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| import gradio as gr | |
| import pandas as pd | |
| import numpy as np | |
| import os | |
| from datetime import datetime, timedelta | |
| import logging | |
| from core.data import load_data, add_technical_indicators, add_sentiment | |
| from core.model_runner import get_model | |
| from core.plot import plot_forecast, plot_metrics_r2, plot_metrics_errors, plot_metrics_precision_recall, plot_metrics_risk, plot_loss_curve, plot_model_architecture, plot_future_forecast, plot_indicators, plot_signals, plot_backtest | |
| import plotly.io as pio | |
| from core.signals import generate_signals | |
| from config import AVAILABLE_MODELS, DEFAULT_TICKERS, AVAILABLE_TIMEFRAMES, AVAILABLE_INDICATORS | |
| from newsapi import NewsApiClient | |
| from vaderSentiment.vaderSentiment import SentimentIntensityAnalyzer | |
| log_path = "/tmp/app_log.txt" | |
| os.makedirs("/tmp", exist_ok=True) | |
| logging.basicConfig( | |
| level=logging.DEBUG, | |
| handlers=[ | |
| logging.FileHandler(log_path), | |
| logging.StreamHandler() | |
| ], | |
| format='%(asctime)s - %(levelname)s - %(message)s' | |
| ) | |
| analyzer = SentimentIntensityAnalyzer() | |
| def sentiment_analysis(ticker, start_date, end_date, api_key): | |
| try: | |
| if not api_key: | |
| return "No API key provided", None | |
| newsapi = NewsApiClient(api_key=api_key) | |
| start = pd.to_datetime(start_date) | |
| end = pd.to_datetime(end_date) | |
| articles = newsapi.get_everything( | |
| q=ticker, from_param=start.strftime("%Y-%m-%d"), to=end.strftime("%Y-%m-%d"), | |
| language='en', sort_by='relevancy' | |
| ) | |
| sentiments = [analyzer.polarity_scores(article["title"])["compound"] for article in articles["articles"]] | |
| avg_sentiment = np.mean(sentiments) if sentiments else 0.0 | |
| sentiment_text = f"Average sentiment for {ticker}: {avg_sentiment:.2f}" | |
| return sentiment_text, avg_sentiment | |
| except Exception as e: | |
| logging.error(f"Sentiment analysis failed: {str(e)}") | |
| return f"Sentiment analysis failed: {str(e)}", None | |
| def update_horizon_label(timeframe): | |
| units = {'1m': 'minutes', '5m': 'minutes', '15m': 'minutes', '30m': 'minutes', | |
| '1h': 'hours', '4h': 'hours', '1d': 'days', '1wk': 'weeks'} | |
| return gr.update(label=f"Horizon ({units.get(timeframe, 'days')})") | |
| def run_dashboard(data_src, ticker, file_upload, timeframe, start_date, end_date, horizon, indicators, | |
| include_sentiment, news_api_key, alpha_api_key, account_size, risk_percent, model, | |
| hidden_units, n_layers, epochs, learning_rate, beta1, beta2, weight_decay, dropout, | |
| window_size, test_split, rsi_mid, macd_sens, adx_thr, sent_thr, vote_buy, vote_sell, | |
| feat_selector, feat_threshold): | |
| try: | |
| logging.info(f"Running dashboard for {ticker}, timeframe: {timeframe}, model: {model}") | |
| start_date = pd.to_datetime(start_date).strftime("%Y-%m-%d") | |
| end_date = pd.to_datetime(end_date).strftime("%Y-%m-%d") | |
| df = load_data(data_src=data_src, ticker=ticker, start=start_date, end=end_date, | |
| interval=timeframe, file_upload=file_upload, alpha_api_key=alpha_api_key) | |
| if df.empty: | |
| logging.error("Failed to load data") | |
| return [None] * 12 + ["Failed to load data", None, None, None, None, "Failed to load data"] | |
| df, valid_indicators = add_technical_indicators(df, indicators) | |
| if include_sentiment and news_api_key: | |
| df = add_sentiment(df, ticker, news_api_key, start_date, end_date) | |
| sentiment_text, sentiment_score = sentiment_analysis(ticker, start_date, end_date, news_api_key) | |
| features = valid_indicators # Use valid_indicators for feature | |
| target = 'value' | |
| result = get_model( | |
| df=df, | |
| features=features, | |
| target=target, | |
| model_name=model, | |
| horizon=horizon, | |
| hidden_units=hidden_units, | |
| n_layers=n_layers, | |
| epochs=epochs, | |
| learning_rate=learning_rate, | |
| beta1=beta1, | |
| beta2=beta2, | |
| weight_decay=weight_decay, | |
| dropout=dropout, | |
| window_size=window_size, | |
| test_split=test_split, | |
| selector_method=feat_selector, | |
| importance_threshold=feat_threshold | |
| ) | |
| if isinstance(result, dict) and result.get("error"): | |
| logging.error(f"Model training failed: {result['error']}") | |
| return [None] * 12 + [f"Model training failed: {result['error']}", None, None, None, None, f"Model training failed: {result['error']}"] | |
| signals_df, trades_df, equity_df = generate_signals(df, result) | |
| if signals_df.empty: | |
| logging.error("Failed to generate signals") | |
| return [None] * 12 + ["Failed to generate signals", None, None, None, None, "Failed to generate signals"] | |
| chart_plot = plot_indicators(df, ticker) | |
| signals_plot = plot_signals(signals_df, ticker) | |
| backtest_plot = plot_backtest(equity_df, trades_df, ticker) | |
| future_plot = plot_future_forecast(df, result, indicators) | |
| future_table = pd.DataFrame({ | |
| "Date": [df.index[-1] + timedelta(days=i+1) for i in range(horizon)], | |
| "Prediction": result["latest_prediction"] | |
| }) | |
| signals_table = signals_df.reset_index()[["Date", "Price", "Signal", "Position_Size", "Stop_Loss", "Take_Profit", "Equity"]] | |
| r2_plot = plot_metrics_r2(result) | |
| error_plot = plot_metrics_errors(result) | |
| precision_recall_plot = plot_metrics_precision_recall(result) | |
| risk_plot = plot_metrics_risk(result) | |
| loss_plot = plot_loss_curve(result) | |
| architecture_plot = plot_model_architecture(result) | |
| signals_csv = f"signals_{ticker}.csv" | |
| signals_df.to_csv(signals_csv) | |
| predictions_csv = f"predictions_{ticker}.csv" | |
| pd.DataFrame({ | |
| "Actual": result["actual"], | |
| "Forecast": result["forecast"] | |
| }).to_csv(predictions_csv) | |
| chart_png = f"chart_{ticker}.png" | |
| pio.write_image(chart_plot, chart_png, format='png') | |
| with open(log_path, 'r') as log_file: | |
| log_output = log_file.read() | |
| logging.info("Dashboard run completed successfully") | |
| return [ | |
| chart_plot, sentiment_text, signals_table, backtest_plot, future_plot, future_table, | |
| r2_plot, error_plot, precision_recall_plot, risk_plot, loss_plot, architecture_plot, | |
| "Dashboard generated successfully", chart_png, signals_csv, predictions_csv, signals_plot, log_output | |
| ] | |
| except Exception as e: | |
| logging.error(f"Dashboard error: {str(e)}") | |
| return [None] * 12 + [f"Error: {str(e)}", None, None, None, None, f"Error: {str(e)}"] | |
| def main_interface(): | |
| try: | |
| with gr.Blocks(title="Market Prediction Pro", theme=gr.themes.Default()) as app: | |
| gr.Markdown("# Market Prediction Pro") | |
| with gr.Row(): | |
| with gr.Column(scale=1): | |
| data_src = gr.Dropdown(["yahoo", "csv"], label="Data Source", value="yahoo") | |
| ticker = gr.Dropdown(DEFAULT_TICKERS, label="Ticker", value="AAPL") | |
| file_upload = gr.File(label="Upload CSV", visible=False) | |
| timeframe = gr.Dropdown(AVAILABLE_TIMEFRAMES, label="Timeframe", value="1d") | |
| start_date = gr.Textbox("2020-01-01", label="Start Date (YYYY-MM-DD)") | |
| end_date = gr.Textbox("2023-01-01", label="End Date (YYYY-MM-DD)") | |
| horizon = gr.Slider(1, 30, step=1, label="Horizon (days)", value=1) | |
| indicators = gr.CheckboxGroup(AVAILABLE_INDICATORS, label="Technical Indicators", value=["rsi", "macd", "bbands"]) | |
| include_sentiment = gr.Checkbox(label="Include Sentiment Analysis", value=False) | |
| news_api_key = gr.Textbox(label="News API Key", visible=False, type="password") | |
| alpha_api_key = gr.Textbox(label="Alpha Vantage API Key", type="password") | |
| account_size = gr.Slider(1000, 100000, step=1000, label="Account Size ($)", value=10000) | |
| risk_percent = gr.Slider(0.01, 0.1, step=0.01, label="Risk per Trade (%)", value=0.01) | |
| with gr.Column(scale=1): | |
| model = gr.Dropdown(AVAILABLE_MODELS, label="Model", value="LSTM") | |
| hidden_units = gr.Slider(16, 256, step=16, label="Hidden Units", value=64) | |
| n_layers = gr.Slider(1, 4, step=1, label="Layers", value=1) | |
| epochs = gr.Slider(10, 100, step=10, label="Epochs", value=50) | |
| learning_rate = gr.Slider(0.0001, 0.01, step=0.0001, label="Learning Rate", value=0.001) | |
| beta1 = gr.Slider(0.8, 0.99, step=0.01, label="Beta 1", value=0.9) | |
| beta2 = gr.Slider(0.9, 0.999, step=0.001, label="Beta 2", value=0.999) | |
| weight_decay = gr.Slider(0.0, 0.1, step=0.01, label="Weight Decay", value=0.01) | |
| dropout = gr.Slider(0.0, 0.5, step=0.05, label="Dropout", value=0.2) | |
| window_size = gr.Slider(5, 60, step=5, label="Window Size", value=30) | |
| test_split = gr.Slider(0.1, 0.5, step=0.05, label="Test Split", value=0.2) | |
| rsi_mid = gr.Slider(30, 70, step=5, label="RSI Middle", value=50) | |
| macd_sens = gr.Slider(0.0, 0.5, step=0.05, label="MACD Sensitivity", value=0.0) | |
| adx_thr = gr.Slider(10, 50, step=5, label="ADX Threshold", value=20) | |
| sent_thr = gr.Slider(0.0, 0.5, step=0.05, label="Sentiment Threshold", value=0.1) | |
| vote_buy = gr.Slider(1, 5, step=1, label="Vote Buy Threshold", value=2) | |
| vote_sell = gr.Slider(-5, -1, step=1, label="Vote Sell Threshold", value=-2) | |
| feat_selector = gr.Dropdown(["RandomForest", "PCA"], label="Feature Selector", value="RandomForest") | |
| feat_threshold = gr.Slider(0.0, 0.5, step=0.05, label="Feature Importance Threshold", value=0.0) | |
| run_btn = gr.Button("Run Analysis") | |
| with gr.Tabs(): | |
| with gr.TabItem("Price & Indicators"): | |
| chart_plot = gr.Plot(label="π Price and Indicators") | |
| with gr.TabItem("Signals"): | |
| signals_plot = gr.Plot(label="π Trading Signals") | |
| signals_table = gr.DataFrame(label="π Signals") | |
| with gr.TabItem("Sentiment"): | |
| sentiment_text = gr.Textbox(label="Sentiment Analysis") | |
| with gr.TabItem("Forecast"): | |
| backtest_plot = gr.Plot(label="π Backtest Results") | |
| future_plot = gr.Plot(label="π Future Forecast") | |
| future_table = gr.DataFrame(label="π Future Predictions") | |
| with gr.TabItem("Metrics"): | |
| r2_plot = gr.Plot(label="π RΒ² & MAPE") | |
| error_plot = gr.Plot(label="π Error Metrics") | |
| precision_recall_plot = gr.Plot(label="π Precision & Recall") | |
| risk_plot = gr.Plot(label="π Risk Metrics") | |
| loss_plot = gr.Plot(label="π Training Loss Curve") | |
| architecture_plot = gr.Plot(label="π§ Model Architecture") | |
| with gr.TabItem("Export"): | |
| status = gr.Textbox(label="Status") | |
| export_chart = gr.File(label="Export Chart (PNG)") | |
| export_signals = gr.File(label="Export Signals (CSV)") | |
| export_predictions = gr.File(label="Export Predictions (CSV)") | |
| log_output = gr.Textbox(label="Debug Logs", lines=10) | |
| data_src.change(fn=lambda src: gr.update(visible=(src == "csv")), inputs=[data_src], outputs=[file_upload]) | |
| include_sentiment.change(fn=lambda sent: gr.update(visible=sent), inputs=[include_sentiment], outputs=[news_api_key]) | |
| timeframe.change(fn=update_horizon_label, inputs=[timeframe], outputs=[horizon]) | |
| run_btn.click( | |
| fn=run_dashboard, | |
| inputs=[data_src, ticker, file_upload, timeframe, start_date, end_date, horizon, indicators, | |
| include_sentiment, news_api_key, alpha_api_key, account_size, risk_percent, model, | |
| hidden_units, n_layers, epochs, learning_rate, beta1, beta2, weight_decay, dropout, | |
| window_size, test_split, rsi_mid, macd_sens, adx_thr, sent_thr, vote_buy, vote_sell, | |
| feat_selector, feat_threshold], | |
| outputs=[chart_plot, sentiment_text, signals_table, backtest_plot, future_plot, future_table, | |
| r2_plot, error_plot, precision_recall_plot, risk_plot, loss_plot, architecture_plot, | |
| status, export_chart, export_signals, export_predictions, signals_plot, log_output] | |
| ) | |
| except Exception as e: | |
| logging.error(f"Error in main_interface: {str(e)}") | |
| raise | |
| return app | |
| if __name__ == "__main__": | |
| main_interface().launch(server_name="0.0.0.0", server_port=7860, share=False) | |