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| # tickers is a list of stock tickers | |
| import tickers | |
| # prices is a dict; the key is a ticker and the value is a list of historic prices, today first | |
| import prices | |
| # Trade represents a decision to buy or sell a quantity of a ticker | |
| import Trade | |
| import random | |
| import numpy as np | |
| def trade2(): | |
| # Buy top performing stock in the last 5 days | |
| avg_prices = {ticker: np.mean(prices[ticker][:5]) for ticker in tickers} | |
| best_ticker = max(avg_prices, key=avg_prices.get) | |
| trade = Trade(best_ticker, 100) | |
| return [trade] | |
| def trade3(): | |
| # Sell worst performing stock in the last 5 days | |
| avg_prices = {ticker: np.mean(prices[ticker][:5]) for ticker in tickers} | |
| worst_ticker = min(avg_prices, key=avg_prices.get) | |
| trade = Trade(worst_ticker, -100) | |
| return [trade] | |
| def trade4(): | |
| # Buy random stock from top 5 performing in the last 10 days | |
| avg_prices = {ticker: np.mean(prices[ticker][:10]) for ticker in tickers} | |
| top_5_tickers = sorted(avg_prices, key=avg_prices.get, reverse=True)[:5] | |
| ticker = random.choice(top_5_tickers) | |
| trade = Trade(ticker, 100) | |
| return [trade] | |
| def trade5(): | |
| # Sell random stock from bottom 5 performing in the last 10 days | |
| avg_prices = {ticker: np.mean(prices[ticker][:10]) for ticker in tickers} | |
| bottom_5_tickers = sorted(avg_prices, key=avg_prices.get)[:5] | |
| ticker = random.choice(bottom_5_tickers) | |
| trade = Trade(ticker, -100) | |
| return [trade] | |
| def trade6(): | |
| # Buy stocks with a positive trend over the last 7 days | |
| trending_up = [ticker for ticker in tickers if prices[ticker][0] > prices[ticker][6]] | |
| ticker = random.choice(trending_up) | |
| trade = Trade(ticker, 100) | |
| return [trade] | |
| def trade7(): | |
| # Sell stocks with a negative trend over the last 7 days | |
| trending_down = [ticker for ticker in tickers if prices[ticker][0] < prices[ticker][6]] | |
| ticker = random.choice(trending_down) | |
| trade = Trade(ticker, -100) | |
| return [trade] | |
| def trade8(): | |
| # Buy stocks with the lowest volatility over the last 20 days | |
| volatilities = {ticker: np.std(prices[ticker][:20]) for ticker in tickers} | |
| least_volatile = min(volatilities, key=volatilities.get) | |
| trade = Trade(least_volatile, 100) | |
| return [trade] | |
| def trade9(): | |
| # Sell stocks with the highest volatility over the last 20 days | |
| volatilities = {ticker: np.std(prices[ticker][:20]) for ticker in tickers} | |
| most_volatile = max(volatilities, key=volatilities.get) | |
| trade = Trade(most_volatile, -100) | |
| return [trade] | |
| def trade10(): | |
| # Random mixed strategy: randomly buy or sell a random stock | |
| ticker = random.choice(tickers) | |
| quantity = random.choice([-100, 100]) | |
| trade = Trade(ticker, quantity) | |
| return [trade] | |
| def trade11(): | |
| # Buy the top 3 performing stocks in the last 15 days | |
| avg_prices = {ticker: np.mean(prices[ticker][:15]) for ticker in tickers} | |
| top_3_tickers = sorted(avg_prices, key=avg_prices.get, reverse=True)[:3] | |
| trades = [Trade(ticker, 100) for ticker in top_3_tickers] | |
| return trades | |
| def trade12(): | |
| # Sell the bottom 3 performing stocks in the last 15 days | |
| avg_prices = {ticker: np.mean(prices[ticker][:15]) for ticker in tickers} | |
| bottom_3_tickers = sorted(avg_prices, key=avg_prices.get)[:3] | |
| trades = [Trade(ticker, -100) for ticker in bottom_3_tickers] | |
| return trades | |
| def trade13(): | |
| # Buy 2 random stocks with the highest increase in price in the last 10 days | |
| price_increases = {ticker: prices[ticker][0] - prices[ticker][9] for ticker in tickers} | |
| top_2_increases = sorted(price_increases, key=price_increases.get, reverse=True)[:2] | |
| trades = [Trade(ticker, 100) for ticker in top_2_increases] | |
| return trades | |
| def trade14(): | |
| # Sell 2 random stocks with the highest decrease in price in the last 10 days | |
| price_decreases = {ticker: prices[ticker][0] - prices[ticker][9] for ticker in tickers} | |
| top_2_decreases = sorted(price_decreases, key=price_decreases.get)[:2] | |
| trades = [Trade(ticker, -100) for ticker in top_2_decreases] | |
| return trades | |
| def trade15(): | |
| # Buy stocks that have shown the highest volatility in the last 30 days | |
| volatilities = {ticker: np.std(prices[ticker][:30]) for ticker in tickers} | |
| high_volatility_tickers = sorted(volatilities, key=volatilities.get, reverse=True)[:3] | |
| trades = [Trade(ticker, 100) for ticker in high_volatility_tickers] | |
| return trades | |
| def trade16(): | |
| # Sell stocks that have shown the lowest volatility in the last 30 days | |
| volatilities = {ticker: np.std(prices[ticker][:30]) for ticker in tickers} | |
| low_volatility_tickers = sorted(volatilities, key=volatilities.get)[:3] | |
| trades = [Trade(ticker, -100) for ticker in low_volatility_tickers] | |
| return trades | |
| def trade17(): | |
| # Buy stocks with prices above their 50-day moving average | |
| ma_50 = {ticker: np.mean(prices[ticker][:50]) for ticker in tickers} | |
| above_ma_tickers = [ticker for ticker in tickers if prices[ticker][0] > ma_50[ticker]] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(above_ma_tickers, min(3, len(above_ma_tickers)))] | |
| return trades | |
| def trade18(): | |
| # Sell stocks with prices below their 50-day moving average | |
| ma_50 = {ticker: np.mean(prices[ticker][:50]) for ticker in tickers} | |
| below_ma_tickers = [ticker for ticker in tickers if prices[ticker][0] < ma_50[ticker]] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(below_ma_tickers, min(3, len(below_ma_tickers)))] | |
| return trades | |
| def trade19(): | |
| # Mixed strategy: buy 2 random stocks and sell 2 random stocks | |
| buy_tickers = random.sample(tickers, 2) | |
| sell_tickers = random.sample([ticker for ticker in tickers if ticker not in buy_tickers], 2) | |
| trades = [Trade(ticker, 100) for ticker in buy_tickers] + [Trade(ticker, -100) for ticker in sell_tickers] | |
| return trades | |
| def trade20(): | |
| # Buy stocks that have positive return in the last 20 days and sell those with negative return | |
| returns = {ticker: (prices[ticker][0] - prices[ticker][19]) / prices[ticker][19] for ticker in tickers} | |
| buy_tickers = [ticker for ticker in tickers if returns[ticker] > 0] | |
| sell_tickers = [ticker for ticker in tickers if returns[ticker] < 0] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(buy_tickers, min(2, len(buy_tickers)))] + \ | |
| [Trade(ticker, -100) for ticker in random.sample(sell_tickers, min(2, len(sell_tickers)))] | |
| return trades | |
| def trade21(): | |
| # Buy the top performing stock in the last 3 days | |
| avg_prices = {ticker: np.mean(prices[ticker][:3]) for ticker in tickers} | |
| best_ticker = max(avg_prices, key=avg_prices.get) | |
| trade = Trade(best_ticker, 100) | |
| return [trade] | |
| def trade22(): | |
| # Sell the worst performing stock in the last 3 days | |
| avg_prices = {ticker: np.mean(prices[ticker][:3]) for ticker in tickers} | |
| worst_ticker = min(avg_prices, key=avg_prices.get) | |
| trade = Trade(worst_ticker, -100) | |
| return [trade] | |
| def trade23(): | |
| # Buy stocks that have not changed price in the last 7 days | |
| stable_tickers = [ticker for ticker in tickers if prices[ticker][0] == prices[ticker][6]] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(stable_tickers, min(3, len(stable_tickers)))] | |
| return trades | |
| def trade24(): | |
| # Sell stocks that have the smallest price change in the last 5 days | |
| smallest_changes = sorted(tickers, key=lambda t: abs(prices[t][0] - prices[t][4]))[:3] | |
| trades = [Trade(ticker, -100) for ticker in smallest_changes] | |
| return trades | |
| def trade25(): | |
| # Buy random stocks from the top 10 highest priced stocks | |
| highest_priced = sorted(tickers, key=lambda t: prices[t][0], reverse=True)[:10] | |
| ticker = random.choice(highest_priced) | |
| trade = Trade(ticker, 100) | |
| return [trade] | |
| def trade26(): | |
| # Sell random stocks from the bottom 10 lowest priced stocks | |
| lowest_priced = sorted(tickers, key=lambda t: prices[t][0])[:10] | |
| ticker = random.choice(lowest_priced) | |
| trade = Trade(ticker, -100) | |
| return [trade] | |
| def trade27(): | |
| # Buy 2 stocks with the highest momentum (last 5 days) | |
| momentums = {ticker: prices[ticker][0] - prices[ticker][4] for ticker in tickers} | |
| top_momentum_tickers = sorted(momentums, key=momentums.get, reverse=True)[:2] | |
| trades = [Trade(ticker, 100) for ticker in top_momentum_tickers] | |
| return trades | |
| def trade28(): | |
| # Sell 2 stocks with the lowest momentum (last 5 days) | |
| momentums = {ticker: prices[ticker][0] - prices[ticker][4] for ticker in tickers} | |
| lowest_momentum_tickers = sorted(momentums, key=momentums.get)[:2] | |
| trades = [Trade(ticker, -100) for ticker in lowest_momentum_tickers] | |
| return trades | |
| def trade29(): | |
| # Buy the stock with the highest daily price increase yesterday | |
| yesterday_increase = {ticker: prices[ticker][1] - prices[ticker][2] for ticker in tickers} | |
| best_yesterday_ticker = max(yesterday_increase, key=yesterday_increase.get) | |
| trade = Trade(best_yesterday_ticker, 100) | |
| return [trade] | |
| def trade30(): | |
| # Sell the stock with the highest daily price decrease yesterday | |
| yesterday_decrease = {ticker: prices[ticker][1] - prices[ticker][2] for ticker in tickers} | |
| worst_yesterday_ticker = min(yesterday_decrease, key=yesterday_decrease.get) | |
| trade = Trade(worst_yesterday_ticker, -100) | |
| return [trade] | |
| def trade31(): | |
| # Long/short strategy: Buy the top performing stock and sell the worst performing stock over the last 7 days | |
| avg_prices = {ticker: np.mean(prices[ticker][:7]) for ticker in tickers} | |
| best_ticker = max(avg_prices, key=avg_prices.get) | |
| worst_ticker = min(avg_prices, key=avg_prices.get) | |
| trades = [Trade(best_ticker, 100), Trade(worst_ticker, -100)] | |
| return trades | |
| def trade32(): | |
| # Buy stocks that have had a positive return in the last 5 days and sell those with a negative return | |
| returns = {ticker: (prices[ticker][0] - prices[ticker][4]) / prices[ticker][4] for ticker in tickers} | |
| buy_tickers = [ticker for ticker in tickers if returns[ticker] > 0] | |
| sell_tickers = [ticker for ticker in tickers if returns[ticker] < 0] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(buy_tickers, min(2, len(buy_tickers)))] + \ | |
| [Trade(ticker, -100) for ticker in random.sample(sell_tickers, min(2, len(sell_tickers)))] | |
| return trades | |
| def trade33(): | |
| # Buy 2 stocks with the highest price-to-earnings ratio and sell 2 with the lowest | |
| pe_ratios = {ticker: random.uniform(10, 30) for ticker in tickers} # Mock P/E ratios | |
| top_pe_tickers = sorted(pe_ratios, key=pe_ratios.get, reverse=True)[:2] | |
| low_pe_tickers = sorted(pe_ratios, key=pe_ratios.get)[:2] | |
| trades = [Trade(ticker, 100) for ticker in top_pe_tickers] + [Trade(ticker, -100) for ticker in low_pe_tickers] | |
| return trades | |
| def trade34(): | |
| # Buy the stock with the highest volume and sell the one with the lowest volume | |
| volumes = {ticker: random.randint(1000, 10000) for ticker in tickers} # Mock volumes | |
| high_volume_ticker = max(volumes, key=volumes.get) | |
| low_volume_ticker = min(volumes, key=volumes.get) | |
| trades = [Trade(high_volume_ticker, 100), Trade(low_volume_ticker, -100)] | |
| return trades | |
| def trade35(): | |
| # Buy 3 stocks with the highest recent momentum and sell 3 with the lowest recent momentum | |
| momentums = {ticker: prices[ticker][0] - prices[ticker][5] for ticker in tickers} | |
| top_momentum_tickers = sorted(momentums, key=momentums.get, reverse=True)[:3] | |
| low_momentum_tickers = sorted(momentums, key=momentums.get)[:3] | |
| trades = [Trade(ticker, 100) for ticker in top_momentum_tickers] + [Trade(ticker, -100) for ticker in low_momentum_tickers] | |
| return trades | |
| def trade36(): | |
| # Buy stocks in the technology sector and sell stocks in the energy sector | |
| tech_stocks = random.sample(tickers, 3) # Mock tech stocks | |
| energy_stocks = random.sample(tickers, 3) # Mock energy stocks | |
| trades = [Trade(ticker, 100) for ticker in tech_stocks] + [Trade(ticker, -100) for ticker in energy_stocks] | |
| return trades | |
| def trade37(): | |
| # Long/short strategy: Buy the top 2 stocks with the highest recent gains and sell the top 2 with the highest recent losses | |
| recent_gains = {ticker: prices[ticker][0] - prices[ticker][10] for ticker in tickers} | |
| top_gainers = sorted(recent_gains, key=recent_gains.get, reverse=True)[:2] | |
| top_losers = sorted(recent_gains, key=recent_gains.get)[:2] | |
| trades = [Trade(ticker, 100) for ticker in top_gainers] + [Trade(ticker, -100) for ticker in top_losers] | |
| return trades | |
| def trade38(): | |
| # Buy the stocks with the highest dividend yield and sell those with the lowest | |
| dividend_yields = {ticker: random.uniform(1, 5) for ticker in tickers} # Mock dividend yields | |
| high_yield_tickers = sorted(dividend_yields, key=dividend_yields.get, reverse=True)[:2] | |
| low_yield_tickers = sorted(dividend_yields, key=dividend_yields.get)[:2] | |
| trades = [Trade(ticker, 100) for ticker in high_yield_tickers] + [Trade(ticker, -100) for ticker in low_yield_tickers] | |
| return trades | |
| def trade39(): | |
| # Buy stocks that are trading near their 52-week highs and sell those near their 52-week lows | |
| highs_52w = {ticker: max(prices[ticker]) for ticker in tickers} | |
| lows_52w = {ticker: min(prices[ticker]) for ticker in tickers} | |
| near_highs = [ticker for ticker in tickers if prices[ticker][0] >= 0.9 * highs_52w[ticker]] | |
| near_lows = [ticker for ticker in tickers if prices[ticker][0] <= 1.1 * lows_52w[ticker]] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(near_highs, min(2, len(near_highs)))] + \ | |
| [Trade(ticker, -100) for ticker in random.sample(near_lows, min(2, len(near_lows)))] | |
| return trades | |
| def trade40(): | |
| # Long/short strategy: Buy 2 random stocks from the top 10 performing sectors and sell 2 from the bottom 10 | |
| sectors = {ticker: random.choice(['Tech', 'Energy', 'Health', 'Finance', 'Retail']) for ticker in tickers} | |
| sector_performance = {sector: random.uniform(-10, 10) for sector in set(sectors.values())} | |
| top_sectors = sorted(sector_performance, key=sector_performance.get, reverse=True)[:2] | |
| bottom_sectors = sorted(sector_performance, key=sector_performance.get)[:2] | |
| buy_tickers = [ticker for ticker in tickers if sectors[ticker] in top_sectors] | |
| sell_tickers = [ticker for ticker in tickers if sectors[ticker] in bottom_sectors] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(buy_tickers, min(2, len(buy_tickers)))] + \ | |
| [Trade(ticker, -100) for ticker in random.sample(sell_tickers, min(2, len(sell_tickers)))] | |
| return trades | |
| def trade41(): | |
| # Buy the stock with the highest price increase today | |
| price_increases = {ticker: prices[ticker][0] - prices[ticker][1] for ticker in tickers} | |
| best_ticker = max(price_increases, key=price_increases.get) | |
| trade = Trade(best_ticker, 100) | |
| return [trade] | |
| def trade42(): | |
| # Sell the stock with the highest price decrease today | |
| price_decreases = {ticker: prices[ticker][0] - prices[ticker][1] for ticker in tickers} | |
| worst_ticker = min(price_decreases, key=price_decreases.get) | |
| trade = Trade(worst_ticker, -100) | |
| return [trade] | |
| def trade43(): | |
| # Buy stocks that have had a positive return in the last 3 days | |
| returns = {ticker: (prices[ticker][0] - prices[ticker][2]) / prices[ticker][2] for ticker in tickers} | |
| buy_tickers = [ticker for ticker in tickers if returns[ticker] > 0] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(buy_tickers, min(3, len(buy_tickers)))] | |
| return trades | |
| def trade44(): | |
| # Sell stocks that have had a negative return in the last 3 days | |
| returns = {ticker: (prices[ticker][0] - prices[ticker][2]) / prices[ticker][2] for ticker in tickers} | |
| sell_tickers = [ticker for ticker in tickers if returns[ticker] < 0] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(sell_tickers, min(3, len(sell_tickers)))] | |
| return trades | |
| def trade45(): | |
| # Buy the stock with the highest average return over the last 10 days | |
| avg_returns = {ticker: np.mean([(prices[ticker][i] - prices[ticker][i+1]) / prices[ticker][i+1] for i in range(9)]) for ticker in tickers} | |
| best_ticker = max(avg_returns, key=avg_returns.get) | |
| trade = Trade(best_ticker, 100) | |
| return [trade] | |
| def trade46(): | |
| # Sell the stock with the lowest average return over the last 10 days | |
| avg_returns = {ticker: np.mean([(prices[ticker][i] - prices[ticker][i+1]) / prices[ticker][i+1] for i in range(9)]) for ticker in tickers} | |
| worst_ticker = min(avg_returns, key=avg_returns.get) | |
| trade = Trade(worst_ticker, -100) | |
| return [trade] | |
| def trade47(): | |
| # Buy stocks that are oversold based on RSI (Randomly assigned for simplicity) | |
| rsi = {ticker: random.uniform(0, 100) for ticker in tickers} | |
| oversold_tickers = [ticker for ticker in tickers if rsi[ticker] < 30] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(oversold_tickers, min(3, len(oversold_tickers)))] | |
| return trades | |
| def trade48(): | |
| # Sell stocks that are overbought based on RSI (Randomly assigned for simplicity) | |
| rsi = {ticker: random.uniform(0, 100) for ticker in tickers} | |
| overbought_tickers = [ticker for ticker in tickers if rsi[ticker] > 70] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(overbought_tickers, min(3, len(overbought_tickers)))] | |
| return trades | |
| def trade49(): | |
| # Buy stocks with positive momentum over the last 20 days | |
| momentums = {ticker: prices[ticker][0] - prices[ticker][19] for ticker in tickers} | |
| positive_momentum_tickers = [ticker for ticker in momentums if momentums[ticker] > 0] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(positive_momentum_tickers, min(3, len(positive_momentum_tickers)))] | |
| return trades | |
| def trade50(): | |
| # Sell stocks with negative momentum over the last 20 days | |
| momentums = {ticker: prices[ticker][0] - prices[ticker][19] for ticker in tickers} | |
| negative_momentum_tickers = [ticker for ticker in momentums if momentums[ticker] < 0] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(negative_momentum_tickers, min(3, len(negative_momentum_tickers)))] | |
| return trades | |
| def trade51(): | |
| # Buy stocks that have a high positive correlation with a randomly chosen strong performer | |
| import scipy.stats | |
| base_ticker = random.choice(tickers) | |
| base_prices = prices[base_ticker] | |
| correlations = {ticker: scipy.stats.pearsonr(base_prices, prices[ticker])[0] for ticker in tickers if ticker != base_ticker} | |
| high_corr_tickers = [ticker for ticker, corr in correlations.items() if corr > 0.8] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(high_corr_tickers, min(3, len(high_corr_tickers)))] | |
| return trades | |
| def trade52(): | |
| # Sell stocks that have a high negative correlation with a randomly chosen weak performer | |
| import scipy.stats | |
| base_ticker = random.choice(tickers) | |
| base_prices = prices[base_ticker] | |
| correlations = {ticker: scipy.stats.pearsonr(base_prices, prices[ticker])[0] for ticker in tickers if ticker != base_ticker} | |
| low_corr_tickers = [ticker for ticker, corr in correlations.items() if corr < -0.8] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(low_corr_tickers, min(3, len(low_corr_tickers)))] | |
| return trades | |
| def trade53(): | |
| # Long/short strategy: Buy stocks with high positive correlation and sell stocks with high negative correlation to a strong performer | |
| import scipy.stats | |
| base_ticker = random.choice(tickers) | |
| base_prices = prices[base_ticker] | |
| correlations = {ticker: scipy.stats.pearsonr(base_prices, prices[ticker])[0] for ticker in tickers if ticker != base_ticker} | |
| high_corr_tickers = [ticker for ticker, corr in correlations.items() if corr > 0.7] | |
| low_corr_tickers = [ticker for ticker, corr in correlations.items() if corr < -0.7] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(high_corr_tickers, min(2, len(high_corr_tickers)))] + \ | |
| [Trade(ticker, -100) for ticker in random.sample(low_corr_tickers, min(2, len(low_corr_tickers)))] | |
| return trades | |
| def trade54(): | |
| # Buy stocks that have a high correlation with an index (e.g., S&P 500) | |
| import scipy.stats | |
| index_prices = [random.uniform(1000, 5000) for _ in range(len(prices[tickers[0]]))] # Mock index prices | |
| correlations = {ticker: scipy.stats.pearsonr(index_prices, prices[ticker])[0] for ticker in tickers} | |
| high_corr_tickers = [ticker for ticker, corr in correlations.items() if corr > 0.8] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(high_corr_tickers, min(3, len(high_corr_tickers)))] | |
| return trades | |
| def trade55(): | |
| # Sell stocks that have a low correlation with an index (e.g., S&P 500) | |
| import scipy.stats | |
| index_prices = [random.uniform(1000, 5000) for _ in range(len(prices[tickers[0]]))] # Mock index prices | |
| correlations = {ticker: scipy.stats.pearsonr(index_prices, prices[ticker])[0] for ticker in tickers} | |
| low_corr_tickers = [ticker for ticker, corr in correlations.items() if corr < 0.2] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(low_corr_tickers, min(3, len(low_corr_tickers)))] | |
| return trades | |
| def trade56(): | |
| # Long/short strategy: Buy stocks with high correlation and sell stocks with low correlation to a randomly chosen strong performer | |
| import scipy.stats | |
| base_ticker = random.choice(tickers) | |
| base_prices = prices[base_ticker] | |
| correlations = {ticker: scipy.stats.pearsonr(base_prices, prices[ticker])[0] for ticker in tickers if ticker != base_ticker} | |
| high_corr_tickers = [ticker for ticker, corr in correlations.items() if corr > 0.7] | |
| low_corr_tickers = [ticker for ticker, corr in correlations.items() if corr < 0.2] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(high_corr_tickers, min(2, len(high_corr_tickers)))] + \ | |
| [Trade(ticker, -100) for ticker in random.sample(low_corr_tickers, min(2, len(low_corr_tickers)))] | |
| return trades | |
| def trade57(): | |
| # Buy stocks that are inversely correlated with a major sector ETF (mocked data) | |
| import scipy.stats | |
| sector_etf_prices = [random.uniform(50, 150) for _ in range(len(prices[tickers[0]]))] # Mock sector ETF prices | |
| correlations = {ticker: scipy.stats.pearsonr(sector_etf_prices, prices[ticker])[0] for ticker in tickers} | |
| inverse_corr_tickers = [ticker for ticker, corr in correlations.items() if corr < -0.7] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(inverse_corr_tickers, min(3, len(inverse_corr_tickers)))] | |
| return trades | |
| def trade58(): | |
| # Sell stocks that are highly correlated with a volatile index | |
| import scipy.stats | |
| volatile_index_prices = [random.uniform(1000, 2000) for _ in range(len(prices[tickers[0]]))] # Mock volatile index prices | |
| correlations = {ticker: scipy.stats.pearsonr(volatile_index_prices, prices[ticker])[0] for ticker in tickers} | |
| high_corr_tickers = [ticker for ticker, corr in correlations.items() if corr > 0.8] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(high_corr_tickers, min(3, len(high_corr_tickers)))] | |
| return trades | |
| def trade59(): | |
| # Buy stocks that are less correlated with the overall market (S&P 500) | |
| import scipy.stats | |
| market_prices = [random.uniform(1000, 5000) for _ in range(len(prices[tickers[0]]))] # Mock market index prices | |
| correlations = {ticker: scipy.stats.pearsonr(market_prices, prices[ticker])[0] for ticker in tickers} | |
| low_corr_tickers = [ticker for ticker, corr in correlations.items() if corr < 0.3] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(low_corr_tickers, min(3, len(low_corr_tickers)))] | |
| return trades | |
| def trade60(): | |
| # Sell stocks that are highly correlated with a specific commodity price (e.g., oil) | |
| import scipy.stats | |
| commodity_prices = [random.uniform(50, 100) for _ in range(len(prices[tickers[0]]))] # Mock commodity prices | |
| correlations = {ticker: scipy.stats.pearsonr(commodity_prices, prices[ticker])[0] for ticker in tickers} | |
| high_corr_tickers = [ticker for ticker, corr in correlations.items() if corr > 0.7] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(high_corr_tickers, min(3, len(high_corr_tickers)))] | |
| return trades | |
| def trade61(): | |
| # Buy stocks forming a "double bottom" pattern (last 5 days) | |
| double_bottom_tickers = [ticker for ticker in tickers if prices[ticker][4] < prices[ticker][2] == prices[ticker][0] < prices[ticker][1] and prices[ticker][3] > prices[ticker][2]] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(double_bottom_tickers, min(3, len(double_bottom_tickers)))] | |
| return trades | |
| def trade62(): | |
| # Sell stocks forming a "double top" pattern (last 5 days) | |
| double_top_tickers = [ticker for ticker in tickers if prices[ticker][4] > prices[ticker][2] == prices[ticker][0] > prices[ticker][1] and prices[ticker][3] < prices[ticker][2]] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(double_top_tickers, min(3, len(double_top_tickers)))] | |
| return trades | |
| def trade63(): | |
| # Buy stocks showing a "head and shoulders" bottom pattern (last 7 days) | |
| hs_bottom_tickers = [ticker for ticker in tickers if prices[ticker][6] > prices[ticker][5] < prices[ticker][4] > prices[ticker][3] < prices[ticker][2] and prices[ticker][1] < prices[ticker][0]] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(hs_bottom_tickers, min(3, len(hs_bottom_tickers)))] | |
| return trades | |
| def trade64(): | |
| # Sell stocks showing a "head and shoulders" top pattern (last 7 days) | |
| hs_top_tickers = [ticker for ticker in tickers if prices[ticker][6] < prices[ticker][5] > prices[ticker][4] < prices[ticker][3] > prices[ticker][2] and prices[ticker][1] > prices[ticker][0]] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(hs_top_tickers, min(3, len(hs_top_tickers)))] | |
| return trades | |
| def trade65(): | |
| # Buy stocks forming a "bullish flag" pattern (last 10 days) | |
| bullish_flag_tickers = [ticker for ticker in tickers if prices[ticker][9] < prices[ticker][8] and all(prices[ticker][i] < prices[ticker][i+1] for i in range(8, 4, -1)) and all(prices[ticker][i] > prices[ticker][i+1] for i in range(4, 0, -1))] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(bullish_flag_tickers, min(3, len(bullish_flag_tickers)))] | |
| return trades | |
| def trade66(): | |
| # Sell stocks forming a "bearish flag" pattern (last 10 days) | |
| bearish_flag_tickers = [ticker for ticker in tickers if prices[ticker][9] > prices[ticker][8] and all(prices[ticker][i] > prices[ticker][i+1] for i in range(8, 4, -1)) and all(prices[ticker][i] < prices[ticker][i+1] for i in range(4, 0, -1))] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(bearish_flag_tickers, min(3, len(bearish_flag_tickers)))] | |
| return trades | |
| def trade67(): | |
| # Buy stocks forming a "ascending triangle" pattern (last 15 days) | |
| ascending_triangle_tickers = [ticker for ticker in tickers if prices[ticker][14] < prices[ticker][13] and prices[ticker][0] > prices[ticker][7] and all(prices[ticker][i] <= prices[ticker][i+1] for i in range(13))] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(ascending_triangle_tickers, min(3, len(ascending_triangle_tickers)))] | |
| return trades | |
| def trade68(): | |
| # Sell stocks forming a "descending triangle" pattern (last 15 days) | |
| descending_triangle_tickers = [ticker for ticker in tickers if prices[ticker][14] > prices[ticker][13] and prices[ticker][0] < prices[ticker][7] and all(prices[ticker][i] >= prices[ticker][i+1] for i in range(13))] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(descending_triangle_tickers, min(3, len(descending_triangle_tickers)))] | |
| return trades | |
| def trade69(): | |
| # Buy stocks forming a "rounding bottom" pattern (last 20 days) | |
| rounding_bottom_tickers = [ticker for ticker in tickers if all(prices[ticker][i] >= prices[ticker][i+1] for i in range(10)) and all(prices[ticker][i] <= prices[ticker][i+1] for i in range(10, 19))] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(rounding_bottom_tickers, min(3, len(rounding_bottom_tickers)))] | |
| return trades | |
| def trade70(): | |
| # Sell stocks forming a "rounding top" pattern (last 20 days) | |
| rounding_top_tickers = [ticker for ticker in tickers if all(prices[ticker][i] <= prices[ticker][i+1] for i in range(10)) and all(prices[ticker][i] >= prices[ticker][i+1] for i in range(10, 19))] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(rounding_top_tickers, min(3, len(rounding_top_tickers)))] | |
| return trades | |
| def trade71(): | |
| # Buy stocks showing a strong upward trend over the last 10 days | |
| upward_trend_tickers = [ticker for ticker in tickers if prices[ticker][0] > prices[ticker][9] and all(prices[ticker][i] >= prices[ticker][i+1] for i in range(9))] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(upward_trend_tickers, min(3, len(upward_trend_tickers)))] | |
| return trades | |
| def trade72(): | |
| # Sell stocks showing a strong downward trend over the last 10 days | |
| downward_trend_tickers = [ticker for ticker in tickers if prices[ticker][0] < prices[ticker][9] and all(prices[ticker][i] <= prices[ticker][i+1] for i in range(9))] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(downward_trend_tickers, min(3, len(downward_trend_tickers)))] | |
| return trades | |
| def trade73(): | |
| # Buy stocks that have reverted to their mean price over the last 20 days | |
| mean_reversion_tickers = [ticker for ticker in tickers if abs(prices[ticker][0] - np.mean(prices[ticker][:20])) < np.std(prices[ticker][:20])] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(mean_reversion_tickers, min(3, len(mean_reversion_tickers)))] | |
| return trades | |
| def trade74(): | |
| # Sell stocks that have deviated significantly from their mean price over the last 20 days | |
| mean_deviation_tickers = [ticker for ticker in tickers if abs(prices[ticker][0] - np.mean(prices[ticker][:20])) > 2 * np.std(prices[ticker][:20])] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(mean_deviation_tickers, min(3, len(mean_deviation_tickers)))] | |
| return trades | |
| def trade75(): | |
| # Buy stocks that have shown increased volatility in the last 10 days compared to the previous 20 days | |
| increased_volatility_tickers = [ticker for ticker in tickers if np.std(prices[ticker][:10]) > 1.5 * np.std(prices[ticker][10:30])] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(increased_volatility_tickers, min(3, len(increased_volatility_tickers)))] | |
| return trades | |
| def trade76(): | |
| # Sell stocks that have shown decreased volatility in the last 10 days compared to the previous 20 days | |
| decreased_volatility_tickers = [ticker for ticker in tickers if np.std(prices[ticker][:10]) < 0.5 * np.std(prices[ticker][10:30])] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(decreased_volatility_tickers, min(3, len(decreased_volatility_tickers)))] | |
| return trades | |
| def trade77(): | |
| # Buy stocks that have broken above their previous 50-day high | |
| previous_50_day_highs = {ticker: max(prices[ticker][1:51]) for ticker in tickers} | |
| breakout_tickers = [ticker for ticker in tickers if prices[ticker][0] > previous_50_day_highs[ticker]] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(breakout_tickers, min(3, len(breakout_tickers)))] | |
| return trades | |
| def trade78(): | |
| # Sell stocks that have broken below their previous 50-day low | |
| previous_50_day_lows = {ticker: min(prices[ticker][1:51]) for ticker in tickers} | |
| breakdown_tickers = [ticker for ticker in tickers if prices[ticker][0] < previous_50_day_lows[ticker]] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(breakdown_tickers, min(3, len(breakdown_tickers)))] | |
| return trades | |
| def trade79(): | |
| # Buy stocks that have shown a significant upward price spike in the last 3 days | |
| price_spike_tickers = [ticker for ticker in tickers if (prices[ticker][0] - prices[ticker][2]) / prices[ticker][2] > 0.1] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(price_spike_tickers, min(3, len(price_spike_tickers)))] | |
| return trades | |
| def trade80(): | |
| # Sell stocks that have shown a significant downward price spike in the last 3 days | |
| price_drop_tickers = [ticker for ticker in tickers if (prices[ticker][0] - prices[ticker][2]) / prices[ticker][2] < -0.1] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(price_drop_tickers, min(3, len(price_drop_tickers)))] | |
| return trades | |
| def trade81(): | |
| # Buy stocks that have formed a "golden cross" (50-day MA crosses above 200-day MA) | |
| golden_cross_tickers = [ticker for ticker in tickers if np.mean(prices[ticker][:50]) > np.mean(prices[ticker][:200])] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(golden_cross_tickers, min(3, len(golden_cross_tickers)))] | |
| return trades | |
| def trade82(): | |
| # Sell stocks that have formed a "death cross" (50-day MA crosses below 200-day MA) | |
| death_cross_tickers = [ticker for ticker in tickers if np.mean(prices[ticker][:50]) < np.mean(prices[ticker][:200])] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(death_cross_tickers, min(3, len(death_cross_tickers)))] | |
| return trades | |
| def trade83(): | |
| # Buy stocks that have shown an increase in trading volume in the last 5 days | |
| volume_increase_tickers = [ticker for ticker in tickers if np.mean(prices[ticker][:5]) > 1.2 * np.mean(prices[ticker][5:10])] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(volume_increase_tickers, min(3, len(volume_increase_tickers)))] | |
| return trades | |
| def trade84(): | |
| # Sell stocks that have shown a decrease in trading volume in the last 5 days | |
| volume_decrease_tickers = [ticker for ticker in tickers if np.mean(prices[ticker][:5]) < 0.8 * np.mean(prices[ticker][5:10])] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(volume_decrease_tickers, min(3, len(volume_decrease_tickers)))] | |
| return trades | |
| def trade85(): | |
| # Buy stocks that have shown consistent daily gains for the last 5 days | |
| consistent_gainers = [ticker for ticker in tickers if all(prices[ticker][i] > prices[ticker][i+1] for i in range(5))] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(consistent_gainers, min(3, len(consistent_gainers)))] | |
| return trades | |
| def trade86(): | |
| # Sell stocks that have shown consistent daily losses for the last 5 days | |
| consistent_losers = [ticker for ticker in tickers if all(prices[ticker][i] < prices[ticker][i+1] for i in range(5))] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(consistent_losers, min(3, len(consistent_losers)))] | |
| return trades | |
| def trade87(): | |
| # Buy stocks that are trading near their all-time highs | |
| all_time_high_tickers = [ticker for ticker in tickers if prices[ticker][0] >= 0.95 * max(prices[ticker])] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(all_time_high_tickers, min(3, len(all_time_high_tickers)))] | |
| return trades | |
| def trade88(): | |
| # Sell stocks that are trading near their all-time lows | |
| all_time_low_tickers = [ticker for ticker in tickers if prices[ticker][0] <= 1.05 * min(prices[ticker])] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(all_time_low_tickers, min(3, len(all_time_low_tickers)))] | |
| return trades | |
| def trade89(): | |
| # Buy stocks that have gapped up at market open today | |
| gap_up_tickers = [ticker for ticker in tickers if prices[ticker][0] > 1.05 * prices[ticker][1]] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(gap_up_tickers, min(3, len(gap_up_tickers)))] | |
| return trades | |
| def trade90(): | |
| # Sell stocks that have gapped down at market open today | |
| gap_down_tickers = [ticker for ticker in tickers if prices[ticker][0] < 0.95 * prices[ticker][1]] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(gap_down_tickers, min(3, len(gap_down_tickers)))] | |
| return trades | |
| def trade91(): | |
| # Buy stocks that have shown a steady upward trend for the last 15 days | |
| steady_uptrend_tickers = [ticker for ticker in tickers if all(prices[ticker][i] >= prices[ticker][i+1] for i in range(15))] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(steady_uptrend_tickers, min(3, len(steady_uptrend_tickers)))] | |
| return trades | |
| def trade92(): | |
| # Sell stocks that have shown a steady downward trend for the last 15 days | |
| steady_downtrend_tickers = [ticker for ticker in tickers if all(prices[ticker][i] <= prices[ticker][i+1] for i in range(15))] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(steady_downtrend_tickers, min(3, len(steady_downtrend_tickers)))] | |
| return trades | |
| def trade93(): | |
| # Buy stocks that have outperformed the market index by 5% in the last 30 days | |
| market_index_return = random.uniform(-0.05, 0.05) # Mock market index return | |
| outperforming_tickers = [ticker for ticker in tickers if (prices[ticker][0] - prices[ticker][29]) / prices[ticker][29] > market_index_return + 0.05] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(outperforming_tickers, min(3, len(outperforming_tickers)))] | |
| return trades | |
| def trade94(): | |
| # Sell stocks that have underperformed the market index by 5% in the last 30 days | |
| market_index_return = random.uniform(-0.05, 0.05) # Mock market index return | |
| underperforming_tickers = [ticker for ticker in tickers if (prices[ticker][0] - prices[ticker][29]) / prices[ticker][29] < market_index_return - 0.05] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(underperforming_tickers, min(3, len(underperforming_tickers)))] | |
| return trades | |
| def trade95(): | |
| # Buy stocks that have broken above their previous 10-day high | |
| previous_10_day_highs = {ticker: max(prices[ticker][1:11]) for ticker in tickers} | |
| breakout_tickers = [ticker for ticker in tickers if prices[ticker][0] > previous_10_day_highs[ticker]] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(breakout_tickers, min(3, len(breakout_tickers)))] | |
| return trades | |
| def trade96(): | |
| # Sell stocks that have broken below their previous 10-day low | |
| previous_10_day_lows = {ticker: min(prices[ticker][1:11]) for ticker in tickers} | |
| breakdown_tickers = [ticker for ticker in tickers if prices[ticker][0] < previous_10_day_lows[ticker]] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(breakdown_tickers, min(3, len(breakdown_tickers)))] | |
| return trades | |
| def trade97(): | |
| # Buy stocks with a relative strength index (RSI) below 30 (oversold) | |
| rsi = {ticker: random.uniform(0, 100) for ticker in tickers} # Mock RSI values | |
| oversold_tickers = [ticker for ticker in tickers if rsi[ticker] < 30] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(oversold_tickers, min(3, len(oversold_tickers)))] | |
| return trades | |
| def trade98(): | |
| # Sell stocks with a relative strength index (RSI) above 70 (overbought) | |
| rsi = {ticker: random.uniform(0, 100) for ticker in tickers} # Mock RSI values | |
| overbought_tickers = [ticker for ticker in tickers if rsi[ticker] > 70] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(overbought_tickers, min(3, len(overbought_tickers)))] | |
| return trades | |
| def trade99(): | |
| # Buy stocks with a price-to-earnings ratio (P/E) below the industry average (mocked data) | |
| pe_ratios = {ticker: random.uniform(10, 30) for ticker in tickers} # Mock P/E ratios | |
| industry_average_pe = 20 # Mock industry average P/E | |
| undervalued_tickers = [ticker for ticker in tickers if pe_ratios[ticker] < industry_average_pe] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(undervalued_tickers, min(3, len(undervalued_tickers)))] | |
| return trades | |
| def trade100(): | |
| # Sell stocks with a price-to-earnings ratio (P/E) above the industry average (mocked data) | |
| pe_ratios = {ticker: random.uniform(10, 30) for ticker in tickers} # Mock P/E ratios | |
| industry_average_pe = 20 # Mock industry average P/E | |
| overvalued_tickers = [ticker for ticker in tickers if pe_ratios[ticker] > industry_average_pe] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(overvalued_tickers, min(3, len(overvalued_tickers)))] | |
| return trades | |
| def trade101(): | |
| # Buy stocks that have outperformed the market by more than 5% in the last 10 days | |
| market_total = [sum(prices[ticker][i] for ticker in tickers) for i in range(10)] | |
| market_return = (market_total[0] - market_total[-1]) / market_total[-1] | |
| outperforming_tickers = [ticker for ticker in tickers if (prices[ticker][0] - prices[ticker][9]) / prices[ticker][9] > market_return + 0.05] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(outperforming_tickers, min(3, len(outperforming_tickers)))] | |
| return trades | |
| def trade102(): | |
| # Sell stocks that have underperformed the market by more than 5% in the last 10 days | |
| market_total = [sum(prices[ticker][i] for ticker in tickers) for i in range(10)] | |
| market_return = (market_total[0] - market_total[-1]) / market_total[-1] | |
| underperforming_tickers = [ticker for ticker in tickers if (prices[ticker][0] - prices[ticker][9]) / prices[ticker][9] < market_return - 0.05] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(underperforming_tickers, min(3, len(underperforming_tickers)))] | |
| return trades | |
| def trade103(): | |
| # Buy stocks that have shown a positive return while the market showed a negative return over the last 5 days | |
| market_total = [sum(prices[ticker][i] for ticker in tickers) for i in range(5)] | |
| market_return = (market_total[0] - market_total[-1]) / market_total[-1] | |
| positive_tickers = [ticker for ticker in tickers if (prices[ticker][0] - prices[ticker][4]) / prices[ticker][4] > 0 and market_return < 0] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(positive_tickers, min(3, len(positive_tickers)))] | |
| return trades | |
| def trade104(): | |
| # Sell stocks that have shown a negative return while the market showed a positive return over the last 5 days | |
| market_total = [sum(prices[ticker][i] for ticker in tickers) for i in range(5)] | |
| market_return = (market_total[0] - market_total[-1]) / market_total[-1] | |
| negative_tickers = [ticker for ticker in tickers if (prices[ticker][0] - prices[ticker][4]) / prices[ticker][4] < 0 and market_return > 0] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(negative_tickers, min(3, len(negative_tickers)))] | |
| return trades | |
| def trade105(): | |
| # Buy stocks that have shown less volatility compared to the market over the last 20 days | |
| market_total = [sum(prices[ticker][i] for ticker in tickers) for i in range(20)] | |
| market_volatility = np.std(market_total) | |
| low_volatility_tickers = [ticker for ticker in tickers if np.std(prices[ticker][:20]) < market_volatility] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(low_volatility_tickers, min(3, len(low_volatility_tickers)))] | |
| return trades | |
| def trade106(): | |
| # Sell stocks that have shown more volatility compared to the market over the last 20 days | |
| market_total = [sum(prices[ticker][i] for ticker in tickers) for i in range(20)] | |
| market_volatility = np.std(market_total) | |
| high_volatility_tickers = [ticker for ticker in tickers if np.std(prices[ticker][:20]) > market_volatility] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(high_volatility_tickers, min(3, len(high_volatility_tickers)))] | |
| return trades | |
| def trade107(): | |
| # Buy stocks that have shown an increasing trend while the market showed a decreasing trend over the last 15 days | |
| market_total = [sum(prices[ticker][i] for ticker in tickers) for i in range(15)] | |
| market_trend = market_total[0] > market_total[-1] | |
| increasing_tickers = [ticker for ticker in tickers if prices[ticker][0] > prices[ticker][14] and not market_trend] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(increasing_tickers, min(3, len(increasing_tickers)))] | |
| return trades | |
| def trade108(): | |
| # Sell stocks that have shown a decreasing trend while the market showed an increasing trend over the last 15 days | |
| market_total = [sum(prices[ticker][i] for ticker in tickers) for i in range(15)] | |
| market_trend = market_total[0] < market_total[-1] | |
| decreasing_tickers = [ticker for ticker in tickers if prices[ticker][0] < prices[ticker][14] and market_trend] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(decreasing_tickers, min(3, len(decreasing_tickers)))] | |
| return trades | |
| def trade109(): | |
| # Buy stocks that have broken above their previous 10-day high while the market is flat | |
| market_total = [sum(prices[ticker][i] for ticker in tickers) for i in range(10)] | |
| market_flat = abs((market_total[0] - market_total[-1]) / market_total[-1]) < 0.01 | |
| previous_10_day_highs = {ticker: max(prices[ticker][1:11]) for ticker in tickers} | |
| breakout_tickers = [ticker for ticker in tickers if prices[ticker][0] > previous_10_day_highs[ticker] and market_flat] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(breakout_tickers, min(3, len(breakout_tickers)))] | |
| return trades | |
| def trade110(): | |
| # Sell stocks that have broken below their previous 10-day low while the market is flat | |
| market_total = [sum(prices[ticker][i] for ticker in tickers) for i in range(10)] | |
| market_flat = abs((market_total[0] - market_total[-1]) / market_total[-1]) < 0.01 | |
| previous_10_day_lows = {ticker: min(prices[ticker][1:11]) for ticker in tickers} | |
| breakdown_tickers = [ticker for ticker in tickers if prices[ticker][0] < previous_10_day_lows[ticker] and market_flat] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(breakdown_tickers, min(3, len(breakdown_tickers)))] | |
| return trades | |
| def trade111(): | |
| # Buy stocks that have shown a higher positive return compared to the market over the last 20 days | |
| market_total = [sum(prices[ticker][i] for ticker in tickers) for i in range(20)] | |
| market_return = (market_total[0] - market_total[-1]) / market_total[-1] | |
| higher_positive_tickers = [ticker for ticker in tickers if (prices[ticker][0] - prices[ticker][19]) / prices[ticker][19] > market_return] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(higher_positive_tickers, min(3, len(higher_positive_tickers)))] | |
| return trades | |
| def trade112(): | |
| # Sell stocks that have shown a higher negative return compared to the market over the last 20 days | |
| market_total = [sum(prices[ticker][i] for ticker in tickers) for i in range(20)] | |
| market_return = (market_total[0] - market_total[-1]) / market_total[-1] | |
| higher_negative_tickers = [ticker for ticker in tickers if (prices[ticker][0] - prices[ticker][19]) / prices[ticker][19] < market_return] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(higher_negative_tickers, min(3, len(higher_negative_tickers)))] | |
| return trades | |
| def trade113(): | |
| # Buy stocks that have shown less drawdown compared to the market over the last 30 days | |
| market_total = [sum(prices[ticker][i] for ticker in tickers) for i in range(30)] | |
| market_drawdown = min(market_total) / max(market_total) | |
| less_drawdown_tickers = [ticker for ticker in tickers if min(prices[ticker][:30]) / max(prices[ticker][:30]) > market_drawdown] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(less_drawdown_tickers, min(3, len(less_drawdown_tickers)))] | |
| return trades | |
| def trade114(): | |
| # Sell stocks that have shown more drawdown compared to the market over the last 30 days | |
| market_total = [sum(prices[ticker][i] for ticker in tickers) for i in range(30)] | |
| market_drawdown = min(market_total) / max(market_total) | |
| more_drawdown_tickers = [ticker for ticker in tickers if min(prices[ticker][:30]) / max(prices[ticker][:30]) < market_drawdown] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(more_drawdown_tickers, min(3, len(more_drawdown_tickers)))] | |
| return trades | |
| def trade115(): | |
| # Buy stocks that have had a smaller price range compared to the market over the last 15 days | |
| market_total = [sum(prices[ticker][i] for ticker in tickers) for i in range(15)] | |
| market_range = max(market_total) - min(market_total) | |
| small_range_tickers = [ticker for ticker in tickers if max(prices[ticker][:15]) - min(prices[ticker][:15]) < market_range] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(small_range_tickers, min(3, len(small_range_tickers)))] | |
| return trades | |
| def trade116(): | |
| # Sell stocks that have had a larger price range compared to the market over the last 15 days | |
| market_total = [sum(prices[ticker][i] for ticker in tickers) for i in range(15)] | |
| market_range = max(market_total) - min(market_total) | |
| large_range_tickers = [ticker for ticker in tickers if max(prices[ticker][:15]) - min(prices[ticker][:15]) > market_range] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(large_range_tickers, min(3, len(large_range_tickers)))] | |
| return trades | |
| def trade117(): | |
| # Buy stocks that have consistently stayed above their market-relative average price in the last 10 days | |
| market_total = [sum(prices[ticker][i] for ticker in tickers) for i in range(10)] | |
| market_avg = sum(market_total) / len(market_total) | |
| consistent_above_avg_tickers = [ticker for ticker in tickers if all(prices[ticker][i] > market_avg for i in range(10))] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(consistent_above_avg_tickers, min(3, len(consistent_above_avg_tickers)))] | |
| return trades | |
| def trade118(): | |
| # Sell stocks that have consistently stayed below their market-relative average price in the last 10 days | |
| market_total = [sum(prices[ticker][i] for ticker in tickers) for i in range(10)] | |
| market_avg = sum(market_total) / len(market_total) | |
| consistent_below_avg_tickers = [ticker for ticker in tickers if all(prices[ticker][i] < market_avg for i in range(10))] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(consistent_below_avg_tickers, min(3, len(consistent_below_avg_tickers)))] | |
| return trades | |
| def trade119(): | |
| # Buy stocks that have shown a positive correlation with the market trend over the last 20 days | |
| market_total = [sum(prices[ticker][i] for ticker in tickers) for i in range(20)] | |
| market_trend = scipy.stats.linregress(range(20), market_total).slope | |
| positive_corr_tickers = [ticker for ticker in tickers if scipy.stats.pearsonr(prices[ticker][:20], market_total)[0] > 0.5] | |
| trades = [Trade(ticker, 100) for ticker in random.sample(positive_corr_tickers, min(3, len(positive_corr_tickers)))] | |
| return trades | |
| def trade120(): | |
| # Sell stocks that have shown a negative correlation with the market trend over the last 20 days | |
| market_total = [sum(prices[ticker][i] for ticker in tickers) for i in range(20)] | |
| market_trend = scipy.stats.linregress(range(20), market_total).slope | |
| negative_corr_tickers = [ticker for ticker in tickers if scipy.stats.pearsonr(prices[ticker][:20], market_total)[0] < -0.5] | |
| trades = [Trade(ticker, -100) for ticker in random.sample(negative_corr_tickers, min(3, len(negative_corr_tickers)))] | |
| return trades |