ts_delta(close, 5) - ts_mean(ts_delta(close, 5), 20) group_mean(ts_delta(close, 10), 1, bucket(rank(volume), range="0,3,0.4")) if_else(ts_rank(ts_std_dev(returns, 20), 60) > 0.7, ts_delta(close, 5), ts_delta(close, 30)) ts_regression(close, ts_step(1), 30, 0, 1) * rank(volume) multiply(group_rank(ts_delta(close, 10), industry), ts_zscore(volume, 20)) ts_decay_linear(ts_delta(close, 1), 20) * ts_corr(ts_delta(close, 5), ts_delta(volume, 5), 30) if_else(bucket(rank(volume), range="0,3,0.4") == 0, ts_delta(close, 20), 0) divide(ts_delta(close, 10), ts_std_dev(returns, 30)) ts_mean(ts_delta(close, 5) / ts_std_dev(returns, 20), 60) group_mean(ts_mean(returns, 10), 1, bucket(rank(volume), range="0,3,0.4")) - ts_mean(returns, 20) reverse(ts_rank(volume / ts_mean(volume, 20), 10)) * ts_delta(close, 20) ts_corr(group_mean(returns, 1, industry), ts_delta(close, 10), 60) * ts_delta(close, 20) ts_delta(ts_mean(returns, 5), 20) * rank(volume) if_else(ts_std_dev(returns, 20) > 0.015, ts_delta(close, 5), ts_regression(close, ts_step(1), 60, 0, 1)) group_mean(ts_delta(close, 20) / ts_std_dev(returns, 60), 1, bucket(rank(volume), range="0,3,0.4")) multiply(ts_corr(ts_delta(close, 5), ts_delta(volume, 5), 30), group_rank(returns, industry)) ts_regression(close, ts_step(1), 20, 0, 1) - ts_mean(ts_regression(close, ts_step(1), 20, 0, 1), 120) if_else(rank(volume) > 0.8, ts_delta(close, 10), ts_delta(close, 30) * -1) ts_mean(ts_rank(returns, 20), 30) * ts_zscore(volume, 10) group_mean(ts_zscore(ts_delta(close, 10), 60), 1, bucket(rank(volume), range="0,3,0.4")) multiply(ts_rank(ts_std_dev(returns, 30), 120), ts_delta(close, 10) * -1) divide(ts_delta(ts_mean(returns, 20), 5), ts_std_dev(returns, 60)) if_else(ts_rank(ts_corr(ts_delta(close,5), ts_delta(volume,5), 30), 60) > 0.6, ts_delta(close, 20), ts_delta(close, 60)) group_mean(ts_regression(close, ts_step(1), 30, 0, 1), 1, bucket(rank(volume), range="0,3,0.4")) * rank(ts_std_dev(returns, 60)) multiply(ts_delta(close, 5), rank(group_mean(returns, 1, industry))) ts_mean(ts_delta(close, 10), 30) - ts_decay_linear(returns, 20) if_else(ts_std_dev(returns, 60) > ts_mean(ts_std_dev(returns, 60), 120), ts_zscore(close, 10), ts_zscore(close, 60)) group_rank(ts_corr(ts_delta(close,5), ts_delta(volume,5), 30), industry) * rank(volume) divide(ts_regression(close, ts_step(1), 60, 0, 1), ts_std_dev(returns, 30)) multiply(ts_mean(returns, 10), if_else(rank(volume) > 0.7, 1, -1)) ts_decay_linear(volume, 20) * ts_delta(close, 30) if_else(ts_rank(ts_mean(returns, 20), 60) > 0.5, ts_mean(returns, 10), ts_mean(returns, 60) * -1) group_mean(ts_delta(close, 5) - ts_delay(close, 10), 1, bucket(rank(volume), range="0,3,0.4")) multiply(ts_zscore(returns, 20), group_rank(returns, sector)) ts_delta(close, 20) / ts_mean(ts_std_dev(returns, 20), 60) if_else(bucket(rank(volume), range="0,3,0.4") == 1, group_mean(ts_regression(close, ts_step(1), 30, 0, 1), 1, industry), 0) ts_corr(ts_delta(close, 5), ts_delta(volume, 5), 60) - ts_corr(ts_delta(close, 5), ts_delta(volume, 5), 20) multiply(ts_rank(volume, 20), ts_delta(close, 5)) group_zscore(ts_mean(returns, 10), 1, bucket(rank(volume), range="0,3,0.4")) if_else(ts_rank(ts_std_dev(returns, 20), 240) > 0.8, reverse(ts_delta(close, 5)), ts_delta(close, 30)) ts_regression(close, ts_step(1), 20, 0, 1) * ts_zscore(volume, 60) group_mean(ts_delta(close, 10), 1, industry) * rank(volume) multiply(ts_decay_linear(returns, 10), ts_corr(ts_delta(close, 5), ts_delta(volume, 5), 30)) divide(ts_mean(ts_delta(close, 5), 20), ts_mean(abs(ts_delta(close, 5)), 20)) if_else(rank(volume) > 0.6, ts_regression(close, ts_step(1), 20, 0, 1), ts_zscore(close, 60)) group_rank(ts_mean(returns, 30), industry) * ts_std_dev(volume, 20) multiply(ts_rank(ts_std_dev(returns, 60), 120), group_rank(ts_mean(returns, 10), industry)) ts_mean(ts_delta(close, 10), 60) / ts_std_dev(close, 60) if_else(ts_corr(close, volume, 20) > 0.1, ts_delta(close, 20), ts_regression(close, ts_step(1), 60, 0, 1)) group_mean(ts_zscore(returns, 30), 1, bucket(rank(volume), range="0,3,0.4")) * ts_rank(volume, 60) reverse(ts_rank(volume, 30)) * ts_mean(returns, 20) ts_corr(ts_delta(close, 10), ts_delta(volume, 10), 60) * ts_delta(close, 30) if_else(ts_std_dev(returns, 20) > 0.025, ts_mean(returns, 5), ts_mean(returns, 30)) group_mean(ts_regression(close, ts_step(1), 60, 0, 1), 1, bucket(rank(volume), range="0,3,0.4")) - ts_mean(ts_regression(close, ts_step(1), 60, 0, 1), 240) multiply(ts_rank(returns, 20), group_rank(volume, industry)) divide(ts_mean(returns, 10), ts_std_dev(returns, 60)) if_else(rank(ts_mean(volume, 20)) > 0.5, ts_delta(close, 5), ts_delta(close, 60) * -1) ts_regression(close, ts_step(1), 30, 0, 1) * rank(ts_std_dev(returns, 30)) group_mean(ts_zscore(returns, 10), 1, industry) * ts_zscore(volume, 30) multiply(reverse(ts_rank(returns, 30)), group_mean(ts_delta(close, 20), 1, sector)) ts_delta(close, 60) - ts_delay(close, 20) if_else(ts_rank(ts_corr(close, volume, 30), 120) > 0.6, ts_corr(close, volume, 5), ts_corr(close, volume, 60)) group_mean(ts_mean(returns, 20), 1, bucket(rank(volume), range="0,3,0.4")) * ts_rank(close, 60) divide(ts_std_dev(returns, 60), ts_std_dev(returns, 20)) multiply(ts_rank(ts_mean(returns, 60), 120), group_rank(volume, sector)) if_else(bucket(rank(volume), range="0,3,0.4") == 2, ts_mean(returns, 10), ts_mean(returns, 60)) ts_regression(close, ts_step(1), 10, 0, 1) + ts_regression(close, ts_step(1), 30, 0, 1) - ts_regression(close, ts_step(1), 120, 0, 1) group_zscore(ts_regression(close, ts_step(1), 20, 0, 1), 1, industry) multiply(rank(ts_mean(volume, 60)), ts_zscore(ts_delta(close, 20), 60)) if_else(ts_mean(abs(returns), 10) > ts_mean(abs(returns), 60), reverse(ts_delta(close, 10)), ts_delta(close, 30)) group_mean(ts_decay_linear(returns, 20), 1, bucket(rank(volume), range="0,3,0.4")) - ts_mean(ts_decay_linear(returns, 20), 60) multiply(rank(ts_std_dev(returns, 30)), group_rank(ts_delta(close, 10), industry)) divide(ts_delay(close, 5), ts_delay(close, 20)) - 1 if_else(ts_rank(volume, 10) > 0.9, ts_zscore(close, 5), ts_zscore(close, 60)) group_mean(ts_corr(ts_delta(close,5), ts_delta(volume,5), 20), 1, industry) * rank(volume) multiply(ts_regression(close, ts_step(1), 60, 0, 1), reverse(ts_rank(volume, 60))) ts_std_dev(returns, 20) / ts_std_dev(ts_mean(volume, 20), 60) if_else(group_rank(volume, sector) > 0.7, ts_mean(returns, 20), ts_mean(returns, 120)) group_mean(ts_delta(close, 30), 1, bucket(rank(volume), range="0,3,0.4")) * ts_rank(ts_mean(volume, 120), 240) multiply(ts_rank(returns, 10) - ts_rank(returns, 60), group_rank(returns, industry)) divide(ts_sum(returns, 20), ts_sum(abs(returns), 20)) if_else(ts_rank(ts_std_dev(returns, 30), 120) > 0.7, ts_regression(close, ts_step(1), 10, 0, 1), ts_delta(close, 60)) group_mean(ts_zscore(returns, 20), 1, industry) * ts_rank(volume, 120) reverse(ts_rank(ts_mean(volume, 60))) * ts_zscore(close, 30) multiply(ts_corr(ts_delta(close, 10), ts_delta(volume, 10), 20), group_rank(ts_mean(returns, 10), 1, bucket(rank(volume), range="0,3,0.4"))) divide(ts_mean(returns, 10), ts_mean(volume, 120)) if_else(bucket(rank(volume), range="0,3,0.4") == 0, ts_zscore(returns, 20), ts_zscore(returns, 120) * -1) group_mean(ts_regression(close, ts_step(1), 60, 0, 1), 1, sector) * rank(volume) multiply(rank(ts_zscore(returns, 30)), group_rank(close, industry)) ts_mean(ts_delta(close, 5), 20) - ts_mean(ts_delta(close, 20), 60) if_else(ts_corr(close, volume, 60) > ts_corr(close, volume, 120), ts_mean(returns, 10), ts_mean(returns, 60)) group_mean(ts_rank(returns, 30), 1, bucket(rank(volume), range="0,3,0.4")) * ts_rank(ts_std_dev(returns, 60), 120) multiply(reverse(rank(ts_zscore(volume, 30))), ts_regression(close, ts_step(1), 30, 0, 1)) divide(ts_delay(close, 10) - ts_delay(close, 60), ts_delay(close, 60)) if_else(ts_rank(ts_zscore(volume, 10), 120) > 0.8, ts_delta(close, 5), ts_delta(close, 120)) group_mean(ts_mean(returns, 30), 1, industry) * rank(ts_mean(volume, 60), 120) multiply(ts_std_dev(returns, 30) / ts_std_dev(returns, 120), group_rank(ts_delta(close, 20), sector)) ts_decay_linear(ts_delta(close, 1), 30) - ts_decay_linear(ts_delta(close, 1), 10) if_else(rank(volume) > 0.9, ts_zscore(close, 5), ts_zscore(close, 120) * -1) group_rank(ts_std_dev(returns, 60), industry) * rank(volume) multiply(ts_corr(ts_delta(close, 20), ts_delta(volume, 20), 60), group_mean(ts_zscore(returns, 20), 1, bucket(rank(volume), range="0,3,0.4"))) divide(ts_sum(returns, 10) - ts_sum(returns, 60), ts_sum(abs(returns), 60)) if_else(ts_mean(ts_zscore(volume, 20), 60) > 0, ts_delta(close, 10), ts_regression(close, ts_step(1), 120, 0, 1)) group_mean(ts_regression(close, ts_step(1), 20, 0, 1), 1, industry) * group_rank(volume, industry) multiply(ts_rank(returns, 30) - ts_rank(returns, 120), rank(volume)) ts_regression(close, ts_step(1), 60, 0, 1) - ts_mean(ts_regression(close, ts_step(1), 60, 0, 1), 240) if_else(group_rank(returns, sector) > 0.6, ts_mean(returns, 10), ts_mean(returns, 120)) group_mean(ts_zscore(ts_delta(close, 10), 60), 1, bucket(rank(volume), range="0,3,0.4")) * ts_rank(ts_std_dev(returns, 30), 60) multiply(reverse(rank(ts_mean(returns, 30))), group_rank(ts_mean(returns, 60), industry)) divide(ts_mean(returns, 20), ts_zscore(returns, 60)) if_else(bucket(rank(volume), range="0,3,0.4") == 0 and ts_rank(close, 20) > 0.8, ts_delta(close, 5), ts_delta(close, 120) * -1) group_mean(ts_corr(ts_delta(close,5), ts_delta(volume,5), 60), 1, industry) * rank(ts_mean(volume, 30), 120) multiply(ts_rank(ts_std_dev(returns, 30), 120), group_rank(close, sector)) ts_mean(ts_zscore(returns, 20), 60) - ts_mean(ts_zscore(returns, 20), 120) if_else(rank(volume) > 0.8, ts_regression(close, ts_step(1), 30, 0, 1), ts_regression(close, ts_step(1), 120, 0, 1) * -1) group_mean(ts_delta(close, 20), 1, bucket(rank(volume), range="0,3,0.4")) - ts_mean(ts_delta(close, 20), 240) multiply(rank(ts_corr(close, volume, 30)), group_rank(ts_std_dev(returns, 60), industry)) divide(ts_rank(close, 60), ts_rank(volume, 60)) if_else(ts_mean(volume, 20) > ts_delay(ts_mean(volume, 20), 20), ts_delta(close, 10), reverse(ts_delta(close, 10))) group_rank(ts_regression(close, ts_step(1), 60, 0, 1), sector) * rank(volume)