()
        cond = StockCondition(rsi_below=30.0)
        with caplog.at_level(logging.WARNING):
            eng.evaluate_condition(cond, {})
            eng.evaluate_condition(cond, {})
            eng.evaluate_condition(cond, {})
        # Warning should appear exactly once despite 3 calls
        assert caplog.text.count("'rsi' but key missing") == 1
 # ---------------------------------------------------------------------------
 # check_global_rules
 # ---------------------------------------------------------------------------
 class TestCheckGlobalRules:
    def test_no_rules(self, engine: ScenarioEngine) -> None:
        pb = _playbook(global_rules=[])
        result = engine.check_global_rules(pb, {"portfolio_pnl_pct": -1.0})
        assert result is None
    def test_rule_triggered(self, engine: ScenarioEngine) -> None:
        pb = _playbook(
            global_rules=[
                GlobalRule(
                    condition="portfolio_pnl_pct < -2.0",
                    action=ScenarioAction.REDUCE_ALL,
                    rationale="Near circuit breaker",
                ),
            ]
        )
        result = engine.check_global_rules(pb, {"portfolio_pnl_pct": -2.5})
        assert result is not None
        assert result.action == ScenarioAction.REDUCE_ALL
    def test_rule_not_triggered(self, engine: ScenarioEngine) -> None:
        pb = _playbook(
            global_rules=[
                GlobalRule(
                    condition="portfolio_pnl_pct < -2.0",
                    action=ScenarioAction.REDUCE_ALL,
                ),
            ]
        )
        result = engine.check_global_rules(pb, {"portfolio_pnl_pct": -1.0})
        assert result is None
    def test_first_rule_wins(self, engine: ScenarioEngine) -> None:
        pb = _playbook(
            global_rules=[
                GlobalRule(condition="portfolio_pnl_pct < -2.0", action=ScenarioAction.REDUCE_ALL),
                GlobalRule(condition="portfolio_pnl_pct < -1.0", action=ScenarioAction.HOLD),
            ]
        )
        result = engine.check_global_rules(pb, {"portfolio_pnl_pct": -2.5})
        assert result is not None
        assert result.action == ScenarioAction.REDUCE_ALL
    def test_greater_than_operator(self, engine: ScenarioEngine) -> None:
        pb = _playbook(
            global_rules=[
                GlobalRule(condition="volatility_index > 30", action=ScenarioAction.HOLD),
            ]
        )
        result = engine.check_global_rules(pb, {"volatility_index": 35})
        assert result is not None
    def test_missing_field_not_triggered(self, engine: ScenarioEngine) -> None:
        pb = _playbook(
            global_rules=[
                GlobalRule(condition="unknown_field < -2.0", action=ScenarioAction.REDUCE_ALL),
            ]
        )
        result = engine.check_global_rules(pb, {"portfolio_pnl_pct": -5.0})
        assert result is None
    def test_invalid_condition_format(self, engine: ScenarioEngine) -> None:
        pb = _playbook(
            global_rules=[
                GlobalRule(condition="bad format", action=ScenarioAction.HOLD),
            ]
        )
        result = engine.check_global_rules(pb, {})
        assert result is None
    def test_le_operator(self, engine: ScenarioEngine) -> None:
        pb = _playbook(
            global_rules=[
                GlobalRule(condition="portfolio_pnl_pct <= -2.0", action=ScenarioAction.REDUCE_ALL),
            ]
        )
        assert engine.check_global_rules(pb, {"portfolio_pnl_pct": -2.0}) is not None
        assert engine.check_global_rules(pb, {"portfolio_pnl_pct": -1.9}) is None
    def test_ge_operator(self, engine: ScenarioEngine) -> None:
        pb = _playbook(
            global_rules=[
                GlobalRule(condition="volatility >= 80.0", action=ScenarioAction.HOLD),
            ]
        )
        assert engine.check_global_rules(pb, {"volatility": 80.0}) is not None
        assert engine.check_global_rules(pb, {"volatility": 79.9}) is None
 # ---------------------------------------------------------------------------
 # evaluate (full pipeline)
 # ---------------------------------------------------------------------------
 class TestEvaluate:
    def test_scenario_match(self, engine: ScenarioEngine) -> None:
        pb = _playbook(scenarios=[_scenario(rsi_below=30.0)])
        result = engine.evaluate(pb, "005930", {"rsi": 25.0}, {})
        assert result.action == ScenarioAction.BUY
        assert result.confidence == 85
        assert result.matched_scenario is not None
    def test_no_scenario_match_returns_default(self, engine: ScenarioEngine) -> None:
        pb = _playbook(scenarios=[_scenario(rsi_below=30.0)])
        result = engine.evaluate(pb, "005930", {"rsi": 50.0}, {})
        assert result.action == ScenarioAction.HOLD
        assert result.confidence == 0
        assert result.matched_scenario is None
    def test_stock_not_in_playbook(self, engine: ScenarioEngine) -> None:
        pb = _playbook(stock_code="005930")
        result = engine.evaluate(pb, "AAPL", {"rsi": 25.0}, {})
        assert result.action == ScenarioAction.HOLD
        assert result.confidence == 0
    def test_global_rule_takes_priority(self, engine: ScenarioEngine) -> None:
        pb = _playbook(
            scenarios=[_scenario(rsi_below=30.0)],
            global_rules=[
                GlobalRule(
                    condition="portfolio_pnl_pct < -2.0",
                    action=ScenarioAction.REDUCE_ALL,
                    rationale="Loss limit",
                ),
            ],
        )
        result = engine.evaluate(
            pb,
            "005930",
            {"rsi": 25.0},  # Would match scenario
            {"portfolio_pnl_pct": -2.5},  # But global rule triggers first
        )
        assert result.action == ScenarioAction.REDUCE_ALL
        assert result.global_rule_triggered is not None
        assert result.matched_scenario is None
    def test_first_scenario_wins(self, engine: ScenarioEngine) -> None:
        pb = _playbook(
            scenarios=[
                _scenario(rsi_below=30.0, action=ScenarioAction.BUY, confidence=90),
                _scenario(rsi_below=25.0, action=ScenarioAction.BUY, confidence=95),
            ]
        )
        result = engine.evaluate(pb, "005930", {"rsi": 20.0}, {})
        # Both match, but first wins
        assert result.confidence == 90
    def test_sell_scenario(self, engine: ScenarioEngine) -> None:
        pb = _playbook(
            scenarios=[
                _scenario(rsi_above=75.0, action=ScenarioAction.SELL, confidence=80),
            ]
        )
        result = engine.evaluate(pb, "005930", {"rsi": 80.0}, {})
        assert result.action == ScenarioAction.SELL
    def test_empty_playbook(self, engine: ScenarioEngine) -> None:
        pb = DayPlaybook(date=date(2026, 2, 7), market="KR", stock_playbooks=[])
        result = engine.evaluate(pb, "005930", {"rsi": 25.0}, {})
        assert result.action == ScenarioAction.HOLD
    def test_match_details_populated(self, engine: ScenarioEngine) -> None:
        pb = _playbook(scenarios=[_scenario(rsi_below=30.0, volume_ratio_above=2.0)])
        result = engine.evaluate(
            pb, "005930", {"rsi": 25.0, "volume_ratio": 3.0}, {}
        )
        assert result.match_details.get("rsi") == 25.0
        assert result.match_details.get("volume_ratio") == 3.0
    def test_custom_default_action(self, engine: ScenarioEngine) -> None:
        pb = _playbook(
            scenarios=[_scenario(rsi_below=10.0)],  # Very unlikely to match
            default_action=ScenarioAction.SELL,
        )
        result = engine.evaluate(pb, "005930", {"rsi": 50.0}, {})
        assert result.action == ScenarioAction.SELL
    def test_multiple_stocks_in_playbook(self, engine: ScenarioEngine) -> None:
        pb = DayPlaybook(
            date=date(2026, 2, 7),
            market="US",
            stock_playbooks=[
                StockPlaybook(
                    stock_code="AAPL",
                    scenarios=[_scenario(rsi_below=25.0, confidence=90)],
                ),
                StockPlaybook(
                    stock_code="MSFT",
                    scenarios=[_scenario(rsi_above=75.0, action=ScenarioAction.SELL, confidence=80)],
                ),
            ],
        )
        aapl = engine.evaluate(pb, "AAPL", {"rsi": 20.0}, {})
        assert aapl.action == ScenarioAction.BUY
        assert aapl.confidence == 90
        msft = engine.evaluate(pb, "MSFT", {"rsi": 80.0}, {})
        assert msft.action == ScenarioAction.SELL
    def test_complex_multi_condition(self, engine: ScenarioEngine) -> None:
        pb = _playbook(
            scenarios=[
                _scenario(
                    rsi_below=30.0,
                    volume_ratio_above=3.0,
                    price_change_pct_below=-2.0,
                    confidence=95,
                ),
            ]
        )
        # All conditions met
        result = engine.evaluate(
            pb,
            "005930",
            {"rsi": 22.0, "volume_ratio": 4.0, "price_change_pct": -3.0},
            {},
        )
        assert result.action == ScenarioAction.BUY
        assert result.confidence == 95
        # One condition not met
        result2 = engine.evaluate(
            pb,
            "005930",
            {"rsi": 22.0, "volume_ratio": 4.0, "price_change_pct": -1.0},
            {},
        )
        assert result2.action == ScenarioAction.HOLD
    def test_scenario_match_returns_rationale(self, engine: ScenarioEngine) -> None:
        pb = _playbook(scenarios=[_scenario(rsi_below=30.0)])
        result = engine.evaluate(pb, "005930", {"rsi": 25.0}, {})
        assert result.rationale != ""
    def test_result_stock_code(self, engine: ScenarioEngine) -> None:
        pb = _playbook()
        result = engine.evaluate(pb, "005930", {"rsi": 25.0}, {})
        assert result.stock_code == "005930"
    def test_match_details_normalized(self, engine: ScenarioEngine) -> None:
        """match_details should contain _safe_float normalized values, not raw."""
        pb = _playbook(scenarios=[_scenario(rsi_below=30.0)])
        # Pass string value — should be normalized to float in match_details
        result = engine.evaluate(pb, "005930", {"rsi": "25.0"}, {})
        assert result.action == ScenarioAction.BUY
        assert result.match_details["rsi"] == 25.0
        assert isinstance(result.match_details["rsi"], float)
--- a/tests/test_smart_scanner.py
+++ b/tests/test_smart_scanner.py
@@ -0,0 +1,377 @@
 """Tests for SmartVolatilityScanner."""
 from __future__ import annotations
 import pytest
 from unittest.mock import AsyncMock, MagicMock
 from src.analysis.smart_scanner import ScanCandidate, SmartVolatilityScanner
 from src.analysis.volatility import VolatilityAnalyzer
 from src.broker.kis_api import KISBroker
 from src.config import Settings
@pytest.fixture
 def mock_settings() -> Settings:
    """Create test settings."""
    return Settings(
        KIS_APP_KEY="test",
        KIS_APP_SECRET="test",
        KIS_ACCOUNT_NO="12345678-01",
        GEMINI_API_KEY="test",
        RSI_OVERSOLD_THRESHOLD=30,
        RSI_MOMENTUM_THRESHOLD=70,
        VOL_MULTIPLIER=2.0,
        SCANNER_TOP_N=3,
        DB_PATH=":memory:",
    )
@pytest.fixture
 def mock_broker(mock_settings: Settings) -> MagicMock:
    """Create mock broker."""
    broker = MagicMock(spec=KISBroker)
    broker._settings = mock_settings
    broker.fetch_market_rankings = AsyncMock()
    broker.get_daily_prices = AsyncMock()
    return broker
@pytest.fixture
 def scanner(mock_broker: MagicMock, mock_settings: Settings) -> SmartVolatilityScanner:
    """Create smart scanner instance."""
    analyzer = VolatilityAnalyzer()
    return SmartVolatilityScanner(
        broker=mock_broker,
        volatility_analyzer=analyzer,
        settings=mock_settings,
    )
 class TestSmartVolatilityScanner:
    """Test suite for SmartVolatilityScanner."""
    @pytest.mark.asyncio
    async def test_scan_finds_oversold_candidates(
        self, scanner: SmartVolatilityScanner, mock_broker: MagicMock
    ) -> None:
        """Test that scanner identifies oversold stocks with high volume."""
        # Mock rankings
        mock_broker.fetch_market_rankings.return_value = [
            {
                "stock_code": "005930",
                "name": "Samsung",
                "price": 70000,
                "volume": 5000000,
                "change_rate": -3.5,
                "volume_increase_rate": 250,
            },
        ]
        # Mock daily prices - trending down (oversold)
        prices = []
        for i in range(20):
            prices.append({
                "date": f"2026020{i:02d}",
                "open": 75000 - i * 200,
                "high": 75500 - i * 200,
                "low": 74500 - i * 200,
                "close": 75000 - i * 250,  # Steady decline
                "volume": 2000000,
            })
        mock_broker.get_daily_prices.return_value = prices
        candidates = await scanner.scan()
        # Should find at least one candidate (depending on exact RSI calculation)
        mock_broker.fetch_market_rankings.assert_called_once()
        mock_broker.get_daily_prices.assert_called_once_with("005930", days=20)
        # If qualified, should have oversold signal
        if candidates:
            assert candidates[0].signal in ["oversold", "momentum"]
            assert candidates[0].volume_ratio >= scanner.vol_multiplier
    @pytest.mark.asyncio
    async def test_scan_finds_momentum_candidates(
        self, scanner: SmartVolatilityScanner, mock_broker: MagicMock
    ) -> None:
        """Test that scanner identifies momentum stocks with high volume."""
        mock_broker.fetch_market_rankings.return_value = [
            {
                "stock_code": "035420",
                "name": "NAVER",
                "price": 250000,
                "volume": 3000000,
                "change_rate": 5.0,
                "volume_increase_rate": 300,
            },
        ]
        # Mock daily prices - trending up (momentum)
        prices = []
        for i in range(20):
            prices.append({
                "date": f"2026020{i:02d}",
                "open": 230000 + i * 500,
                "high": 231000 + i * 500,
                "low": 229000 + i * 500,
                "close": 230500 + i * 500,  # Steady rise
                "volume": 1000000,
            })
        mock_broker.get_daily_prices.return_value = prices
        candidates = await scanner.scan()
        mock_broker.fetch_market_rankings.assert_called_once()
    @pytest.mark.asyncio
    async def test_scan_filters_low_volume(
        self, scanner: SmartVolatilityScanner, mock_broker: MagicMock
    ) -> None:
        """Test that stocks with low volume ratio are filtered out."""
        mock_broker.fetch_market_rankings.return_value = [
            {
                "stock_code": "000660",
                "name": "SK Hynix",
                "price": 150000,
                "volume": 500000,
                "change_rate": -5.0,
                "volume_increase_rate": 50,  # Only 50% increase (< 200%)
            },
        ]
        # Low volume
        prices = []
        for i in range(20):
            prices.append({
                "date": f"2026020{i:02d}",
                "open": 150000 - i * 100,
                "high": 151000 - i * 100,
                "low": 149000 - i * 100,
                "close": 150000 - i * 150,  # Declining (would be oversold)
                "volume": 1000000,  # Current 500k < 2x prev day 1M
            })
        mock_broker.get_daily_prices.return_value = prices
        candidates = await scanner.scan()
        # Should be filtered out due to low volume ratio
        assert len(candidates) == 0
    @pytest.mark.asyncio
    async def test_scan_filters_neutral_rsi(
        self, scanner: SmartVolatilityScanner, mock_broker: MagicMock
    ) -> None:
        """Test that stocks with neutral RSI are filtered out."""
        mock_broker.fetch_market_rankings.return_value = [
            {
                "stock_code": "051910",
                "name": "LG Chem",
                "price": 500000,
                "volume": 3000000,
                "change_rate": 0.5,
                "volume_increase_rate": 300,  # High volume
            },
        ]
        # Flat prices (neutral RSI ~50)
        prices = []
        for i in range(20):
            prices.append({
                "date": f"2026020{i:02d}",
                "open": 500000 + (i % 2) * 100,  # Small oscillation
                "high": 500500,
                "low": 499500,
                "close": 500000 + (i % 2) * 50,
                "volume": 1000000,
            })
        mock_broker.get_daily_prices.return_value = prices
        candidates = await scanner.scan()
        # Should be filtered out (RSI ~50, not < 30 or > 70)
        assert len(candidates) == 0
    @pytest.mark.asyncio
    async def test_scan_uses_fallback_on_api_error(
        self, scanner: SmartVolatilityScanner, mock_broker: MagicMock
    ) -> None:
        """Test fallback to static list when ranking API fails."""
        mock_broker.fetch_market_rankings.side_effect = ConnectionError("API unavailable")
        # Fallback stocks should still be analyzed
        prices = []
        for i in range(20):
            prices.append({
                "date": f"2026020{i:02d}",
                "open": 50000 - i * 50,
                "high": 51000 - i * 50,
                "low": 49000 - i * 50,
                "close": 50000 - i * 75,  # Declining
                "volume": 1000000,
            })
        mock_broker.get_daily_prices.return_value = prices
        candidates = await scanner.scan(fallback_stocks=["005930", "000660"])
        # Should not crash
        assert isinstance(candidates, list)
    @pytest.mark.asyncio
    async def test_scan_returns_top_n_only(
        self, scanner: SmartVolatilityScanner, mock_broker: MagicMock
    ) -> None:
        """Test that scan returns at most top_n candidates."""
        # Return many stocks
        mock_broker.fetch_market_rankings.return_value = [
            {
                "stock_code": f"00{i}000",
                "name": f"Stock{i}",
                "price": 10000 * i,
                "volume": 5000000,
                "change_rate": -10,
                "volume_increase_rate": 500,
            }
            for i in range(1, 10)
        ]
        # All oversold with high volume
        def make_prices(code: str) -> list[dict]:
            prices = []
            for i in range(20):
                prices.append({
                    "date": f"2026020{i:02d}",
                    "open": 10000 - i * 100,
                    "high": 10500 - i * 100,
                    "low": 9500 - i * 100,
                    "close": 10000 - i * 150,
                    "volume": 1000000,
                })
            return prices
        mock_broker.get_daily_prices.side_effect = make_prices
        candidates = await scanner.scan()
        # Should respect top_n limit (3)
        assert len(candidates) <= scanner.top_n
    @pytest.mark.asyncio
    async def test_scan_skips_insufficient_price_history(
        self, scanner: SmartVolatilityScanner, mock_broker: MagicMock
    ) -> None:
        """Test that stocks with insufficient history are skipped."""
        mock_broker.fetch_market_rankings.return_value = [
            {
                "stock_code": "005930",
                "name": "Samsung",
                "price": 70000,
                "volume": 5000000,
                "change_rate": -5.0,
                "volume_increase_rate": 300,
            },
        ]
        # Only 5 days of data (need 15+ for RSI)
        mock_broker.get_daily_prices.return_value = [
            {
                "date": f"2026020{i:02d}",
                "open": 70000,
                "high": 71000,
                "low": 69000,
                "close": 70000,
                "volume": 2000000,
            }
            for i in range(5)
        ]
        candidates = await scanner.scan()
        # Should skip due to insufficient data
        assert len(candidates) == 0
    @pytest.mark.asyncio
    async def test_get_stock_codes(
        self, scanner: SmartVolatilityScanner
    ) -> None:
        """Test extraction of stock codes from candidates."""
        candidates = [
            ScanCandidate(
                stock_code="005930",
                name="Samsung",
                price=70000,
                volume=5000000,
                volume_ratio=2.5,
                rsi=28,
                signal="oversold",
                score=85.0,
            ),
            ScanCandidate(
                stock_code="035420",
                name="NAVER",
                price=250000,
                volume=3000000,
                volume_ratio=3.0,
                rsi=75,
                signal="momentum",
                score=88.0,
            ),
        ]
        codes = scanner.get_stock_codes(candidates)
        assert codes == ["005930", "035420"]
 class TestRSICalculation:
    """Test RSI calculation in VolatilityAnalyzer."""
    def test_rsi_oversold(self) -> None:
        """Test RSI calculation for downtrending prices."""
        analyzer = VolatilityAnalyzer()
        # Steadily declining prices
        prices = [100 - i * 0.5 for i in range(20)]
        rsi = analyzer.calculate_rsi(prices, period=14)
        assert rsi < 50  # Should be oversold territory
    def test_rsi_overbought(self) -> None:
        """Test RSI calculation for uptrending prices."""
        analyzer = VolatilityAnalyzer()
        # Steadily rising prices
        prices = [100 + i * 0.5 for i in range(20)]
        rsi = analyzer.calculate_rsi(prices, period=14)
        assert rsi > 50  # Should be overbought territory
    def test_rsi_neutral(self) -> None:
        """Test RSI calculation for flat prices."""
        analyzer = VolatilityAnalyzer()
        # Flat prices with small oscillation
        prices = [100 + (i % 2) * 0.1 for i in range(20)]
        rsi = analyzer.calculate_rsi(prices, period=14)
        assert 40 < rsi < 60  # Should be near neutral
    def test_rsi_insufficient_data(self) -> None:
        """Test RSI returns neutral when insufficient data."""
        analyzer = VolatilityAnalyzer()
        prices = [100, 101, 102]  # Only 3 prices, need 15+
        rsi = analyzer.calculate_rsi(prices, period=14)
        assert rsi == 50.0  # Default neutral
    def test_rsi_all_gains(self) -> None:
        """Test RSI returns 100 when all gains (no losses)."""
        analyzer = VolatilityAnalyzer()
        # Monotonic increase
        prices = [100 + i for i in range(20)]
        rsi = analyzer.calculate_rsi(prices, period=14)
        assert rsi == 100.0  # Maximum RSI
--- a/tests/test_strategy_models.py
+++ b/tests/test_strategy_models.py
@@ -0,0 +1,366 @@
 """Tests for strategy/playbook Pydantic models."""
 from __future__ import annotations
 from datetime import date
 import pytest
 from pydantic import ValidationError
 from src.strategy.models import (
    CrossMarketContext,
    DayPlaybook,
    GlobalRule,
    MarketOutlook,
    PlaybookStatus,
    ScenarioAction,
    StockCondition,
    StockPlaybook,
    StockScenario,
 )
 # ---------------------------------------------------------------------------
 # StockCondition
 # ---------------------------------------------------------------------------
 class TestStockCondition:
    def test_empty_condition(self) -> None:
        cond = StockCondition()
        assert not cond.has_any_condition()
    def test_single_field(self) -> None:
        cond = StockCondition(rsi_below=30.0)
        assert cond.has_any_condition()
    def test_multiple_fields(self) -> None:
        cond = StockCondition(rsi_below=25.0, volume_ratio_above=3.0)
        assert cond.has_any_condition()
    def test_all_fields(self) -> None:
        cond = StockCondition(
            rsi_below=30,
            rsi_above=10,
            volume_ratio_above=2.0,
            volume_ratio_below=10.0,
            price_above=1000,
            price_below=50000,
            price_change_pct_above=-5.0,
            price_change_pct_below=5.0,
        )
        assert cond.has_any_condition()
 # ---------------------------------------------------------------------------
 # StockScenario
 # ---------------------------------------------------------------------------
 class TestStockScenario:
    def test_valid_scenario(self) -> None:
        s = StockScenario(
            condition=StockCondition(rsi_below=25.0),
            action=ScenarioAction.BUY,
            confidence=85,
            allocation_pct=15.0,
            stop_loss_pct=-2.0,
            take_profit_pct=3.0,
            rationale="Oversold bounce expected",
        )
        assert s.action == ScenarioAction.BUY
        assert s.confidence == 85
    def test_confidence_too_high(self) -> None:
        with pytest.raises(ValidationError):
            StockScenario(
                condition=StockCondition(),
                action=ScenarioAction.BUY,
                confidence=101,
            )
    def test_confidence_too_low(self) -> None:
        with pytest.raises(ValidationError):
            StockScenario(
                condition=StockCondition(),
                action=ScenarioAction.BUY,
                confidence=-1,
            )
    def test_allocation_too_high(self) -> None:
        with pytest.raises(ValidationError):
            StockScenario(
                condition=StockCondition(),
                action=ScenarioAction.BUY,
                confidence=80,
                allocation_pct=101.0,
            )
    def test_stop_loss_must_be_negative(self) -> None:
        with pytest.raises(ValidationError):
            StockScenario(
                condition=StockCondition(),
                action=ScenarioAction.BUY,
                confidence=80,
                stop_loss_pct=1.0,
            )
    def test_take_profit_must_be_positive(self) -> None:
        with pytest.raises(ValidationError):
            StockScenario(
                condition=StockCondition(),
                action=ScenarioAction.BUY,
                confidence=80,
                take_profit_pct=-1.0,
            )
    def test_defaults(self) -> None:
        s = StockScenario(
            condition=StockCondition(),
            action=ScenarioAction.HOLD,
            confidence=50,
        )
        assert s.allocation_pct == 10.0
        assert s.stop_loss_pct == -2.0
        assert s.take_profit_pct == 3.0
        assert s.rationale == ""
 # ---------------------------------------------------------------------------
 # StockPlaybook
 # ---------------------------------------------------------------------------
 class TestStockPlaybook:
    def test_valid_playbook(self) -> None:
        pb = StockPlaybook(
            stock_code="005930",
            stock_name="Samsung Electronics",
            scenarios=[
                StockScenario(
                    condition=StockCondition(rsi_below=25.0),
                    action=ScenarioAction.BUY,
                    confidence=85,
                ),
            ],
        )
        assert pb.stock_code == "005930"
        assert len(pb.scenarios) == 1
    def test_empty_scenarios_rejected(self) -> None:
        with pytest.raises(ValidationError):
            StockPlaybook(
                stock_code="005930",
                scenarios=[],
            )
    def test_multiple_scenarios(self) -> None:
        pb = StockPlaybook(
            stock_code="AAPL",
            scenarios=[
                StockScenario(
                    condition=StockCondition(rsi_below=25.0),
                    action=ScenarioAction.BUY,
                    confidence=85,
                ),
                StockScenario(
                    condition=StockCondition(rsi_above=75.0),
                    action=ScenarioAction.SELL,
                    confidence=80,
                ),
            ],
        )
        assert len(pb.scenarios) == 2
 # ---------------------------------------------------------------------------
 # GlobalRule
 # ---------------------------------------------------------------------------
 class TestGlobalRule:
    def test_valid_rule(self) -> None:
        rule = GlobalRule(
            condition="portfolio_pnl_pct < -2.0",
            action=ScenarioAction.REDUCE_ALL,
            rationale="Risk limit approaching",
        )
        assert rule.action == ScenarioAction.REDUCE_ALL
    def test_hold_rule(self) -> None:
        rule = GlobalRule(
            condition="volatility_index > 30",
            action=ScenarioAction.HOLD,
        )
        assert rule.rationale == ""
 # ---------------------------------------------------------------------------
 # CrossMarketContext
 # ---------------------------------------------------------------------------
 class TestCrossMarketContext:
    def test_valid_context(self) -> None:
        ctx = CrossMarketContext(
            market="US",
            date="2026-02-07",
            total_pnl=-1.5,
            win_rate=40.0,
            index_change_pct=-2.3,
            key_events=["Fed rate decision"],
            lessons=["Avoid tech sector on rate hike days"],
        )
        assert ctx.market == "US"
        assert len(ctx.key_events) == 1
    def test_defaults(self) -> None:
        ctx = CrossMarketContext(market="KR", date="2026-02-07")
        assert ctx.total_pnl == 0.0
        assert ctx.key_events == []
        assert ctx.lessons == []
 # ---------------------------------------------------------------------------
 # DayPlaybook
 # ---------------------------------------------------------------------------
 def _make_scenario(rsi_below: float = 25.0) -> StockScenario:
    return StockScenario(
        condition=StockCondition(rsi_below=rsi_below),
        action=ScenarioAction.BUY,
        confidence=85,
    )
 def _make_playbook(**kwargs) -> DayPlaybook:
    defaults = {
        "date": date(2026, 2, 7),
        "market": "KR",
        "stock_playbooks": [
            StockPlaybook(stock_code="005930", scenarios=[_make_scenario()]),
        ],
    }
    defaults.update(kwargs)
    return DayPlaybook(**defaults)
 class TestDayPlaybook:
    def test_valid_playbook(self) -> None:
        pb = _make_playbook()
        assert pb.market == "KR"
        assert pb.date == date(2026, 2, 7)
        assert pb.default_action == ScenarioAction.HOLD
        assert pb.scenario_count == 1
        assert pb.stock_count == 1
    def test_generated_at_auto_set(self) -> None:
        pb = _make_playbook()
        assert pb.generated_at != ""
    def test_explicit_generated_at(self) -> None:
        pb = _make_playbook(generated_at="2026-02-07T08:30:00")
        assert pb.generated_at == "2026-02-07T08:30:00"
    def test_duplicate_stocks_rejected(self) -> None:
        with pytest.raises(ValidationError):
            DayPlaybook(
                date=date(2026, 2, 7),
                market="KR",
                stock_playbooks=[
                    StockPlaybook(stock_code="005930", scenarios=[_make_scenario()]),
                    StockPlaybook(stock_code="005930", scenarios=[_make_scenario(30)]),
                ],
            )
    def test_empty_stock_playbooks_allowed(self) -> None:
        pb = DayPlaybook(
            date=date(2026, 2, 7),
            market="KR",
            stock_playbooks=[],
        )
        assert pb.stock_count == 0
        assert pb.scenario_count == 0
    def test_get_stock_playbook_found(self) -> None:
        pb = _make_playbook()
        result = pb.get_stock_playbook("005930")
        assert result is not None
        assert result.stock_code == "005930"
    def test_get_stock_playbook_not_found(self) -> None:
        pb = _make_playbook()
        result = pb.get_stock_playbook("AAPL")
        assert result is None
    def test_with_global_rules(self) -> None:
        pb = _make_playbook(
            global_rules=[
                GlobalRule(
                    condition="portfolio_pnl_pct < -2.0",
                    action=ScenarioAction.REDUCE_ALL,
                ),
            ],
        )
        assert len(pb.global_rules) == 1
    def test_with_cross_market_context(self) -> None:
        ctx = CrossMarketContext(market="US", date="2026-02-07", total_pnl=-1.5)
        pb = _make_playbook(cross_market=ctx)
        assert pb.cross_market is not None
        assert pb.cross_market.market == "US"
    def test_market_outlook(self) -> None:
        pb = _make_playbook(market_outlook=MarketOutlook.BEARISH)
        assert pb.market_outlook == MarketOutlook.BEARISH
    def test_multiple_stocks_multiple_scenarios(self) -> None:
        pb = DayPlaybook(
            date=date(2026, 2, 7),
            market="US",
            stock_playbooks=[
                StockPlaybook(
                    stock_code="AAPL",
                    scenarios=[_make_scenario(), _make_scenario(30)],
                ),
                StockPlaybook(
                    stock_code="MSFT",
                    scenarios=[_make_scenario()],
                ),
            ],
        )
        assert pb.stock_count == 2
        assert pb.scenario_count == 3
    def test_serialization_roundtrip(self) -> None:
        pb = _make_playbook(
            market_outlook=MarketOutlook.BULLISH,
            cross_market=CrossMarketContext(market="US", date="2026-02-07"),
        )
        json_str = pb.model_dump_json()
        restored = DayPlaybook.model_validate_json(json_str)
        assert restored.market == pb.market
        assert restored.date == pb.date
        assert restored.scenario_count == pb.scenario_count
        assert restored.cross_market is not None
 # ---------------------------------------------------------------------------
 # Enums
 # ---------------------------------------------------------------------------
 class TestEnums:
    def test_scenario_action_values(self) -> None:
        assert ScenarioAction.BUY.value == "BUY"
        assert ScenarioAction.SELL.value == "SELL"
        assert ScenarioAction.HOLD.value == "HOLD"
        assert ScenarioAction.REDUCE_ALL.value == "REDUCE_ALL"
    def test_market_outlook_values(self) -> None:
        assert len(MarketOutlook) == 5
    def test_playbook_status_values(self) -> None:
        assert PlaybookStatus.READY.value == "ready"
        assert PlaybookStatus.EXPIRED.value == "expired"
--- a/tests/test_telegram.py
+++ b/tests/test_telegram.py
@@ -160,6 +160,83 @@ class TestNotificationSending:
            assert "250.50" in payload["text"]
            assert "92%" in payload["text"]
    @pytest.mark.asyncio
    async def test_playbook_generated_format(self) -> None:
        """Playbook generated notification has expected fields."""
        client = TelegramClient(
            bot_token="123:abc", chat_id="456", enabled=True
        )
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp) as mock_post:
            await client.notify_playbook_generated(
                market="KR",
                stock_count=4,
                scenario_count=12,
                token_count=980,
            )
            payload = mock_post.call_args.kwargs["json"]
            assert "Playbook Generated" in payload["text"]
            assert "Market: KR" in payload["text"]
            assert "Stocks: 4" in payload["text"]
            assert "Scenarios: 12" in payload["text"]
            assert "Tokens: 980" in payload["text"]
    @pytest.mark.asyncio
    async def test_scenario_matched_format(self) -> None:
        """Scenario matched notification has expected fields."""
        client = TelegramClient(
            bot_token="123:abc", chat_id="456", enabled=True
        )
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp) as mock_post:
            await client.notify_scenario_matched(
                stock_code="AAPL",
                action="BUY",
                condition_summary="RSI < 30, volume_ratio > 2.0",
                confidence=88.2,
            )
            payload = mock_post.call_args.kwargs["json"]
            assert "Scenario Matched" in payload["text"]
            assert "AAPL" in payload["text"]
            assert "Action: BUY" in payload["text"]
            assert "RSI < 30" in payload["text"]
            assert "88%" in payload["text"]
    @pytest.mark.asyncio
    async def test_playbook_failed_format(self) -> None:
        """Playbook failed notification has expected fields."""
        client = TelegramClient(
            bot_token="123:abc", chat_id="456", enabled=True
        )
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp) as mock_post:
            await client.notify_playbook_failed(
                market="US",
                reason="Gemini timeout",
            )
            payload = mock_post.call_args.kwargs["json"]
            assert "Playbook Failed" in payload["text"]
            assert "Market: US" in payload["text"]
            assert "Gemini timeout" in payload["text"]
    @pytest.mark.asyncio
    async def test_circuit_breaker_priority(self) -> None:
        """Circuit breaker uses CRITICAL priority."""
@@ -309,6 +386,73 @@ class TestMessagePriorities:
            payload = mock_post.call_args.kwargs["json"]
            assert NotificationPriority.CRITICAL.emoji in payload["text"]
    @pytest.mark.asyncio
    async def test_playbook_generated_priority(self) -> None:
        """Playbook generated uses MEDIUM priority emoji."""
        client = TelegramClient(
            bot_token="123:abc", chat_id="456", enabled=True
        )
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp) as mock_post:
            await client.notify_playbook_generated(
                market="KR",
                stock_count=2,
                scenario_count=4,
                token_count=123,
            )
            payload = mock_post.call_args.kwargs["json"]
            assert NotificationPriority.MEDIUM.emoji in payload["text"]
    @pytest.mark.asyncio
    async def test_playbook_failed_priority(self) -> None:
        """Playbook failed uses HIGH priority emoji."""
        client = TelegramClient(
            bot_token="123:abc", chat_id="456", enabled=True
        )
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp) as mock_post:
            await client.notify_playbook_failed(
                market="KR",
                reason="Invalid JSON",
            )
            payload = mock_post.call_args.kwargs["json"]
            assert NotificationPriority.HIGH.emoji in payload["text"]
    @pytest.mark.asyncio
    async def test_scenario_matched_priority(self) -> None:
        """Scenario matched uses HIGH priority emoji."""
        client = TelegramClient(
            bot_token="123:abc", chat_id="456", enabled=True
        )
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp) as mock_post:
            await client.notify_scenario_matched(
                stock_code="AAPL",
                action="BUY",
                condition_summary="RSI < 30",
                confidence=80.0,
            )
            payload = mock_post.call_args.kwargs["json"]
            assert NotificationPriority.HIGH.emoji in payload["text"]
 class TestClientCleanup:
    """Test client cleanup behavior."""
--- a/tests/test_telegram_commands.py
+++ b/tests/test_telegram_commands.py
@@ -230,6 +230,31 @@ class TestUpdateHandling:
        await handler._handle_update(update)
        assert executed is False
    @pytest.mark.asyncio
    async def test_handle_command_with_botname(self) -> None:
        """Commands with @botname suffix are handled correctly."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client)
        executed = False
        async def test_command() -> None:
            nonlocal executed
            executed = True
        handler.register_command("start", test_command)
        update = {
            "update_id": 1,
            "message": {
                "chat": {"id": 456},
                "text": "/start@mybot",
            },
        }
        await handler._handle_update(update)
        assert executed is True
    @pytest.mark.asyncio
    async def test_handle_update_error_isolation(self) -> None:
        """Errors in handlers don't crash the system."""
@@ -524,7 +549,7 @@ class TestStatusCommands:
    @pytest.mark.asyncio
    async def test_positions_command_shows_holdings(self) -> None:
-        """Positions command displays current holdings."""
+        """Positions command displays account summary."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client)
@@ -536,12 +561,12 @@ class TestStatusCommands:
        async def mock_positions() -> None:
            """Mock /positions handler."""
            message = (
-                "<b>💼 Current Holdings</b>\n"
+                "<b>💼 Account Summary</b>\n\n"
-                "\n🇰🇷 <b>Korea</b>\n"
+                "<b>Total Evaluation:</b> ₩10,500,000\n"
-                "• 005930: 10 shares @ 70,000\n"
+                "<b>Available Cash:</b> ₩5,000,000\n"
-                "\n🇺🇸 <b>Overseas</b>\n"
+                "<b>Purchase Total:</b> ₩10,000,000\n"
-                "• AAPL: 15 shares @ 175\n"
+                "<b>P&L:</b> +5.00%\n\n"
-                "\n<b>Cash:</b> ₩5,000,000"
+                "<i>Note: Individual position details require API enhancement</i>"
            )
            await client.send_message(message)
@@ -561,8 +586,9 @@ class TestStatusCommands:
            # Verify message was sent
            assert mock_post.call_count == 1
            payload = mock_post.call_args.kwargs["json"]
-            assert "Current Holdings" in payload["text"]
+            assert "Account Summary" in payload["text"]
-            assert "shares" in payload["text"]
+            assert "Total Evaluation" in payload["text"]
            assert "P&L" in payload["text"]
    @pytest.mark.asyncio
    async def test_positions_command_empty_holdings(self) -> None:
@@ -578,8 +604,8 @@ class TestStatusCommands:
        async def mock_positions_empty() -> None:
            """Mock /positions handler with no positions."""
            message = (
-                "<b>💼 Current Holdings</b>\n\n"
+                "<b>💼 Account Summary</b>\n\n"
-                "No positions currently held."
+                "No balance information available."
            )
            await client.send_message(message)
@@ -598,7 +624,7 @@ class TestStatusCommands:
            # Verify message was sent
            payload = mock_post.call_args.kwargs["json"]
-            assert "No positions" in payload["text"]
+            assert "No balance information available" in payload["text"]
    @pytest.mark.asyncio
    async def test_positions_command_error_handling(self) -> None:
@@ -638,51 +664,6 @@ class TestStatusCommands:
 class TestBasicCommands:
    """Test basic command implementations."""
    @pytest.mark.asyncio
    async def test_start_command_content(self) -> None:
        """Start command contains welcome message and command list."""
        client = TelegramClient(bot_token="123:abc", chat_id="456", enabled=True)
        handler = TelegramCommandHandler(client)
        mock_resp = AsyncMock()
        mock_resp.status = 200
        mock_resp.__aenter__ = AsyncMock(return_value=mock_resp)
        mock_resp.__aexit__ = AsyncMock(return_value=False)
        async def mock_start() -> None:
            """Mock /start handler."""
            message = (
                "<b>🤖 The Ouroboros Trading Bot</b>\n\n"
                "AI-powered global stock trading agent with real-time notifications.\n\n"
                "<b>Available commands:</b>\n"
                "/help - Show this help message\n"
                "/status - Current trading status\n"
                "/positions - View holdings\n"
                "/stop - Pause trading\n"
                "/resume - Resume trading"
            )
            await client.send_message(message)
        handler.register_command("start", mock_start)
        with patch("aiohttp.ClientSession.post", return_value=mock_resp) as mock_post:
            update = {
                "update_id": 1,
                "message": {
                    "chat": {"id": 456},
                    "text": "/start",
                },
            }
            await handler._handle_update(update)
            # Verify message was sent
            assert mock_post.call_count == 1
            payload = mock_post.call_args.kwargs["json"]
            assert "Ouroboros Trading Bot" in payload["text"]
            assert "/help" in payload["text"]
            assert "/status" in payload["text"]
    @pytest.mark.asyncio
    async def test_help_command_content(self) -> None:
        """Help command lists all available commands."""
@@ -698,7 +679,6 @@ class TestBasicCommands:
            """Mock /help handler."""
            message = (
                "<b>📖 Available Commands</b>\n\n"
                "/start - Welcome message\n"
                "/help - Show available commands\n"
                "/status - Trading status (mode, markets, P&L)\n"
                "/positions - Current holdings\n"
@@ -724,7 +704,6 @@ class TestBasicCommands:
            assert mock_post.call_count == 1
            payload = mock_post.call_args.kwargs["json"]
            assert "Available Commands" in payload["text"]
            assert "/start" in payload["text"]
            assert "/help" in payload["text"]
            assert "/status" in payload["text"]
            assert "/positions" in payload["text"]
Author	SHA1	Message	Date
agentson	d64e072f06	fix: PR review — DB reload, market-local date, market-scoped scan_candidates Some checks failed CI / test (pull_request) Has been cancelled Details Address PR #110 review findings: 1. High — Realtime mode now loads playbook from DB before calling Gemini, preventing duplicate API calls on process restart (4/day budget). 2. Medium — Pass market-local date (via market.timezone) to generate_playbook() and _empty_playbook() instead of date.today(). 3. Medium — scan_candidates restructured from {stock_code: candidate} to {market_code: {stock_code: candidate}} to prevent KR/US symbol collision. New test: test_scan_candidates_market_scoped verifies cross-market isolation. Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-02-09 23:00:06 +09:00
agentson	b2312fbe01	fix: resolve lint issues in main.py and test_main.py Some checks failed CI / test (pull_request) Has been cancelled Details Remove unused imports (sys, ScenarioMatch, asyncio, StockPlaybook), fix import ordering, and split long lines for ruff compliance. Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-02-08 22:28:31 +09:00
agentson	98c4a2413c	feat: integrate scenario engine and playbook into main trading loop (issue #84 ) Replace brain.decide() with scenario_engine.evaluate() in trading_cycle and brain.decide_batch() with per-stock scenario evaluation in run_daily_session. Initialize PreMarketPlanner, ScenarioEngine, and PlaybookStore in run(). Add pre-market playbook generation on market open (1 Gemini call per market per day), market_data enrichment from scanner metrics (rsi, volume_ratio), portfolio_data for global rules, scenario match notifications, and playbook lifecycle management. Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-02-08 22:24:19 +09:00
jihoson	6fba7c7ae8	Merge pull request 'feat: implement pre-market planner with Gemini integration (issue #83 )' (#109 ) from feature/issue-83-pre-market-planner into main Some checks failed CI / test (push) Has been cancelled Details Reviewed-on: #109	2026-02-08 22:07:36 +09:00
agentson	be695a5d7c	fix: address PR review — inject today param, remove unused imports, fix lint Some checks failed CI / test (pull_request) Has been cancelled Details Review findings addressed: - Finding 1 (ImportError): false positive — ContextLayer is re-exported from src.context.store, import works correctly at runtime - Finding 2 (timezone): generate_playbook() and build_cross_market_context() now accept optional today parameter for market-local date injection - Finding 3 (lint): removed unused imports (UTC, datetime, PlaybookStatus), fixed line-too-long in prompt template - Tests simplified: replaced date patching with direct today= parameter Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-02-08 21:57:39 +09:00
agentson	6471e66d89	fix: correct Settings field name in planner tests (KIS_ACCOUNT_NO) Some checks failed CI / test (pull_request) Has been cancelled Details Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-02-08 21:36:42 +09:00
agentson	149039a904	feat: implement pre-market planner with Gemini integration (issue #83 ) PreMarketPlanner generates DayPlaybook via single Gemini API call per market: - Structured JSON prompt with scan candidates + strategic context - Cross-market context (KR reads US scorecard, US reads KR scorecard) - Robust JSON parser with markdown fence stripping - Unknown stock filtering (only scanner candidates allowed) - MAX_SCENARIOS_PER_STOCK enforcement - Defensive playbook on failure (HOLD + stop-loss) - Empty playbook when no candidates (safe, no trades) Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-02-08 21:35:57 +09:00
jihoson	815d675529	Merge pull request 'feat: add Telegram playbook notifications (issue #81 )' (#108 ) from feature/issue-81-telegram-playbook-notify into main Some checks failed CI / test (push) Has been cancelled Details Reviewed-on: #108	2026-02-08 21:27:46 +09:00
agentson	e8634b93c3	feat: add Telegram playbook notifications (issue #81 ) Some checks failed CI / test (pull_request) Has been cancelled Details - notify_playbook_generated(): market, stock/scenario count, token usage (MEDIUM) - notify_scenario_matched(): stock, action, condition, confidence (HIGH) - notify_playbook_failed(): market, reason with 200-char truncation (HIGH) - 6 new tests: 3 format + 3 priority validations Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-02-08 21:25:16 +09:00
jihoson	f20736fd2a	Merge pull request 'feat: add playbook persistence with DB schema and CRUD store (issue #82 )' (#107 ) from feature/issue-82-playbook-persistence into main Some checks failed CI / test (push) Has been cancelled Details Reviewed-on: #107	2026-02-08 21:07:13 +09:00
agentson	7f2f96a819	feat: add playbook persistence with DB schema and CRUD store (issue #82 ) Some checks failed CI / test (pull_request) Has been cancelled Details - Add playbooks table to src/db.py with UNIQUE(date, market) constraint - PlaybookStore: save/load/delete, status management, match_count tracking, list_recent with market filter, stats without full deserialization - DayPlaybook JSON serialization via Pydantic model_dump_json/model_validate_json - 23 tests, 100% coverage on playbook_store.py Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-02-08 21:00:04 +09:00
jihoson	aaa74894dd	Merge pull request 'feat: implement local scenario engine for playbook execution (issue #80 )' (#102 ) from feature/issue-80-scenario-engine into main Some checks failed CI / test (push) Has been cancelled Details Reviewed-on: #102	2026-02-08 20:47:34 +09:00
agentson	e711d6702a	fix: deduplicate missing-key warnings and normalize match_details Some checks failed CI / test (pull_request) Has been cancelled Details Addresses second round of PR #102 review: - _warn_missing_key(): logs each missing key only once per engine instance to prevent log spam in high-frequency trading loops - _build_match_details(): uses _safe_float() normalized values instead of raw market_data to ensure consistent float types in logging/analysis - Test: verify warning fires exactly once across repeated calls - Test: verify match_details contains normalized float values Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-02-08 20:41:20 +09:00
agentson	d2fc829380	fix: add safe type casting and missing-key warnings in ScenarioEngine Some checks failed CI / test (pull_request) Has been cancelled Details Addresses PR #102 review findings: - _safe_float() prevents TypeError from str/Decimal/invalid market_data values - Warning logs when condition references a key missing from market_data - 5 new tests: string, percent string, Decimal, mixed invalid types, log check Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-02-08 16:23:54 +09:00
jihoson	de27b1af10	Merge pull request 'Require rebase after creating feature branch' (#106 ) from feature/issue-105-branch-rebase into main Some checks failed CI / test (push) Has been cancelled Details Reviewed-on: #106	2026-02-08 16:04:57 +09:00
agentson	7370220497	Require rebase after creating feature branch Some checks failed CI / test (pull_request) Has been cancelled Details	2026-02-08 16:03:41 +09:00
jihoson	b01dacf328	Merge pull request 'docs: add persistent agent constraints document (issue #100 )' (#103 ) from feature/issue-100-agent-constraints into main Some checks failed CI / test (push) Has been cancelled Details Reviewed-on: #103	2026-02-08 15:12:19 +09:00
agentson	1210c17989	docs: add persistent agent constraints document (issue #100 ) Some checks failed CI / test (pull_request) Has been cancelled Details Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-02-08 15:10:49 +09:00
agentson	9599b188e8	feat: implement local scenario engine for playbook execution (issue #80 ) Some checks failed CI / test (pull_request) Has been cancelled Details ScenarioEngine evaluates pre-defined playbook scenarios against real-time market data with sub-100ms execution (zero API calls). Supports condition AND-matching, global portfolio rules, and first-match-wins priority. Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-02-08 02:23:53 +09:00
agentson	c43660a58c	Merge pull request 'feat: add strategy/playbook Pydantic models (issue #79 )' (#99 ) from feature/issue-79-strategy-models into main Some checks failed CI / test (push) Has been cancelled Details	2026-02-08 02:19:48 +09:00
agentson	7fd48c7764	feat: add strategy/playbook Pydantic models (issue #79 ) Some checks failed CI / test (pull_request) Has been cancelled Details Define data contracts for the proactive strategy system: - StockCondition: AND-combined condition fields (RSI, volume, price) - StockScenario: condition-action rules with stop loss/take profit - StockPlaybook: per-stock scenario collection - GlobalRule: portfolio-level rules (e.g. REDUCE_ALL on loss limit) - DayPlaybook: complete daily playbook per market with validation - CrossMarketContext: cross-market awareness (KR↔US) - ScenarioAction, MarketOutlook, PlaybookStatus enums 33 tests covering validation, serialization, edge cases. Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-02-08 02:06:16 +09:00
agentson	a105bb7c1a	Merge pull request 'feat: add pre-market planner config and remove static watchlists (issue #78 )' (#98 ) from feature/issue-78-config-watchlist-removal into main Some checks failed CI / test (push) Has been cancelled Details	2026-02-08 02:04:23 +09:00
agentson	1a34a74232	feat: add pre-market planner config and remove static watchlists (issue #78 ) Some checks failed CI / test (pull_request) Has been cancelled Details - Add pre-market planner settings: PRE_MARKET_MINUTES, MAX_SCENARIOS_PER_STOCK, PLANNER_TIMEOUT_SECONDS, DEFENSIVE_PLAYBOOK_ON_FAILURE, RESCAN_INTERVAL_SECONDS - Change ENABLED_MARKETS default from KR to KR,US - Remove static WATCHLISTS and STOCK_UNIVERSE dictionaries from main.py - Replace watchlist-based trading with dynamic scanner-only stock discovery - SmartVolatilityScanner is now the sole source of trading candidates - Add active_stocks dict for scanner-discovered stocks per market - Add smart_scanner parameter to run_daily_session() Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>	2026-02-08 01:58:09 +09:00
jihoson	a82a167915	Merge pull request 'feat: implement Smart Volatility Scanner (issue #76 )' (#77 ) from feature/issue-76-smart-volatility-scanner into main Some checks failed CI / test (push) Has been cancelled Details Reviewed-on: #77	2026-02-06 07:43:54 +09:00
agentson	7725e7a8de	docs: update documentation for Smart Volatility Scanner Some checks failed CI / test (pull_request) Has been cancelled Details Update project documentation to reflect new Smart Volatility Scanner feature: ## CLAUDE.md - Add Smart Volatility Scanner section with configuration guide - Update project structure to include analysis/ module - Update test count (273→343 tests) ## docs/architecture.md - Add Analysis component (VolatilityAnalyzer + SmartVolatilityScanner) - Add new KIS API methods (fetch_market_rankings, get_daily_prices) - Update data flow diagram to show Python-first filtering pipeline - Add selection_context to database schema documentation - Add Smart Scanner configuration section - Renumber components (Brain 2→3, Risk Manager 3→4, etc.) ## docs/requirements-log.md - Document 2026-02-06 requirement for Smart Volatility Scanner - Explain Python-First, AI-Last pipeline rationale - Record implementation details and benefits - Reference issue #76 and PR #77 Co-Authored-By: Claude Sonnet 4.5 <noreply@anthropic.com>	2026-02-06 07:35:25 +09:00
agentson	f0ae25c533	feat: implement Smart Volatility Scanner with RSI/volume filters (issue #76 ) Some checks failed CI / test (pull_request) Has been cancelled Details Add Python-first scanning pipeline that reduces Gemini API calls by filtering stocks before AI analysis: KIS rankings API -> RSI/volume filter -> AI judgment. ## Implementation - Add RSI calculation (Wilder's smoothing method) to VolatilityAnalyzer - Add KIS API methods: fetch_market_rankings() and get_daily_prices() - Create SmartVolatilityScanner with configurable thresholds - Integrate scanner into main.py realtime mode - Add selection_context logging to trades table for Evolution system ## Configuration - RSI_OVERSOLD_THRESHOLD: 30 (configurable 0-50) - RSI_MOMENTUM_THRESHOLD: 70 (configurable 50-100) - VOL_MULTIPLIER: 2.0 (minimum volume ratio, configurable 1-10) - SCANNER_TOP_N: 3 (max candidates per scan, configurable 1-10) ## Benefits - Reduces Gemini API calls (process 1-3 qualified stocks vs 20-30 ranked) - Python-based technical filtering before expensive AI judgment - Tracks selection criteria (RSI, volume_ratio, signal, score) for strategy optimization - Graceful fallback to static watchlist if ranking API fails ## Tests - 13 new tests for SmartVolatilityScanner and RSI calculation - All existing tests updated and passing - Coverage maintained at 73% Co-Authored-By: Claude Sonnet 4.5 <noreply@anthropic.com>	2026-02-06 00:48:23 +09:00
jihoson	27f581f17d	Merge pull request 'fix: resolve Telegram command handler errors for /status and /positions (issue #74 )' (#75 ) from feature/issue-74-telegram-command-fix into main Some checks failed CI / test (push) Has been cancelled Details Reviewed-on: #75	2026-02-05 18:56:24 +09:00
agentson	18a098d9a6	fix: resolve Telegram command handler errors for /status and /positions (issue #74 ) Some checks failed CI / test (pull_request) Has been cancelled Details Fixed AttributeError exceptions in /status and /positions commands: - Replaced invalid risk.calculate_pnl() with inline P&L calculation from balance dict - Changed risk.circuit_breaker_threshold to risk._cb_threshold - Replaced balance.stocks access with account summary from output2 dict - Updated tests to match new account summary format All 27 telegram command tests pass. Live bot testing confirms no errors. Co-Authored-By: Claude Sonnet 4.5 <noreply@anthropic.com>	2026-02-05 18:54:42 +09:00
jihoson	d2b07326ed	Merge pull request 'fix: remove /start command and handle @botname suffix (issue #71 )' (#72 ) from fix/start-command-parsing into main Some checks failed CI / test (push) Has been cancelled Details Reviewed-on: #72	2026-02-05 17:15:14 +09:00
agentson	1c5eadc23b	fix: remove /start command and handle @botname suffix Some checks failed CI / test (pull_request) Has been cancelled Details Remove /start command as name doesn't match functionality, and fix command parsing to handle @botname suffix for group chat compatibility. Changes: - Remove handle_start function and registration - Remove /start from help command list - Remove test_start_command_content test - Strip @botname suffix from commands (e.g., /help@mybot → help) Rationale: - /start command name implies bot initialization, but it was just showing help text (duplicate of /help) - Better to have one clear /help command - @botname suffix handling needed for group chats Test: - 27 tests pass (1 removed, 1 added for @botname handling) - All existing functionality preserved Co-Authored-By: Claude Sonnet 4.5 <noreply@anthropic.com>	2026-02-05 15:59:07 +09:00
jihoson	10ff718045	Merge pull request 'feat: add configuration and documentation for Telegram commands (issue #69 )' (#70 ) from feature/issue-69-config-docs into main Some checks failed CI / test (push) Has been cancelled Details Reviewed-on: #70	2026-02-05 15:50:52 +09:00