import yfinance as yf import matplotlib.pyplot as plt import numpy as np from concurrent.futures import ThreadPoolExecutor, as_completed from datetime import datetime from PIL import Image import io import gradio as gr from cachetools import cached, TTLCache import cProfile import pstats # Global fontsize variable FONT_SIZE = 32 # Company ticker mapping for US-based public finance companies COMPANY_TICKERS = { 'JPMorgan Chase': 'JPM', 'Visa': 'V', 'PNC Financial': 'PNC', 'Goldman Sachs': 'GS', 'Bank of America': 'BAC', 'Wells Fargo': 'WFC', 'Citigroup': 'C', 'American Express': 'AXP', 'Morgan Stanley': 'MS', 'U.S. Bancorp': 'USB', 'Capital One': 'COF', 'Charles Schwab': 'SCHW', 'BlackRock': 'BLK', 'Mastercard': 'MA', 'PayPal': 'PYPL', 'Fidelity National Information Services': 'FIS', 'S&P Global': 'SPGI', 'Northern Trust': 'NTRS', 'Discover': 'DFS', 'Synchrony': 'SYF', 'State Street': 'STT', 'CME Group': 'CME' } # Cache with 1-day TTL cache = TTLCache(maxsize=100, ttl=86400) @cached(cache) def fetch_historical_data(ticker, start_date, end_date): """Fetch historical stock data and market cap from Yahoo Finance.""" try: data = yf.download(ticker, start=start_date, end=end_date) if data.empty: raise ValueError(f"No data found for ticker {ticker}") info = yf.Ticker(ticker).info market_cap = info.get('marketCap', 'N/A') if market_cap != 'N/A': market_cap = market_cap / 1e9 # Convert to billions return data, market_cap except Exception as e: print(f"Error fetching data for {ticker}: {e}") return None, 'N/A' def plot_to_image(plt, title, market_cap): """Convert plot to a PIL Image object.""" plt.title(title, fontsize=FONT_SIZE + 1, pad=40) plt.suptitle(f'Market Cap: ${market_cap:.2f} Billion', fontsize=FONT_SIZE - 5, y=0.92, weight='bold') plt.legend(fontsize=FONT_SIZE) plt.xlabel('Date', fontsize=FONT_SIZE) plt.ylabel('', fontsize=FONT_SIZE) plt.grid(True) plt.xticks(rotation=45, ha='right', fontsize=FONT_SIZE) plt.yticks(fontsize=FONT_SIZE) plt.tight_layout(rect=[0, 0, 1, 0.95]) buf = io.BytesIO() plt.savefig(buf, format='png', dpi=200) plt.close() buf.seek(0) return Image.open(buf) def plot_indicator(data, company_name, ticker, indicator, market_cap): """Plot selected technical indicator for a single company.""" plt.figure(figsize=(16, 10)) if indicator == "SMA": sma_55 = data['Close'].rolling(window=55).mean() sma_200 = data['Close'].rolling(window=200).mean() plt.plot(data.index, data['Close'], label='Close') plt.plot(data.index, sma_55, label='55-day SMA') plt.plot(data.index, sma_200, label='200-day SMA') plt.ylabel('Price', fontsize=FONT_SIZE) elif indicator == "MACD": exp1 = data['Close'].ewm(span=12, adjust=False).mean() exp2 = data['Close'].ewm(span=26, adjust=False).mean() macd = exp1 - exp2 signal = macd.ewm(span=9, adjust=False).mean() plt.plot(data.index, macd, label='MACD') plt.plot(data.index, signal, label='Signal Line') plt.bar(data.index, macd - signal, label='MACD Histogram') plt.ylabel('MACD', fontsize=FONT_SIZE) return plot_to_image(plt, f'{company_name} ({ticker}) {indicator}', market_cap) def plot_indicators(company_names, indicator_types): """Plot the selected indicators for the selected companies.""" images = [] if len(company_names) > 5: return None, "You can select up to 5 companies at the same time." if len(company_names) > 1 and len(indicator_types) > 1: return None, "You can only select one indicator when selecting multiple companies." with ThreadPoolExecutor() as executor: future_to_company = { executor.submit(fetch_historical_data, COMPANY_TICKERS[company], '2000-01-01', datetime.now().strftime('%Y-%m-%d')): (company, indicator) for company in company_names for indicator in indicator_types } for future in as_completed(future_to_company): company, indicator = future_to_company[future] ticker = COMPANY_TICKERS[company] data, market_cap = future.result() if data is None: continue images.append(plot_indicator(data, company, ticker, indicator, market_cap)) return images, "" def select_all_indicators(select_all): """Select or deselect all indicators based on the select_all flag.""" indicators = ["SMA", "MACD"] return indicators if select_all else [] def launch_gradio_app(): """Launch the Gradio app for interactive plotting.""" company_choices = list(COMPANY_TICKERS.keys()) indicators = ["SMA", "MACD"] def fetch_and_plot(company_names, indicator_types): images, error_message = plot_indicators(company_names, indicator_types) if error_message: return [None] * len(indicator_types), error_message return images, "" with gr.Blocks() as demo: company_checkboxgroup = gr.CheckboxGroup(choices=company_choices, label="Select Companies") select_all_checkbox = gr.Checkbox(label="Select All Indicators", value=False, interactive=True) indicator_types_checkboxgroup = gr.CheckboxGroup(choices=indicators, label="Select Technical Indicators") select_all_checkbox.change(select_all_indicators, inputs=select_all_checkbox, outputs=indicator_types_checkboxgroup) plot_gallery = gr.Gallery(label="Indicator Plots") error_markdown = gr.Markdown() gr.Interface( fetch_and_plot, [company_checkboxgroup, indicator_types_checkboxgroup], [plot_gallery, error_markdown] ) demo.launch() def profile_code(): """Profile the main functions to find speed bottlenecks.""" profiler = cProfile.Profile() profiler.enable() launch_gradio_app() profiler.disable() stats = pstats.Stats(profiler).sort_stats('cumtime') stats.print_stats(10) if __name__ == "__main__": profile_code()