def infos(udlying, day, month, year, stockprice, offset): """ Group information :param udlying: underlying stock object :param day: int digits :param month: int digits :param year: :param stockprice: stock price :param offset: strike offset :return: Tuple of all data """ u = Call(udlying, d=day, m=month, y=year, strike=stockprice + offset) price = u.price IV = u.implied_volatility() v = u.vega() g = u.gamma() strike = u.strike return (IV, v, g, price, strike)
def main(): parser = argparse.ArgumentParser( description="Find best trading strategies") group = parser.add_mutually_exclusive_group() parser.add_argument("ticker", type=str, help="stock ticker") # group.add_argument("-t", "--ticker", action="store_true") group.add_argument("-d", "--date", action="store_true") parser.add_argument("-s", "--strategy", help="the strategy") # parser.add_argument("y", type=int, help="the exponent") args = parser.parse_args() ticker = yf.Ticker(args.ticker) # get stock info print('****** Info **********') print(ticker.info) # input("Press Enter to continue...") # get historical market data print('****** History **********') hist = ticker.history(period="max") print(hist) # input("Press Enter to continue...") print('****** Actions **********') # show actions (dividends, splits) print(ticker.actions) # input("Press Enter to continue...") print('****** dividends **********') # show dividends print(ticker.dividends) # input("Press Enter to continue...") # show splits ticker.splits # show financials print('****** financials **********') print(ticker.financials) print(ticker.quarterly_financials) # input("Press Enter to continue...") # show major holders print(ticker.major_holders) # show institutional holders print(ticker.institutional_holders) # input("Press Enter to continue...") # show balance heet print(ticker.balance_sheet) print(ticker.quarterly_balance_sheet) # show cashflow ticker.cashflow ticker.quarterly_cashflow # show earnings print(ticker.earnings) print(ticker.quarterly_earnings) # show sustainability print(ticker.sustainability) # show analysts recommendations print(ticker.recommendations) # show next event (earnings, etc) print('****** calendars **********') print(ticker.calendar) # input("Press Enter to continue...") # show ISIN code - *experimental* # ISIN = International Securities Identification Number print(ticker.isin) # show options expirations print('****** calendars **********') print(ticker.options) # input("Press Enter to continue...") # get option chain for specific expiration opt = ticker.option_chain(ticker.options[0]) # data available via: opt.calls, opt.puts print(opt.calls) # input("Press Enter to continue...") print(opt.puts) # input("Press Enter to continue...") history = ticker.history() last_quote = (history.tail(1)['Close'].iloc[0]) last_price = int(last_quote) # calls for opt in ticker.options: try: data = [] dt = datetime.fromisoformat(opt) option = Call(args.ticker ) # d=dt.day, m=dt.month, y=dt.year, strike=ticker.) for strike in option.strikes: if strike < last_price - 40 or strike > last_price + 25: continue print(f'strike = {strike}') option.set_strike(strike) item = {} item['strike'] = strike item['price'] = option.price item['iv'] = option.implied_volatility() item['delta'] = option.delta() item['vega'] = option.vega() item['gamma'] = option.gamma() # print(f'theta = {option.theta()}') # print(f'vega = {option.vega()}') data.append(item) dataframe = pd.DataFrame(data) dataframe.to_csv(f'call-{args.ticker}-{dt}') print(dataframe.to_csv()) except Exception as e: print(f'{type(e)}: {str(e)} ') continue # put for opt in ticker.options: try: data = [] dt = datetime.fromisoformat(opt) option = Put( args.ticker ) # d=dt.day, m=dt.month, y=dt.year, strike=ticker.) for strike in option.strikes: if strike < last_price - 40 or strike > last_price + 25: continue print(f'strike = {strike}') option.set_strike(strike) item = {} item['strike'] = strike item['price'] = option.price item['iv'] = option.implied_volatility() item['delta'] = option.delta() item['vega'] = option.vega() item['gamma'] = option.gamma() # print(f'Rho = {option.rho()}') # print(f'type = {option.Option_type}') # print(f'theta = {option.theta()}') # print(f'vega = {option.vega()}') data.append(item) dataframe = pd.DataFrame(data) dataframe.to_csv(f'put-{args.ticker}-{dt}') print(dataframe.to_csv()) except Exception as e: print(f'{type(e)}: {str(e)} ') continue