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feat: implement pre-market planner with Gemini integration (issue #83) #109

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jihoson merged 3 commits from feature/issue-83-pre-market-planner into main 2026-02-08 22:07:36 +09:00
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src/strategy/pre_market_planner.py Normal file
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"""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",
),
],
)

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"""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