feat: use market_outlook to adjust BUY confidence threshold (#173) #177
30
src/main.py
30
src/main.py
@@ -42,7 +42,7 @@ from src.logging.decision_logger import DecisionLogger
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from src.logging_config import setup_logging
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from src.logging_config import setup_logging
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from src.markets.schedule import MarketInfo, get_next_market_open, get_open_markets
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from src.markets.schedule import MarketInfo, get_next_market_open, get_open_markets
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from src.notifications.telegram_client import NotificationFilter, TelegramClient, TelegramCommandHandler
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from src.notifications.telegram_client import NotificationFilter, TelegramClient, TelegramCommandHandler
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from src.strategy.models import DayPlaybook
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from src.strategy.models import DayPlaybook, MarketOutlook
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from src.strategy.playbook_store import PlaybookStore
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from src.strategy.playbook_store import PlaybookStore
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from src.strategy.pre_market_planner import PreMarketPlanner
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from src.strategy.pre_market_planner import PreMarketPlanner
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from src.strategy.scenario_engine import ScenarioEngine
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from src.strategy.scenario_engine import ScenarioEngine
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@@ -457,6 +457,34 @@ async def trading_cycle(
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)
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)
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stock_playbook = playbook.get_stock_playbook(stock_code)
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stock_playbook = playbook.get_stock_playbook(stock_code)
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# 2.1. Apply market_outlook-based BUY confidence threshold
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if decision.action == "BUY":
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base_threshold = (settings.CONFIDENCE_THRESHOLD if settings else 80)
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outlook = playbook.market_outlook
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if outlook == MarketOutlook.BEARISH:
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min_confidence = 90
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elif outlook == MarketOutlook.BULLISH:
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min_confidence = 75
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else:
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min_confidence = base_threshold
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if match.confidence < min_confidence:
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logger.info(
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"BUY suppressed for %s (%s): confidence %d < %d (market_outlook=%s)",
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stock_code,
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market.name,
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match.confidence,
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min_confidence,
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outlook.value,
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)
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decision = TradeDecision(
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action="HOLD",
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confidence=match.confidence,
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rationale=(
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f"BUY confidence {match.confidence} < {min_confidence} "
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f"(market_outlook={outlook.value})"
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),
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)
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if decision.action == "HOLD":
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if decision.action == "HOLD":
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open_position = get_open_position(db_conn, stock_code, market.code)
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open_position = get_open_position(db_conn, stock_code, market.code)
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if open_position:
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if open_position:
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@@ -2114,3 +2114,284 @@ def test_start_dashboard_server_enabled_starts_thread() -> None:
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assert thread == mock_thread
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assert thread == mock_thread
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mock_thread_cls.assert_called_once()
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mock_thread_cls.assert_called_once()
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mock_thread.start.assert_called_once()
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mock_thread.start.assert_called_once()
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# ---------------------------------------------------------------------------
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# market_outlook BUY confidence threshold tests (#173)
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# ---------------------------------------------------------------------------
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class TestMarketOutlookConfidenceThreshold:
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"""Tests for market_outlook-based BUY confidence suppression in trading_cycle."""
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@pytest.fixture
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def mock_broker(self) -> MagicMock:
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broker = MagicMock()
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broker.get_current_price = AsyncMock(return_value=(50000.0, 1.0, 0.0))
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broker.get_balance = AsyncMock(
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return_value={
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"output2": [
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{
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"tot_evlu_amt": "10000000",
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"dnca_tot_amt": "5000000",
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"pchs_amt_smtl_amt": "9500000",
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}
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]
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}
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)
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broker.send_order = AsyncMock(return_value={"msg1": "OK"})
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return broker
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@pytest.fixture
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def mock_market(self) -> MagicMock:
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market = MagicMock()
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market.name = "Korea"
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market.code = "KR"
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market.exchange_code = "KRX"
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market.is_domestic = True
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return market
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@pytest.fixture
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def mock_telegram(self) -> MagicMock:
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telegram = MagicMock()
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telegram.notify_trade_execution = AsyncMock()
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telegram.notify_scenario_matched = AsyncMock()
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telegram.notify_fat_finger = AsyncMock()
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return telegram
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def _make_buy_match_with_confidence(
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self, confidence: int, stock_code: str = "005930"
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) -> ScenarioMatch:
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from src.strategy.models import StockScenario
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scenario = StockScenario(
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condition=StockCondition(rsi_below=30),
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action=ScenarioAction.BUY,
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confidence=confidence,
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allocation_pct=10.0,
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)
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return ScenarioMatch(
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stock_code=stock_code,
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matched_scenario=scenario,
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action=ScenarioAction.BUY,
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confidence=confidence,
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rationale="Test buy",
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)
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def _make_playbook_with_outlook(
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self, outlook_str: str, market: str = "KR"
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) -> DayPlaybook:
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from src.strategy.models import MarketOutlook
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outlook_map = {
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"bearish": MarketOutlook.BEARISH,
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"bullish": MarketOutlook.BULLISH,
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"neutral": MarketOutlook.NEUTRAL,
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"neutral_to_bullish": MarketOutlook.NEUTRAL_TO_BULLISH,
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"neutral_to_bearish": MarketOutlook.NEUTRAL_TO_BEARISH,
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}
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return DayPlaybook(
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date=date(2026, 2, 20),
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market=market,
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market_outlook=outlook_map[outlook_str],
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)
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@pytest.mark.asyncio
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async def test_bearish_outlook_raises_buy_confidence_threshold(
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self,
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mock_broker: MagicMock,
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mock_market: MagicMock,
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mock_telegram: MagicMock,
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) -> None:
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"""BUY with confidence 85 should be suppressed to HOLD in bearish market."""
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engine = MagicMock(spec=ScenarioEngine)
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engine.evaluate = MagicMock(return_value=self._make_buy_match_with_confidence(85))
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playbook = self._make_playbook_with_outlook("bearish")
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decision_logger = MagicMock()
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decision_logger.log_decision = MagicMock(return_value="decision-id")
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with patch("src.main.log_trade"):
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await trading_cycle(
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broker=mock_broker,
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overseas_broker=MagicMock(),
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scenario_engine=engine,
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playbook=playbook,
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risk=MagicMock(),
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db_conn=MagicMock(),
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decision_logger=decision_logger,
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context_store=MagicMock(get_latest_timeframe=MagicMock(return_value=None)),
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criticality_assessor=MagicMock(
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assess_market_conditions=MagicMock(return_value=MagicMock(value="NORMAL")),
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get_timeout=MagicMock(return_value=5.0),
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),
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telegram=mock_telegram,
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market=mock_market,
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stock_code="005930",
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scan_candidates={},
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)
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# HOLD should be logged (not BUY) — check decision_logger was called with HOLD
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call_args = decision_logger.log_decision.call_args
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assert call_args is not None
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assert call_args.kwargs["action"] == "HOLD"
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@pytest.mark.asyncio
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async def test_bearish_outlook_allows_high_confidence_buy(
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self,
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mock_broker: MagicMock,
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mock_market: MagicMock,
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mock_telegram: MagicMock,
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) -> None:
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"""BUY with confidence 92 should proceed in bearish market (threshold=90)."""
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engine = MagicMock(spec=ScenarioEngine)
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engine.evaluate = MagicMock(return_value=self._make_buy_match_with_confidence(92))
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playbook = self._make_playbook_with_outlook("bearish")
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risk = MagicMock()
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risk.validate_order = MagicMock()
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decision_logger = MagicMock()
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decision_logger.log_decision = MagicMock(return_value="decision-id")
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with patch("src.main.log_trade"):
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await trading_cycle(
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broker=mock_broker,
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overseas_broker=MagicMock(),
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scenario_engine=engine,
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playbook=playbook,
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risk=risk,
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db_conn=MagicMock(),
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decision_logger=decision_logger,
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context_store=MagicMock(get_latest_timeframe=MagicMock(return_value=None)),
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criticality_assessor=MagicMock(
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assess_market_conditions=MagicMock(return_value=MagicMock(value="NORMAL")),
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get_timeout=MagicMock(return_value=5.0),
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),
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telegram=mock_telegram,
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market=mock_market,
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stock_code="005930",
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scan_candidates={},
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)
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call_args = decision_logger.log_decision.call_args
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assert call_args is not None
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assert call_args.kwargs["action"] == "BUY"
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@pytest.mark.asyncio
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async def test_bullish_outlook_lowers_buy_confidence_threshold(
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self,
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mock_broker: MagicMock,
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mock_market: MagicMock,
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mock_telegram: MagicMock,
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) -> None:
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"""BUY with confidence 77 should proceed in bullish market (threshold=75)."""
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engine = MagicMock(spec=ScenarioEngine)
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engine.evaluate = MagicMock(return_value=self._make_buy_match_with_confidence(77))
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playbook = self._make_playbook_with_outlook("bullish")
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risk = MagicMock()
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risk.validate_order = MagicMock()
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decision_logger = MagicMock()
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decision_logger.log_decision = MagicMock(return_value="decision-id")
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with patch("src.main.log_trade"):
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await trading_cycle(
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broker=mock_broker,
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overseas_broker=MagicMock(),
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scenario_engine=engine,
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playbook=playbook,
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risk=risk,
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db_conn=MagicMock(),
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decision_logger=decision_logger,
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context_store=MagicMock(get_latest_timeframe=MagicMock(return_value=None)),
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criticality_assessor=MagicMock(
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assess_market_conditions=MagicMock(return_value=MagicMock(value="NORMAL")),
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get_timeout=MagicMock(return_value=5.0),
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),
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telegram=mock_telegram,
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market=mock_market,
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stock_code="005930",
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scan_candidates={},
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)
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call_args = decision_logger.log_decision.call_args
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assert call_args is not None
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assert call_args.kwargs["action"] == "BUY"
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@pytest.mark.asyncio
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async def test_bullish_outlook_suppresses_very_low_confidence_buy(
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self,
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mock_broker: MagicMock,
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mock_market: MagicMock,
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mock_telegram: MagicMock,
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) -> None:
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"""BUY with confidence 70 should be suppressed even in bullish market (threshold=75)."""
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engine = MagicMock(spec=ScenarioEngine)
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engine.evaluate = MagicMock(return_value=self._make_buy_match_with_confidence(70))
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playbook = self._make_playbook_with_outlook("bullish")
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decision_logger = MagicMock()
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decision_logger.log_decision = MagicMock(return_value="decision-id")
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with patch("src.main.log_trade"):
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await trading_cycle(
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broker=mock_broker,
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overseas_broker=MagicMock(),
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scenario_engine=engine,
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playbook=playbook,
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risk=MagicMock(),
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db_conn=MagicMock(),
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decision_logger=decision_logger,
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context_store=MagicMock(get_latest_timeframe=MagicMock(return_value=None)),
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criticality_assessor=MagicMock(
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assess_market_conditions=MagicMock(return_value=MagicMock(value="NORMAL")),
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get_timeout=MagicMock(return_value=5.0),
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),
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telegram=mock_telegram,
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market=mock_market,
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stock_code="005930",
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scan_candidates={},
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)
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call_args = decision_logger.log_decision.call_args
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assert call_args is not None
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assert call_args.kwargs["action"] == "HOLD"
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@pytest.mark.asyncio
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async def test_neutral_outlook_uses_default_threshold(
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self,
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mock_broker: MagicMock,
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mock_market: MagicMock,
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mock_telegram: MagicMock,
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) -> None:
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"""BUY with confidence 82 should proceed in neutral market (default=80)."""
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engine = MagicMock(spec=ScenarioEngine)
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engine.evaluate = MagicMock(return_value=self._make_buy_match_with_confidence(82))
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playbook = self._make_playbook_with_outlook("neutral")
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risk = MagicMock()
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risk.validate_order = MagicMock()
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decision_logger = MagicMock()
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decision_logger.log_decision = MagicMock(return_value="decision-id")
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with patch("src.main.log_trade"):
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await trading_cycle(
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broker=mock_broker,
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overseas_broker=MagicMock(),
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scenario_engine=engine,
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playbook=playbook,
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risk=risk,
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db_conn=MagicMock(),
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decision_logger=decision_logger,
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context_store=MagicMock(get_latest_timeframe=MagicMock(return_value=None)),
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criticality_assessor=MagicMock(
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assess_market_conditions=MagicMock(return_value=MagicMock(value="NORMAL")),
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get_timeout=MagicMock(return_value=5.0),
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),
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telegram=mock_telegram,
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market=mock_market,
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stock_code="005930",
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scan_candidates={},
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)
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call_args = decision_logger.log_decision.call_args
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assert call_args is not None
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assert call_args.kwargs["action"] == "BUY"
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Reference in New Issue
Block a user