""" Main Textual application — screen routing, background workers, reactive state. """ from __future__ import annotations import asyncio import logging import time from datetime import datetime from typing import Any from textual.app import App, ComposeResult from textual.binding import Binding from textual.screen import Screen from textual.widgets import Header, Label, ProgressBar, Static, LoadingIndicator, DataTable from textual.containers import Vertical, Center from textual import work from trading_cli.widgets.ordered_footer import OrderedFooter logger = logging.getLogger(__name__) # ── Splash / loading screen ──────────────────────────────────────────────────── class SplashScreen(Screen): """Shown while FinBERT loads and Alpaca connects.""" def __init__(self, status_messages: list[str] | None = None) -> None: super().__init__() self._messages = status_messages or [] def compose(self) -> ComposeResult: with Center(): with Vertical(id="splash-inner"): yield Label( "[bold cyan]TRADING CLI[/bold cyan]\n" "[dim]AI-Powered Paper Trading[/dim]", id="splash-title", ) yield LoadingIndicator(id="splash-spinner") yield Label("Initialising…", id="splash-status") def set_status(self, msg: str) -> None: try: self.query_one("#splash-status", Label).update(msg) except Exception: pass # ── Order confirmation modal ─────────────────────────────────────────────────── class OrderConfirmScreen(Screen): """Modal: confirm a BUY/SELL order before submitting.""" def __init__(self, symbol: str, action: str, qty: int, price: float, reason: str) -> None: super().__init__() self._symbol = symbol self._action = action self._qty = qty self._price = price self._reason = reason def compose(self) -> ComposeResult: from textual.widgets import Button from textual.containers import Grid action_style = "green" if self._action == "BUY" else "red" with Grid(id="order-grid"): yield Label( f"[bold {action_style}]{self._action} {self._qty} {self._symbol}[/bold {action_style}]\n" f"Price: ~${self._price:.2f} Est. value: ${self._qty * self._price:,.2f}\n" f"Reason: {self._reason}", id="order-msg", ) from textual.containers import Horizontal with Horizontal(id="order-buttons"): yield Button("Execute", id="btn-exec", variant="success" if self._action == "BUY" else "error") yield Button("Cancel", id="btn-cancel", variant="default") def on_button_pressed(self, event) -> None: self.dismiss(event.button.id == "btn-exec") # ── Main App ─────────────────────────────────────────────────────────────────── class TradingApp(App): """Full-screen TUI trading application.""" CSS = """ Screen { background: $surface; } #splash-inner { align: center middle; width: 60; height: auto; padding: 2 4; border: double $primary; } #splash-title { text-align: center; margin-bottom: 1; } #splash-status { text-align: center; color: $text-muted; margin-top: 1; } #account-bar { height: 1; padding: 0 1; background: $panel; } #main-split { height: 1fr; } #left-pane { width: 50%; border-right: solid $primary-darken-2; padding: 0 1; } #right-pane { width: 50%; padding: 0 1; } #signals-label, #positions-label { height: 1; color: $primary; text-style: bold; } #signal-log { height: 1fr; } .config-label { width: 30; content-align: right middle; padding-right: 1; } .config-input { width: 40; } .config-select { width: 40; } .strategy-info { height: 3; padding: 0 1 0 31; color: $text-muted; text-style: italic; } #config-buttons { margin-top: 1; height: 3; } #order-grid { align: center middle; width: 60; height: auto; border: thick $error; padding: 2; background: $surface; } #order-msg { margin-bottom: 1; } #order-buttons { height: 3; } #confirm-grid { align: center middle; width: 55; height: auto; border: thick $warning; padding: 2; background: $surface; } #confirm-buttons { margin-top: 1; height: 3; } #wl-input-row { height: 3; } #wl-help, #sent-help, #trades-help { height: 1; color: $text-muted; margin-bottom: 1; } #sent-input-row { height: 3; } #sent-gauge { height: 2; padding: 0 1; } #sent-summary { height: 2; padding: 0 1; } #wl-table, #trades-table, #sent-table, #portfolio-table { height: 1fr; } #portfolio-summary { height: 1; padding: 0 1; background: $panel; } #trades-filter-row { height: 3; } #auto-trade-row { height: 3; margin-top: 1; } """ BINDINGS = [ Binding("1", "show_dashboard", "Dashboard", show=True, id="nav_dashboard"), Binding("2", "show_watchlist", "Watchlist", show=True, id="nav_watchlist"), Binding("3", "show_portfolio", "Portfolio", show=True, id="nav_portfolio"), Binding("4", "show_trades", "Trades", show=True, id="nav_trades"), Binding("5", "show_sentiment", "Sentiment", show=True, id="nav_sentiment"), Binding("6", "show_config", "Config", show=True, id="nav_config"), Binding("7", "show_backtest", "Backtest", show=True, id="nav_backtest"), Binding("ctrl+q", "quit", "Quit", show=True, id="nav_quit"), Binding("ctrl+c", "quit", "Quit", show=False), ] # Track running state for clean shutdown _running = True TITLE = "TRADING CLI" SUB_TITLE = "Paper Trading Mode" def __init__(self) -> None: super().__init__() self.config: dict = {} self.db_conn = None self.adapter = None self.strategy = None self.finbert = None self.demo_mode: bool = True self.market_open: bool = False self.watchlist: list[str] = [] self._prices: dict[str, float] = {} self._sentiments: dict[str, float] = {} self._signals: dict[str, str] = {} self._portfolio_history: list[float] = [] # ── Screens ──────────────────────────────────────────────────────────────── def compose(self) -> ComposeResult: yield Header(show_clock=True) yield SplashScreen() yield OrderedFooter() # We install all named screens so push_screen(name) works CSS = """ Screen { background: $surface; } #splash-inner { align: center middle; width: 60; height: auto; padding: 2 4; border: double $primary; } #splash-title { text-align: center; margin-bottom: 1; } #splash-status { text-align: center; color: $text-muted; margin-top: 1; } #account-bar { height: 1; padding: 0 1; background: $panel; } #main-split { height: 1fr; } #left-pane { width: 50%; border-right: solid $primary-darken-2; padding: 0 1; } #right-pane { width: 50%; padding: 0 1; } #signals-label, #positions-label { height: 1; color: $primary; text-style: bold; } #signal-log { height: 1fr; } #config-scroll { width: 100%; height: 1fr; } #config-buttons { margin-top: 1; height: 3; align: center middle; } #config-buttons Button { margin: 0 1; } #order-grid { align: center middle; width: 60; height: auto; border: thick $error; padding: 2; background: $surface; } #order-msg { margin-bottom: 1; } #order-buttons { height: 3; } #confirm-grid { align: center middle; width: 55; height: auto; border: thick $warning; padding: 2; background: $surface; } #confirm-buttons { margin-top: 1; height: 3; } #wl-input-row { height: 3; } #wl-help, #sent-help, #trades-help { height: 1; color: $text-muted; margin-bottom: 1; } #sent-input-row { height: 3; margin-bottom: 1; } #sent-progress { height: 1; margin: 0 1; } #sent-neg-label, #sent-pos-label { height: 1; margin: 0 1; } #sent-summary { height: auto; max-height: 3; padding: 0 1; } #wl-table, #trades-table, #sent-table, #portfolio-table { height: 1fr; } #portfolio-summary { height: 1; padding: 0 1; background: $panel; } #portfolio-actions { height: 3; margin-bottom: 1; } #portfolio-actions Button { margin-right: 1; } #backtest-input-row { height: 3; margin-bottom: 1; } #backtest-input-row Input { width: 1fr; } #backtest-input-row Button { margin-left: 1; } #backtest-summary { height: auto; max-height: 3; padding: 0 1; } #trades-filter-row { height: 3; } #auto-trade-row { height: 3; margin-top: 1; align: left middle; } #strategy-info { height: auto; max-height: 3; padding: 0 1 0 2; color: $text-muted; text-style: italic; } Collapsible { width: 100%; height: auto; } """ def on_mount(self) -> None: from trading_cli.screens.dashboard import DashboardScreen from trading_cli.screens.watchlist import WatchlistScreen from trading_cli.screens.portfolio import PortfolioScreen from trading_cli.screens.trades import TradesScreen from trading_cli.screens.sentiment import SentimentScreen from trading_cli.screens.config_screen import ConfigScreen from trading_cli.screens.backtest import BacktestScreen self.install_screen(DashboardScreen(), name="dashboard") self.install_screen(WatchlistScreen(), name="watchlist") self.install_screen(PortfolioScreen(), name="portfolio") self.install_screen(TradesScreen(), name="trades") self.install_screen(SentimentScreen(), name="sentiment") self.install_screen(ConfigScreen(), name="config") self.install_screen(BacktestScreen(), name="backtest") self._boot() @work(thread=True, name="boot") def _boot(self) -> None: """Boot sequence: load config → FinBERT → Alpaca → DB → start workers.""" splash = self._get_splash() def status(msg: str) -> None: if splash: self.call_from_thread(splash.set_status, msg) logger.info(msg) # 1. Config status("Loading configuration…") from trading_cli.config import load_config, get_db_path, is_demo_mode self.config = load_config() # 2. Database status("Initialising database…") from trading_cli.data.db import init_db self.db_conn = init_db(get_db_path()) from trading_cli.data.db import get_watchlist self.watchlist = get_watchlist(self.db_conn) if not self.watchlist: self.watchlist = list(self.config.get("default_symbols", ["AAPL", "TSLA"])) from trading_cli.data.db import add_to_watchlist for sym in self.watchlist: add_to_watchlist(self.db_conn, sym) # 3. FinBERT status("Loading FinBERT model (this may take ~30s on first run)…") from trading_cli.sentiment.finbert import FinBERTAnalyzer self.finbert = FinBERTAnalyzer.get_instance() success = self.finbert.load(progress_callback=status) if not success: error_msg = self.finbert.load_error or "Unknown error" status(f"FinBERT failed to load: {error_msg}") # 4. Trading adapter status("Connecting to trading platform…") from trading_cli.execution.adapter_factory import create_trading_adapter self.adapter = create_trading_adapter(self.config) self.demo_mode = self.adapter.is_demo_mode # 5. Asset search engine (for autocomplete) status("Loading asset search index…") from trading_cli.data.asset_search import AssetSearchEngine self.asset_search = AssetSearchEngine() asset_count = self.asset_search.load_assets(self.adapter) status(f"Asset search ready: {asset_count} assets indexed") # Load embedding model in background (optional, improves search quality) self._load_embedding_model_async() # 6. Strategy adapter status(f"Loading strategy: {self.config.get('strategy_id', 'hybrid')}…") from trading_cli.strategy.strategy_factory import create_trading_strategy self.strategy = create_trading_strategy(self.config) strategy_name = self.strategy.info().name status(f"Strategy: {strategy_name}") try: clock = self.adapter.get_market_clock() self.market_open = clock.is_open except Exception: self.market_open = False mode_str = "[DEMO MODE]" if self.demo_mode else "[PAPER MODE]" status(f"Ready! {mode_str} — loading dashboard…") time.sleep(0.5) # Switch to dashboard self.call_from_thread(self._switch_to_dashboard) # Start background workers self.call_from_thread(self._start_workers) def _get_splash(self) -> SplashScreen | None: try: return self.query_one(SplashScreen) except Exception: return None def _switch_to_dashboard(self) -> None: # Push dashboard on top of splash, then dismiss splash self.push_screen("dashboard") # Close the splash screen splash = self._get_splash() if splash: splash.dismiss() if self.demo_mode: self.notify("Running in DEMO MODE — add Alpaca keys in Config (6)", timeout=5) if self.finbert and not self.finbert.is_loaded: error_detail = self.finbert.load_error or "Unknown error" self.notify( f"FinBERT failed to load: {error_detail}\n" "Sentiment will show neutral. Press [r] on Sentiment screen to retry.", severity="warning", timeout=10, ) def _start_workers(self) -> None: """Start all background polling workers.""" self._running = True auto_enabled = self.config.get("auto_trading", False) logger.info("Starting workers (auto_trading=%s)", auto_enabled) self._poll_prices() self._poll_positions() self._poll_signals() if auto_enabled: logger.info("Auto-trading enabled — first signal cycle starting") @work(thread=True, name="load-embeddings", exclusive=False) def _load_embedding_model_async(self) -> None: """Load embedding model for semantic asset search (background).""" try: self.asset_search.load_embedding_model() if self.asset_search.has_semantic_search: self.call_from_thread( self.notify, "Semantic asset search enabled", severity="information", timeout=3, ) except Exception as exc: logger.warning("Failed to load embedding model: %s", exc) def _stop_workers(self) -> None: """Signal all workers to stop.""" self._running = False def on_unmount(self) -> None: """Clean up on app shutdown.""" self._stop_workers() logger.info("TradingApp shutting down...") # Ensure we exit with code 0 for clean shutdown self.exit(0) # ── Background workers ───────────────────────────────────────────────────── @work(thread=True, name="poll-prices", exclusive=False) def _poll_prices(self) -> None: """Continuously fetch latest prices for watchlist symbols.""" while self._running: try: interval = self.config.get("poll_interval_prices", 30) if self.watchlist and self.adapter: prices = self.adapter.get_latest_quotes_batch(self.watchlist) if prices: self._prices = prices self.call_from_thread(self._on_prices_updated) except Exception as exc: logger.warning("Price poll error: %s", exc) time.sleep(self.config.get("poll_interval_prices", 30)) @work(thread=True, name="poll-positions", exclusive=False) def _poll_positions(self) -> None: """Sync positions from Alpaca and update dashboard.""" while self._running: try: if self.adapter: acct = self.adapter.get_account() positions = self.adapter.get_positions() self._portfolio_history.append(acct.portfolio_value) if len(self._portfolio_history) > 1000: self._portfolio_history = self._portfolio_history[-1000:] self.call_from_thread(self._on_positions_updated, acct, positions) except Exception as exc: logger.warning("Position poll error: %s", exc) time.sleep(self.config.get("poll_interval_positions", 60)) @work(thread=True, name="poll-signals", exclusive=False) def _poll_signals(self) -> None: """Generate trading signals and optionally execute auto-trades.""" debug_fast = self.config.get("debug_fast_cycle", False) time.sleep(2 if debug_fast else 5) logger.info("Signal poll worker started (debug_fast=%s)", debug_fast) while self._running: try: self._run_signal_cycle() except Exception as exc: logger.warning("Signal cycle error: %s", exc) interval = self.config.get("poll_interval_signals", 300) if debug_fast: interval = min(interval, 10) # Cap at 10s in debug mode time.sleep(interval) def _run_signal_cycle(self) -> None: from trading_cli.data.market import fetch_ohlcv_yfinance, get_latest_quotes_batch from trading_cli.data.news import fetch_headlines from trading_cli.sentiment.aggregator import aggregate_scores from trading_cli.sentiment.news_classifier import classify_headlines from trading_cli.strategy.scanner import MarketScanner from trading_cli.strategy.risk import check_max_drawdown from trading_cli.data.db import save_signal auto_enabled = self.config.get("auto_trading", False) debug_fast = self.config.get("debug_fast_cycle", False) cycle_time = datetime.now().strftime("%H:%M:%S") logger.info("Running signal cycle at %s (auto_trading=%s, debug_fast=%s)", cycle_time, auto_enabled, debug_fast) # Build event weight map from trading_cli.sentiment.news_classifier import EventType, DEFAULT_WEIGHTS as EVENT_WEIGHTS event_weights = { EventType.EARNINGS: self.config.get("event_weight_earnings", EVENT_WEIGHTS[EventType.EARNINGS]), EventType.EXECUTIVE: self.config.get("event_weight_executive", EVENT_WEIGHTS[EventType.EXECUTIVE]), EventType.PRODUCT: self.config.get("event_weight_product", EVENT_WEIGHTS[EventType.PRODUCT]), EventType.MACRO: self.config.get("event_weight_macro", EVENT_WEIGHTS[EventType.MACRO]), EventType.GENERIC: self.config.get("event_weight_generic", EVENT_WEIGHTS[EventType.GENERIC]), } # Update dashboard with cycle time self.call_from_thread(self._on_cycle_completed, cycle_time, auto_enabled) # ── Phase 1: Get universe and batch fetch prices ──────────────────── scan_universe = auto_enabled and hasattr(self, 'asset_search') and self.asset_search.is_ready if scan_universe: all_assets = self.asset_search._assets all_symbols = [a["symbol"] for a in all_assets] # Filter: only US equities, price > $1, exclude ETFs/warrants filtered = [s for s in all_symbols if not any(x in s for x in (".", "-WS", "-P", "-A"))] symbols = filtered[:500] # Cap at 500 for performance else: symbols = list(self.watchlist) if not symbols: return # Batch fetch latest prices for all symbols try: current_prices = get_latest_quotes_batch(self.adapter if not self.adapter.is_demo_mode else None, symbols) except Exception as exc: logger.warning("Batch price fetch failed: %s", exc) return logger.info("Fetched prices for %d symbols, %d have data", len(symbols), len(current_prices)) # ── Phase 2: Initialize scanner on first cycle ────────────────────── if not hasattr(self, "_scanner"): self._scanner = MarketScanner() scanner = self._scanner # ── Phase 3: Populate cache for symbols that don't have it yet ────── # Fetch historical data for uncached symbols (in batches) uncached = [s for s in symbols if scanner.get_cached(s) is None] if uncached: logger.info("Populating cache for %d new symbols", len(uncached)) batch_size = 10 if not debug_fast else 5 for i in range(0, len(uncached), batch_size): batch = uncached[i:i + batch_size] for sym in batch: try: ohlcv = fetch_ohlcv_yfinance(sym, days=60) if not ohlcv.empty: # Normalize columns ohlcv.columns = [c.lower() for c in ohlcv.columns] if "adj close" in ohlcv.columns: ohlcv = ohlcv.rename(columns={"adj close": "adj_close"}) ohlcv = ohlcv.reset_index() if "index" in ohlcv.columns: ohlcv = ohlcv.rename(columns={"index": "date"}) scanner.save(sym, ohlcv) except Exception as exc: logger.debug("Cache populate failed for %s: %s", sym, exc) if not debug_fast: time.sleep(0.2) # Rate limit yfinance # ── Phase 4: Update cache with latest prices ──────────────────────── for symbol, price in current_prices.items(): cached = scanner.get_cached(symbol) if cached is not None and len(cached) > 0: # Append/update today's bar today = datetime.now().strftime("%Y-%m-%d") last_bar = cached.iloc[-1] bar = { "date": today, "open": last_bar.get("open", price), "high": max(last_bar.get("high", price), price), "low": min(last_bar.get("low", price), price), "close": price, "volume": last_bar.get("volume", 0), } scanner.append_bar(symbol, bar) # ── Phase 5: Screen for breakout candidates ───────────────────────── entry_period = self.config.get("entry_period", 20) candidates = scanner.screen_breakouts(symbols, current_prices, entry_period) logger.info("Breakout candidates: %d / %d scanned", len(candidates), len(symbols)) # ── Phase 6: Run full signal analysis on candidates ───────────────── for symbol in candidates: try: ohlcv = scanner.get_cached(symbol) if ohlcv is None or len(ohlcv) < 30: continue price = current_prices.get(symbol, 0) # Run strategy analysis signal_result = self.strategy.generate_signal( symbol=symbol, ohlcv=ohlcv, sentiment_score=0.0, # Skip sentiment for speed prices=current_prices, positions=getattr(self, "_positions", []), config=self.config, ) if signal_result.action == "HOLD": continue # Build signal dict for DB/UI signal = { "symbol": symbol, "action": signal_result.action, "confidence": signal_result.confidence, "hybrid_score": signal_result.score, "technical_score": signal_result.metadata.get("sma_score", 0.0), "sentiment_score": 0.0, "reason": signal_result.reason, "price": price or 0.0, } self._signals[symbol] = signal_result.action save_signal( self.db_conn, symbol=symbol, action=signal["action"], confidence=signal["confidence"], technical_score=signal["technical_score"], sentiment_score=signal["sentiment_score"], reason=signal["reason"], ) self.call_from_thread(self._on_signal_generated, signal) # Auto-execute if enabled if auto_enabled and check_max_drawdown(self._portfolio_history, self.config.get("max_drawdown", 0.15)): logger.info("Auto-trade %s signal for %s (confidence=%.2f)", signal_result.action, symbol, signal_result.confidence) logger.info("Executing auto-trade: %s %s", signal_result.action, symbol) self.call_from_thread(self._auto_execute, signal) except Exception as exc: logger.debug("Signal analysis failed for %s: %s", symbol, exc) # ── Phase 7: Cleanup stale cache periodically ─────────────────────── cycle_count = getattr(self, '_signal_cycle_count', 0) + 1 self._signal_cycle_count = cycle_count if cycle_count % 10 == 0: # Every 10th cycle removed = scanner.cleanup_old_cache(max_age_days=7) if removed > 0: logger.info("Cleaned up %d stale cache files", removed) # ── UI callbacks (called from thread via call_from_thread) ───────────────── def _on_prices_updated(self) -> None: try: wl_screen = self.get_screen("watchlist") if hasattr(wl_screen, "update_data"): wl_screen.update_data(self._prices, self._sentiments, self._signals) except Exception: pass def _on_cycle_completed(self, cycle_time: str, auto_enabled: bool) -> None: """Called when a signal cycle completes (from worker thread).""" try: dash = self.get_screen("dashboard") if hasattr(dash, "update_autotrade_status"): dash.update_autotrade_status(auto_enabled, cycle_time) except Exception: pass def _on_autotrade_error(self, error_msg: str) -> None: """Called when auto-trade encounters an error.""" try: dash = self.get_screen("dashboard") if hasattr(dash, "update_autotrade_status"): dash.update_autotrade_status(error=error_msg) except Exception: pass def _on_autotrade_blocked(self, reason: str) -> None: """Called when auto-trade is blocked by risk management.""" try: self.notify(reason, severity="warning", timeout=5) except Exception: pass def _on_positions_updated(self, acct, positions: list) -> None: try: dash = self.get_screen("dashboard") if hasattr(dash, "refresh_positions"): dash.refresh_positions(positions) if hasattr(dash, "refresh_account"): dash.refresh_account(acct) except Exception: pass def _on_signal_generated(self, signal: dict) -> None: try: dash = self.get_screen("dashboard") if hasattr(dash, "log_signal"): dash.log_signal(signal) except Exception: pass def _auto_execute(self, signal: dict) -> None: """Execute a signal automatically (auto_trading=True) with full risk management.""" symbol = signal["symbol"] action = signal["action"] price = signal.get("price", 0.0) from trading_cli.strategy.risk import ( calculate_position_size, validate_buy, validate_sell, check_stop_loss, ) try: acct = self.adapter.get_account() positions = self.adapter.get_positions() positions_dict = {p.symbol: {"qty": p.qty, "avg_entry_price": p.avg_entry_price} for p in positions} if action == "BUY": ok, reason = validate_buy( symbol, price, 1, acct.cash, positions_dict, max_positions=self.config.get("max_positions", 10), ) if not ok: logger.warning("Auto-buy blocked: %s", reason) self.call_from_thread( self._on_autotrade_blocked, f"Auto-buy {symbol} blocked: {reason}" ) return elif action == "SELL": # Check stop-loss for existing position pos = positions_dict.get(symbol) if pos: entry_price = pos.get("avg_entry_price", 0) if check_stop_loss(entry_price, price, self.config.get("stop_loss_pct", 0.05)): self.notify(f"Stop-loss triggered for {symbol} @ ${price:.2f}", severity="warning") ok, reason = validate_sell(symbol, 1, positions_dict) if not ok: logger.warning("Auto-sell blocked: %s", reason) self.call_from_thread( self._on_autotrade_blocked, f"Auto-sell {symbol} blocked: {reason}" ) return qty = calculate_position_size( acct.portfolio_value, price or 1.0, risk_pct=self.config.get("risk_pct", 0.02), max_position_pct=0.10, ) if qty < 1: logger.info(f"Auto-trade skipped: calculated qty < 1 for {symbol}") return result = self.adapter.submit_market_order(symbol, qty, action) if result.status not in ("rejected",): from trading_cli.data.db import save_trade save_trade( self.db_conn, symbol, action, result.filled_price or price, qty, order_id=result.order_id, reason=f"Auto: {signal['reason']}", ) self.notify( f"AUTO {action} {qty} {symbol} @ ${result.filled_price or price:.2f}", timeout=5, ) else: logger.warning(f"Auto-trade rejected: {symbol} {action}") self.call_from_thread( self._on_autotrade_blocked, f"Order rejected for {symbol} {action}" ) except Exception as exc: logger.error("Auto-execute error: %s", exc) self.call_from_thread( self._on_autotrade_error, f"Auto-execute failed: {exc}" ) # ── Manual order execution ───────────────────────────────────────────────── def execute_manual_order( self, symbol: str, action: str, qty: int, price: float, reason: str ) -> None: """Called from screens to submit a manual order with confirmation dialog.""" def on_confirm(confirmed: bool) -> None: if not confirmed: return try: result = self.adapter.submit_market_order(symbol, qty, action) if result.status not in ("rejected",): from trading_cli.data.db import save_trade save_trade( self.db_conn, symbol, action, result.filled_price or price, qty, order_id=result.order_id, reason=reason, ) self.notify( f"{action} {qty} {symbol} @ ${result.filled_price or price:.2f} [{result.status}]" ) else: self.notify(f"Order rejected for {symbol}", severity="error") except Exception as exc: self.notify(f"Order failed: {exc}", severity="error") self.push_screen(OrderConfirmScreen(symbol, action, qty, price, reason), callback=on_confirm) # ── Watchlist helpers ────────────────────────────────────────────────────── def add_to_watchlist(self, symbol: str) -> None: if symbol not in self.watchlist: self.watchlist.append(symbol) if self.db_conn: from trading_cli.data.db import add_to_watchlist add_to_watchlist(self.db_conn, symbol) self.notify(f"Added {symbol} to watchlist") def remove_from_watchlist(self, symbol: str) -> None: if symbol in self.watchlist: self.watchlist.remove(symbol) if self.db_conn: from trading_cli.data.db import remove_from_watchlist remove_from_watchlist(self.db_conn, symbol) self.notify(f"Removed {symbol} from watchlist") # ── Screen actions ───────────────────────────────────────────────────────── def action_show_dashboard(self) -> None: self.push_screen("dashboard") def action_show_watchlist(self) -> None: self.push_screen("watchlist") def action_show_portfolio(self) -> None: self.push_screen("portfolio") def action_show_trades(self) -> None: self.push_screen("trades") def action_show_sentiment(self) -> None: self.push_screen("sentiment") def action_show_config(self) -> None: self.push_screen("config") def action_show_backtest(self) -> None: self.push_screen("backtest")