module fundit::indicatorCalculator use fundit::sqlUtilities use fundit::operationDataPuller use fundit::performanceDataPuller use fundit::ms_dataPuller use fundit::returnCalculator use fundit::navCalculator /* * 将VaR包裹一层,使之成为系统认可的聚集函数 * @param returns : 非空收益率 * @param method : 'normal', 'logNormal', 'historical', 'monteCarlo' * @param confidenceLevel : 置信水平,取值区间(0, 1) * */ defg aggVaR(returns, method, confidenceLevel) { if(returns.form() != 1) return null; return returns.VaR(method, confidenceLevel); } /* * 将CVaR包裹一层,使之成为系统认可的聚集函数 * @param returns : 非空收益率 * @param method : 'normal', 'logNormal', 'historical', 'monteCarlo' * @param confidenceLevel : 置信水平,取值区间(0, 1) * */ defg aggCVaR(returns, method, confidenceLevel) { if(returns.form() != 1) return null; return returns.CVaR(method, confidenceLevel); } /* * 最大回撤 * * */ defg maxDrawdown(navs) { return max(1 - navs \ cummax(navs)); } /* * 几何平均值 * */ defg geometricMean(x){ return x.log().avg().exp() } /* * Trailing Monthly Return, Standard Deviation, Skewness, Kurtosis, Max Drawdown, VaR, CVaR, Calmar Ratio * * @param entity_info : xxx_information表,NEED COLUMNS entity_id, inception_date * @param ret
: 收益表,需要有 entity_id, price_dat, end_date, nav * @param trailing_month : trailing X month or ytd, incep * * NOTE: standard deviation of Java version is noncompliant-GIPS annulized number * * Create: 20240904 Joey * TODO: SQL is wrong for max drawdowns * TODO: var, cvar, calmar are off; std dev, skewness, kurtosis are slightly off * TODO: SQL is missing for portfolio since inception date return * TODO: Java calculates max drawdown even there is no nav * TODO: Java ytd worst month could be wrong (i.e. portfolio 166002, 2024-03) * TODO: arith_mean & gerom_mean ARE NOT TESTED * */ def cal_basic_performance(entity_info, ret, trailing_month) { // accumulate 版的 skewness, kurtosis, var, cvar 似乎都不对劲,只好找个笨办法来实现 if(trailing_month == 'incep') { // 需要至少6个数才计算标准差、峰度、偏度 t0 = SELECT price_date.max() AS price_date, nav, ret, ret.mean() AS arith_mean, (1+ret).prod().pow(1\count(entity_id))-1 AS geom_mean, iif(count(entity_id) > 5, std(ret), null) AS std_dev, iif(count(entity_id) > 5, skew(ret, false), null) AS skewness, iif(count(entity_id) > 5, kurtosis(ret, false), null)-3 AS kurtosis, min(ret) AS wrst_month FROM ret WHERE ret > -1 GROUP BY entity_id CGROUP BY end_date ORDER BY entity_id, end_date; // 年化收益(给后面计算Calmar用) t0.addColumn(['trailing_ret', 'trailing_ret_a'], [DOUBLE, DOUBLE]); // MySQL 有bug导致首月ret_1m为空,所以用 prod(1+ret)-1算的有时不对 UPDATE t0 SET trailing_ret = nav\ini_value - 1, trailing_ret_a = iif(t0.end_date - ei.inception_date.month() > 12, (nav\ini_value).pow(12\(t0.end_date - ei.inception_date.month())) - 1, nav\ini_value - 1) FROM ej(t0, entity_info ei, 'entity_id'); // 不会用上面的办法算最大回撤, VaR, CVaR t_var = SELECT entity_id, end_date, ret, cummax(1 - nav \ cummax(nav)) AS drawdown, - cumpercentile(ret, 5, 'linear') AS var FROM ret WHERE ret > -1 CONTEXT BY entity_id; t_cvar = SELECT entity_id, end_date, drawdown, var, - cumavg(iif(ret <= -var, ret, null)) AS cvar FROM t_var CONTEXT BY entity_id; t1 = SELECT t0.*, t_cvar.drawdown, t_cvar.var, t_cvar.cvar FROM t0 LEFT JOIN t_cvar ON t0.entity_id = t_cvar.entity_id AND t0.end_date = t_cvar.end_date ORDER BY t0.entity_id, t0.end_date; } else if(trailing_month == 'ytd') { t1 = SELECT entity_id, end_date, price_date.cummax() AS price_date, nav, ret, ret.cumavg() AS arith_mean, (1+ret).cumprod().pow(1\cumcount(entity_id))-1 AS geom_mean, cumprod(1+ret)-1 AS trailing_ret, cumprod(1+ret)-1 AS trailing_ret_a, // no need annulization for ytd iif(cumcount(entity_id) > 5, cumstd(ret), null) AS std_dev, iif(cumcount(entity_id) > 5, tmoving(skew{, false}, end_date, ret, 12), null) AS skewness, iif(cumcount(entity_id) > 5, tmoving(kurtosis{, false}, end_date, ret, 12)-3, null) AS kurtosis, cummin(ret) AS wrst_month, cummax(1 - nav \ cummax(nav)) AS drawdown FROM ret WHERE ret > -1 CONTEXT BY entity_id, end_date.year() ORDER BY entity_id, end_date; // trailing x month } else { // 先转成STRING,避免单字符被认为是CHAR而导致转整型出错的结果 win = trailing_month$STRING$INT; t1 = SELECT entity_id, end_date, price_date.mmax(win) AS price_date, nav, ret, ret.mavg(win) AS arith_mean, (1+ret).mprod(win).pow(1\mcount(entity_id, win))-1 AS geom_mean, mprod(1+ret, win)-1 AS trailing_ret, iif(win > 12, mprod(1+ret, win).pow(12\win)-1, mprod(1+ret, win)-1) AS trailing_ret_a, mstd(ret, win) AS std_dev, mskew(ret, win, false) AS skewness, mkurtosis(ret, win, false) - 3 AS kurtosis, mmin(ret, win) AS wrst_month, moving(maxDrawdown, nav, win) AS drawdown, moving(aggVaR{, 'historical', 0.95}, ret, win) AS var, moving(aggCVaR{, 'historical', 0.95}, ret, win) AS cvar FROM ret WHERE ret > -1 CONTEXT BY entity_id ORDER BY entity_id, end_date; // price_date.mmax(win) 当行数不够 win 时会返回 null, 补回这些日期 UPDATE t1 SET t1.price_date = ret.price_date.max() FROM ej(t1, ret, ['entity_id', 'end_date']) WHERE t1.price_date IS NULL CONTEXT BY t1.entity_id, t1.end_date; } t1.addColumn('calmar', DOUBLE); UPDATE t1 SET calmar = iif(drawdown.round(4) == 0, null, iif(trailing_ret_a\drawdown > 99999, null, trailing_ret_a\drawdown)); return t1; } /* * Lower Partial Moment * NOTE: risk free rate is used as Minimal Accepted Rate (MAR) here * */ def cal_LPM(ret, risk_free, trailing_month) { t = SELECT *, cumcount(entity_id) AS cnt FROM ret WHERE ret > -1 CONTEXT BY entity_id; if(trailing_month == 'incep') { lpm = SELECT entity_id, end_date, iif(cumcount(end_date) > 5, (cumsum (iif(rfr.ret > t.ret, rfr.ret - t.ret, 0)) \ cumcount(end_date)).pow(1\1), null) AS lpm1, iif(cumcount(end_date) > 5, (cumsum2 (iif(rfr.ret > t.ret, rfr.ret - t.ret, 0)) \ cumcount(end_date)).pow(1\2), null) AS lpm2, iif(cumcount(end_date) > 5, (cumsum3 (iif(rfr.ret > t.ret, rfr.ret - t.ret, 0)) \ cumcount(end_date)).pow(1\3), null) AS lpm3 FROM t INNER JOIN risk_free rfr ON t.end_date = rfr.end_date CONTEXT BY entity_id ORDER BY entity_id, end_date; } else if(trailing_month == 'ytd') { lpm = SELECT entity_id, end_date, iif(cumcount(end_date) > 5, (cumsum (iif(rfr.ret > t.ret, rfr.ret - t.ret, 0)) \ cumcount(end_date)).pow(1\1), null) AS lpm1, iif(cumcount(end_date) > 5, (cumsum2 (iif(rfr.ret > t.ret, rfr.ret - t.ret, 0)) \ cumcount(end_date)).pow(1\2), null) AS lpm2, iif(cumcount(end_date) > 5, (cumsum3 (iif(rfr.ret > t.ret, rfr.ret - t.ret, 0)) \ cumcount(end_date)).pow(1\3), null) AS lpm3 FROM t INNER JOIN risk_free rfr ON t.end_date = rfr.end_date CONTEXT BY entity_id, end_date.year() ORDER BY entity_id, end_date; } else { win = trailing_month$STRING$INT; lpm = SELECT t.entity_id, t.end_date, (msum (iif(rfr.ret > t.ret, rfr.ret - t.ret, 0), win) \ mcount(end_date, win)).pow(1\1) AS lpm1, (msum2(iif(rfr.ret > t.ret, rfr.ret - t.ret, 0), win) \ mcount(end_date, win)).pow(1\2) AS lpm2, (moving(sum3, iif(rfr.ret > t.ret, rfr.ret - t.ret, 0), win) \ mcount(end_date, win)).pow(1\3) AS lpm3 FROM t INNER JOIN risk_free rfr ON t.end_date = rfr.end_date CONTEXT BY t.entity_id ORDER BY entity_id, end_date; } return lpm; } /* * Downside Devision, Omega Ratio, Sortino Ratio, Kappa Ratio * * TODO: Java version of Downside Deviation (LPM2) uses cnt-1 as denominator to calculate mean excess return, which might be wrong * Java version of Omega could be wrong because Java uses annualized returns and cnt-1 * Java'version of Kappa could be very wrong * */ def cal_omega_sortino_kappa(ret, risk_free, trailing_month) { lpm = cal_LPM(ret, risk_free, trailing_month); if(trailing_month == 'incep') { tb = SELECT t.entity_id, t.end_date, l.lpm2 AS ds_dev, iif(l.lpm1.round(4) == 0, NULL, (t.ret - rfr.ret ).cumavg() \ l.lpm1 + 1) AS omega, iif(l.lpm2.round(4) == 0, NULL, (t.ret - rfr.ret ).cumavg() \ l.lpm2) AS sortino, iif(l.lpm3.round(4) == 0, NULL, (t.ret - rfr.ret ).cumavg() \ l.lpm3) AS kappa FROM ret t INNER JOIN lpm l ON t.entity_id = l.entity_id AND t.end_date = l.end_date INNER JOIN risk_free rfr ON t.end_date = rfr.end_date WHERE t.ret > -1 CONTEXT BY t.entity_id; } else if(trailing_month == 'ytd') { tb = SELECT t.entity_id, t.end_date, l.lpm2 AS ds_dev, iif(l.lpm1.round(4) == 0, NULL, (t.ret - rfr.ret ).cumavg() \ l.lpm1 + 1) AS omega, iif(l.lpm2.round(4) == 0, NULL, (t.ret - rfr.ret ).cumavg() \ l.lpm2) AS sortino, iif(l.lpm3.round(4) == 0, NULL, (t.ret - rfr.ret ).cumavg() \ l.lpm3) AS kappa FROM ret t INNER JOIN lpm l ON t.entity_id = l.entity_id AND t.end_date = l.end_date INNER JOIN risk_free rfr ON t.end_date = rfr.end_date WHERE t.ret > -1 CONTEXT BY t.entity_id, t.end_date.year(); } else { win = trailing_month$STRING$INT; tb = SELECT t.entity_id, t.end_date, l.lpm2 AS ds_dev, iif(l.lpm1.round(4) == 0, NULL, (t.ret - rfr.ret ).mavg(win) \ l.lpm1 + 1) AS omega, iif(l.lpm2.round(4) == 0, NULL, (t.ret - rfr.ret ).mavg(win) \ l.lpm2) AS sortino, iif(l.lpm3.round(4) == 0, NULL, (t.ret - rfr.ret ).mavg(win) \ l.lpm3) AS kappa FROM ret t INNER JOIN lpm l ON t.entity_id = l.entity_id AND t.end_date = l.end_date INNER JOIN risk_free rfr ON t.end_date = rfr.end_date WHERE t.ret > -1 CONTEXT BY t.entity_id; } return tb; } /* * Winning Ratio, Tracking Error, Information Ratio * * NOTE: mcount is very unique in mFun, because it doesn't support minPeriods(BUG?), while others default minPeriods = window. * As a result, we have to delete records having winrate but no tracking error and info ratio for the sake of consisence * * TODO: Win Rate incept is off, because Java incorrectly takes all end_date as denominator even when benchmark has no price * Information Ratio is way off! * Not sure how to describe a giant number("inf"), for now 999 is used */ def cal_benchmark_tracking(ret, benchmarks, bmk_ret, trailing_month) { if(trailing_month == 'incep') { t0 = SELECT t.entity_id, t.end_date, t.price_date, t.ret, bmk.ret AS ret_bmk, t.entity_id.cumcount() AS cnt, t.ret - bmk.ret AS exc_ret, bm.benchmark_id FROM ret t INNER JOIN benchmarks bm ON t.entity_id = bm.entity_id AND t.end_date = bm.end_date INNER JOIN bmk_ret bmk ON t.end_date = bmk.end_date AND bm.benchmark_id = bmk.benchmark_id WHERE t.ret > -1 AND bmk.ret > -1 CONTEXT BY t.entity_id, bm.benchmark_id; t = SELECT entity_id, end_date, benchmark_id, iif(cnt > 5, cumcount(iif(exc_ret >= 0, 1, null)) \ cnt, null) AS winrate, iif(cnt > 5, exc_ret.cumstd(), null) AS track_error, iif(cnt > 5, iif(exc_ret.cumstd() == 0, null, exc_ret.cumavg() \ exc_ret.cumstd()), 5) AS info FROM t0 CONTEXT BY entity_id, benchmark_id ORDER BY entity_id, end_date, benchmark_id; } else if(trailing_month == 'ytd') { t0 = SELECT t.entity_id, t.end_date, t.price_date, t.ret, bmk.ret AS ret_bmk, t.entity_id.cumcount() AS cnt, t.ret - bmk.ret AS exc_ret, bm.benchmark_id FROM ret t INNER JOIN benchmarks bm ON t.entity_id = bm.entity_id AND t.end_date = bm.end_date INNER JOIN bmk_ret bmk ON t.end_date = bmk.end_date AND bm.benchmark_id = bmk.benchmark_id WHERE t.ret > -1 AND bmk.ret > -1 CONTEXT BY t.entity_id, bm.benchmark_id, t.end_date.year(); t = SELECT entity_id, end_date, benchmark_id, iif(cnt > 5, cumcount(iif(exc_ret >= 0, 1, null)) \ cnt, null) AS winrate, iif(cnt > 5, exc_ret.cumstd(), null) AS track_error, iif(cnt > 5, iif(exc_ret.cumstd() == 0, null, exc_ret.cumavg() \ exc_ret.cumstd()), null) AS info FROM t0 CONTEXT BY entity_id, benchmark_id, end_date.year() ORDER BY entity_id, end_date, benchmark_id; } else { win = trailing_month$STRING$INT; t0 = SELECT t.entity_id, t.end_date, t.price_date, t.ret, bmk.ret AS ret_bmk, t.entity_id.mcount(win) AS cnt, t.ret - bmk.ret AS exc_ret, bm.benchmark_id FROM ret t INNER JOIN benchmarks bm ON t.entity_id = bm.entity_id AND t.end_date = bm.end_date INNER JOIN bmk_ret bmk ON t.end_date = bmk.end_date AND bm.benchmark_id = bmk.benchmark_id WHERE t.ret > -1 AND bmk.ret > -1 CONTEXT BY t.entity_id, bm.benchmark_id; t = SELECT entity_id, end_date, benchmark_id, iif(cnt > 5, mcount(iif(exc_ret >= 0, 1, null), win) \ cnt, null) AS winrate, iif(cnt > 5, mstd(exc_ret, win), null) AS track_error, iif(cnt > 5, iif(mstd(exc_ret, win) == 0, null, mavg(exc_ret, win) \ mstd(exc_ret, win)), null) AS info FROM t0 CONTEXT BY entity_id, benchmark_id ORDER BY entity_id, end_date, benchmark_id; } return t; //SELECT * FROM t WHERE track_error IS NOT NULL; } /* * Alpha & Beta * NOTE: alpha of Java version is wrong because it doesn't use risk free rate */ def cal_alpha_beta(ret, benchmarks, bmk_ret, risk_free, trailing_month) { t = SELECT t.entity_id, t.end_date, t.ret, bm.benchmark_id, bmk.ret AS ret_bmk FROM ret t INNER JOIN benchmarks bm ON t.entity_id = bm.entity_id AND t.end_date = bm.end_date INNER JOIN bmk_ret bmk ON t.end_date = bmk.end_date AND bm.benchmark_id = bmk.benchmark_id WHERE t.ret > -1 AND bmk.ret > -1; if(trailing_month == 'incep') { beta = SELECT entity_id, end_date, benchmark_id, iif(cumcount(end_date) > 5, ret.cumbeta(ret_bmk), null) AS beta FROM t CONTEXT BY entity_id, benchmark_id; alpha = SELECT t.entity_id, t.end_date, t.benchmark_id, beta.beta AS beta, (t.ret - rfr.ret).cumavg() - beta.beta * (t.ret_bmk - rfr.ret).cumavg() AS alpha FROM t INNER JOIN beta beta ON t.entity_id = beta.entity_id AND t.benchmark_id = beta.benchmark_id AND t.end_date = beta.end_date INNER JOIN risk_free rfr ON t.end_date = rfr.end_date CONTEXT BY t.entity_id, t.benchmark_id ORDER BY t.entity_id, t.end_date, t.benchmark_id; } else if(trailing_month == 'ytd') { beta = SELECT entity_id, end_date, benchmark_id, iif(cumcount(end_date) > 5, ret.cumbeta(ret_bmk), null) AS beta FROM t CONTEXT BY entity_id, benchmark_id, end_date.year(); alpha = SELECT t.entity_id, t.end_date, t.benchmark_id, beta.beta AS beta, (t.ret - rfr.ret).cumavg() - beta.beta * (t.ret_bmk - rfr.ret).cumavg() AS alpha FROM t INNER JOIN beta beta ON t.entity_id = beta.entity_id AND t.benchmark_id = beta.benchmark_id AND t.end_date = beta.end_date INNER JOIN risk_free rfr ON t.end_date = rfr.end_date CONTEXT BY t.entity_id, t.benchmark_id, t.end_date.year() ORDER BY t.entity_id, t.end_date, t.benchmark_id; } else { win = trailing_month$STRING$INT; beta = SELECT entity_id, end_date, benchmark_id, iif(mcount(end_date, win) > 5, ret.mbeta(ret_bmk, win), null) AS beta FROM t CONTEXT BY entity_id, benchmark_id; alpha = SELECT t.entity_id, t.end_date, t.benchmark_id, beta.beta AS beta, (t.ret - rfr.ret).mavg(win) - beta.beta * (t.ret_bmk - rfr.ret).mavg(win) AS alpha FROM t INNER JOIN beta beta ON t.entity_id = beta.entity_id AND t.benchmark_id = beta.benchmark_id AND t.end_date = beta.end_date INNER JOIN risk_free rfr ON t.end_date = rfr.end_date CONTEXT BY t.entity_id, t.benchmark_id ORDER BY t.entity_id, t.end_date, t.benchmark_id; } return alpha; } /* * Upside/Down Capture Return/Ratio * * TODO: trailing x month values are way off! * */ def cal_capture_ratio(ret, benchmarks, bmk_ret, trailing_month) { if(trailing_month == 'incep') { t1 = SELECT t.entity_id, t.end_date, (1 + iif(bmk.ret >= 0, t.ret, 0)).cumprod() AS upside_ret, (1 + iif(bmk.ret >= 0, bmk.ret, 0)).cumprod() AS bmk_upside_ret, cumcount(iif(bmk.ret >= 0, 1, null)) AS bmk_upside_cnt, (1 + iif(bmk.ret < 0, t.ret, 0)).cumprod() AS downside_ret, (1 + iif(bmk.ret < 0, bmk.ret, 0)).cumprod() AS bmk_downside_ret, cumcount(iif(bmk.ret < 0, 1, null)) AS bmk_downside_cnt, bm.benchmark_id FROM ret t INNER JOIN benchmarks bm ON t.entity_id = bm.entity_id AND t.end_date = bm.end_date INNER JOIN bmk_ret bmk ON t.end_date = bmk.end_date AND bm.benchmark_id = bmk.benchmark_id AND t.end_date = bmk.end_date WHERE t.ret > -1 AND bmk.ret > -1 CONTEXT BY t.entity_id, bm.benchmark_id; } else if(trailing_month == 'ytd') { t1 = SELECT t.entity_id, t.end_date, (1 + iif(bmk.ret >= 0, t.ret, 0)).cumprod() AS upside_ret, (1 + iif(bmk.ret >= 0, bmk.ret, 0)).cumprod() AS bmk_upside_ret, cumcount(iif(bmk.ret >= 0, 1, null)) AS bmk_upside_cnt, (1 + iif(bmk.ret < 0, t.ret, 0)).cumprod() AS downside_ret, (1 + iif(bmk.ret < 0, bmk.ret, 0)).cumprod() AS bmk_downside_ret, cumcount(iif(bmk.ret < 0, 1, null)) AS bmk_downside_cnt, bm.benchmark_id FROM ret t INNER JOIN benchmarks bm ON t.entity_id = bm.entity_id AND t.end_date = bm.end_date INNER JOIN bmk_ret bmk ON t.end_date = bmk.end_date AND bm.benchmark_id = bmk.benchmark_id AND t.end_date = bmk.end_date WHERE t.ret > -1 AND bmk.ret > -1 CONTEXT BY t.entity_id, bm.benchmark_id, t.end_date.year(); } else { win = trailing_month$STRING$INT; t1 = SELECT t.entity_id, t.end_date, (1 + iif(bmk.ret >= 0, t.ret, 0)).mprod(win) AS upside_ret, (1 + iif(bmk.ret >= 0, bmk.ret, 0)).mprod(win) AS bmk_upside_ret, mcount(iif(bmk.ret >= 0, 1, null), win) AS bmk_upside_cnt, (1 + iif(bmk.ret < 0, t.ret, 0)).mprod(win) AS downside_ret, (1 + iif(bmk.ret < 0, bmk.ret, 0)).mprod(win) AS bmk_downside_ret, mcount(iif(bmk.ret < 0, 1, null), win) AS bmk_downside_cnt, bm.benchmark_id FROM ret t INNER JOIN benchmarks bm ON t.entity_id = bm.entity_id AND t.end_date = bm.end_date INNER JOIN bmk_ret bmk ON t.end_date = bmk.end_date AND bm.benchmark_id = bmk.benchmark_id AND t.end_date = bmk.end_date WHERE t.ret > -1 AND bmk.ret > -1 CONTEXT BY t.entity_id, bm.benchmark_id; } t = SELECT entity_id, end_date, benchmark_id, iif(t1.bmk_upside_cnt == 0, NULL, t1.upside_ret.pow(1 \ t1.bmk_upside_cnt)-1) AS upside_capture_ret, iif(t1.bmk_upside_cnt == 0, NULL, (t1.upside_ret.pow(1 \ t1.bmk_upside_cnt)-1)/(t1.bmk_upside_ret.pow(1 \ t1.bmk_upside_cnt)-1)) AS upside_capture_ratio, iif(t1.bmk_downside_cnt == 0, NULL, t1.downside_ret.pow(1 \ t1.bmk_downside_cnt)-1) AS downside_capture_ret, iif(t1.bmk_downside_cnt == 0, NULL, (t1.downside_ret.pow(1 \ t1.bmk_downside_cnt)-1)/(t1.bmk_downside_ret.pow(1 \ t1.bmk_downside_cnt)-1)) AS downside_capture_ratio FROM t1 ORDER BY entity_id, benchmark_id, end_date; return t; } /* * Sharpe Ratio * NOTE: Java version is noncompliant-GIPS annulized number */ def cal_sharpe(ret, std_dev, risk_free, trailing_month) { if(trailing_month == 'incep') { sharpe = SELECT t.entity_id, t.end_date, iif(std.std_dev.round(4) == 0, null, (t.ret - rfr.ret).cumavg() \ std.std_dev) AS sharpe FROM ret t INNER JOIN std_dev std ON t.entity_id = std.entity_id AND t.end_date = std.end_date INNER JOIN risk_free rfr ON t.end_date = rfr.end_date WHERE std.std_dev.round(4) <> 0 AND t.ret > -1 CONTEXT BY t.entity_id; } else if(trailing_month == 'ytd') { sharpe = SELECT t.entity_id, t.end_date, iif(std.std_dev.round(4) ==0, null, (t.ret - rfr.ret).cumavg() \ std.std_dev) AS sharpe FROM ret t INNER JOIN std_dev std ON t.entity_id = std.entity_id AND t.end_date = std.end_date INNER JOIN risk_free rfr ON t.end_date = rfr.end_date WHERE std.std_dev.round(4) <> 0 AND t.ret > -1 CONTEXT BY t.entity_id, t.end_date.year(); } else { win = trailing_month$STRING$INT; sharpe = SELECT t.entity_id, t.end_date, iif(std.std_dev.round(4) == 0, null, (t.ret - rfr.ret).mavg(win) \ std.std_dev) AS sharpe FROM ret t INNER JOIN std_dev std ON t.entity_id = std.entity_id AND t.end_date = std.end_date INNER JOIN risk_free rfr ON t.end_date = rfr.end_date WHERE std.std_dev.round(4) <> 0 AND t.ret > -1 CONTEXT BY t.entity_id; } return sharpe; } /* * Treynor Ratio = annulized excess return / beta * * TODO: ytd is off because Java uses non-GIPS rule to annulize return */ def cal_treynor(ret, risk_free, beta, trailing_month) { if(trailing_month == 'incep') { t = SELECT *, cumcount(entity_id) AS cnt FROM ret t INNER JOIN risk_free rfr ON t.end_date = rfr.end_date WHERE t.ret > -1 AND rfr.ret > -1 CONTEXT BY t.entity_id; treynor = SELECT t.entity_id, t.end_date, beta.benchmark_id, iif(beta.beta.round(4) == 0, NULL, ((1 + t.ret).cumprod().pow(12\iif(t.cnt<12, 12, t.cnt)) - (1 + t.rfr_ret).cumprod().pow(12\iif(t.cnt<12, 12, t.cnt))) \ beta.beta) AS treynor FROM t INNER JOIN beta AS beta ON t.entity_id = beta.entity_id AND t.end_date = beta.end_date CONTEXT BY t.entity_id, beta.benchmark_id; } else if(trailing_month == 'ytd') { t = SELECT *, cumcount(entity_id) AS cnt FROM ret t INNER JOIN risk_free rfr ON t.end_date = rfr.end_date WHERE t.ret > -1 AND rfr.ret > -1 CONTEXT BY t.entity_id, t.end_date.year(); treynor = SELECT t.entity_id, t.end_date, beta.benchmark_id, iif(beta.beta.round(4) == 0, NULL, ((1 + t.ret).cumprod().pow(12\iif(t.cnt<12, 12, t.cnt)) - (1 + t.rfr_ret).cumprod().pow(12\iif(t.cnt<12, 12, t.cnt))) \ beta.beta) AS treynor FROM t INNER JOIN beta AS beta ON t.entity_id = beta.entity_id AND t.end_date = beta.end_date CONTEXT BY t.entity_id, beta.benchmark_id, t.end_date.year(); } else { win = trailing_month$STRING$INT; t = SELECT *, mcount(entity_id, win) AS cnt FROM ret t INNER JOIN risk_free rfr ON t.end_date = rfr.end_date WHERE t.ret > -1 AND rfr.ret > -1 CONTEXT BY t.entity_id; treynor = SELECT t.entity_id, t.end_date, beta.benchmark_id, iif(beta.beta.round(4) == 0, NULL, ((1 + t.ret).mprod(win).pow(12\iif(t.cnt<12, 12, t.cnt)) - (1 + t.rfr_ret).mprod(win).pow(12\iif(t.cnt<12, 12, t.cnt))) \ beta.beta) AS treynor FROM t INNER JOIN beta AS beta ON t.entity_id = beta.entity_id AND t.end_date = beta.end_date CONTEXT BY t.entity_id, beta.benchmark_id; } return treynor; } /* * Jensen's Alpha * TODO: the result is slightly off */ def cal_jensen(ret, bmk_ret, risk_free, beta, trailing_month) { if(trailing_month == 'incep') { jensen = SELECT t.entity_id, t.end_date, t.ret.cumavg() - rfr.ret.cumavg() - beta.beta * (bmk.ret.cumavg() - rfr.ret.cumavg()) AS jensen, beta.benchmark_id FROM ret t INNER JOIN beta beta ON t.entity_id = beta.entity_id AND t.end_date = beta.end_date INNER JOIN bmk_ret bmk ON t.end_date = bmk.end_date AND beta.benchmark_id = bmk.benchmark_id INNER JOIN risk_free rfr ON t.end_date = rfr.end_date WHERE t.ret > -1 CONTEXT BY t.entity_id, beta.benchmark_id; } else if(trailing_month == 'ytd') { jensen = SELECT t.entity_id, t.end_date, t.ret.cumavg() - rfr.ret.cumavg() - beta.beta * (bmk.ret.cumavg() - rfr.ret.cumavg()) AS jensen, beta.benchmark_id FROM ret t INNER JOIN beta beta ON t.entity_id = beta.entity_id AND t.end_date = beta.end_date INNER JOIN bmk_ret bmk ON t.end_date = bmk.end_date AND beta.benchmark_id = bmk.benchmark_id INNER JOIN risk_free rfr ON t.end_date = rfr.end_date WHERE t.ret > -1 CONTEXT BY t.entity_id, beta.benchmark_id, t.end_date.year(); } else { win = trailing_month$STRING$INT; jensen = SELECT t.entity_id, t.end_date, t.ret.mavg(win) - rfr.ret.mavg(win) - beta.beta * (bmk.ret.mavg(win) - rfr.ret.mavg(win)) AS jensen, beta.benchmark_id FROM ret t INNER JOIN beta beta ON t.entity_id = beta.entity_id AND t.end_date = beta.end_date INNER JOIN bmk_ret bmk ON t.end_date = bmk.end_date AND beta.benchmark_id = bmk.benchmark_id INNER JOIN risk_free rfr ON t.end_date = rfr.end_date WHERE t.ret > -1 CONTEXT BY t.entity_id, beta.benchmark_id; } return jensen; } /* * Modigliani Modigliani Measure (M2) * NOTE: M2 = sharpe * std(benchmark) + risk_free_rate * NOTE: Java version is noncompliant-GIPS annulized number */ def cal_m2(ret, benchmarks, bmk_ret, risk_free, trailing_month) { if(trailing_month == 'incep') { m2 = SELECT t.entity_id, t.end_date, iif(t.entity_id.cumcount() > 5, iif(t.ret.cumstd().round(4) == 0, NULL, (t.ret - rfr.ret).cumavg() \ t.ret.cumstd() * bmk.ret.cumstd() + rfr.ret.cumavg()), NULL) AS m2, bm.benchmark_id FROM ret t INNER JOIN benchmarks bm ON t.entity_id = bm.entity_id AND t.end_date = bm.end_date INNER JOIN bmk_ret bmk ON t.end_date = bmk.end_date AND bm.benchmark_id = bmk.benchmark_id INNER JOIN risk_free rfr ON t.end_date = rfr.end_date WHERE t.ret > -1 CONTEXT BY t.entity_id, bm.benchmark_id; } else if(trailing_month == 'ytd') { m2 = SELECT t.entity_id, t.end_date, iif(t.entity_id.cumcount() > 5, iif(t.ret.cumstd().round(4) == 0, NULL, (t.ret - rfr.ret).cumavg() \ t.ret.cumstd() * bmk.ret.cumstd() + rfr.ret.cumavg()), NULL) AS m2, bm.benchmark_id FROM ret t INNER JOIN benchmarks bm ON t.entity_id = bm.entity_id AND t.end_date = bm.end_date INNER JOIN bmk_ret bmk ON t.end_date = bmk.end_date AND bm.benchmark_id = bmk.benchmark_id INNER JOIN risk_free rfr ON t.end_date = rfr.end_date WHERE t.ret > -1 CONTEXT BY t.entity_id, bm.benchmark_id, t.end_date.year(); } else { win = trailing_month$STRING$INT; m2 = SELECT t.entity_id, t.end_date, iif(t.entity_id.mcount(win) > 5, iif(t.ret.mstd(win).round(4) == 0, NULL, (t.ret - rfr.ret).mavg(win) \ t.ret.mstd(win) * bmk.ret.mstd(win) + rfr.ret.mavg(win)), NULL) AS m2, bm.benchmark_id FROM ret t INNER JOIN benchmarks bm ON t.entity_id = bm.entity_id AND t.end_date = bm.end_date INNER JOIN bmk_ret bmk ON t.end_date = bmk.end_date AND bm.benchmark_id = bmk.benchmark_id INNER JOIN risk_free rfr ON t.end_date = rfr.end_date WHERE t.ret > -1 CONTEXT BY t.entity_id, bm.benchmark_id; } return m2; } /* * Morningstar Return, Morningstar Risk-Adjusted Return * * TODO: Tax and loads are NOT taken care of * TODO: Assume Chinese methodology using 3, 5, 10 as number of traling years * TODO: need verify with reliable results * * NOTE: Morningstar methodology requires monthly return for calculation, so that "12" is hard-coded here * * */ def cal_ms_return(ret, risk_free, trailing_month) { win = trailing_month$STRING$INT; r = SELECT t.entity_id, t.end_date, iif(t.end_date.mmax(win) == t.end_date.mmin(win), NULL, ((1 + t.ret)\(1 + rfr.ret)).mprod(win).pow(12\(1+t.end_date.mmax(win) - t.end_date.mmin(win)))-1) AS ms_ret_a, ((1 + t.ret)\(1 + rfr.ret)).pow(-2).mavg(win).pow(-12/2)-1 AS ms_rar_a FROM ret t INNER JOIN risk_free rfr ON t.end_date = rfr.end_date WHERE t.ret > -1 CONTEXT BY t.entity_id; r.addColumn('ms_risk_a', DOUBLE); UPDATE r SET ms_risk_a = ms_ret_a - ms_rar_a; return r; } /* * 有效主体-基准对应表 * * @param benchmarks
: entity-benchmark 的对应关系表 NEED COLUMNS: entity_id, end_date, benchmark_id * @param end_day : * @param trailing_month : * @param isEffectiveOnly : false时与Java相同; true:多了个限制条件:如果区间内有效基准数少于1/2,不做计算 * 比如过去12个月中某BFI只出现2次,小于需要的6次,此BFI不参与 trailing 1 year 计算 * */ def get_effective_benchmarks(benchmarks, end_day, trailing_month, isEffectiveOnly) { min_pct = 0.5; if(isEffectiveOnly) { t_dates = SELECT DISTINCT entity_id, end_date FROM benchmarks WHERE end_date <= end_day.month(); if(trailing_month == 'incep') { t = SELECT entity_id, end_date, end_date.cumcount() AS cnt FROM t_dates CONTEXT BY entity_id; bmk = SELECT bmk.* FROM benchmarks bmk INNER JOIN t ON bmk.entity_id = t.entity_id AND bmk.end_date = t.end_date CONTEXT BY bmk.entity_id, bmk.benchmark_id HAVING bmk.end_date.cumcount() >= t.cnt * min_pct; } else if(trailing_month == 'ytd') { t = SELECT entity_id, end_date, end_date.cumcount() AS cnt FROM t_dates CONTEXT BY entity_id, end_date.year(); bmk = SELECT bmk.* FROM benchmarks bmk INNER JOIN t ON bmk.entity_id = t.entity_id AND bmk.end_date = t.end_date CONTEXT BY entity_id, benchmark_id, end_date.year() HAVING bmk.end_date.cumcount() >= t.cnt * min_pct; } else { win = trailing_month$STRING$INT; t = SELECT entity_id, end_date, end_date.mcount(win) AS cnt FROM t_dates CONTEXT BY entity_id; bmk = SELECT bmk.* FROM benchmarks bmk INNER JOIN t ON bmk.entity_id = t.entity_id AND bmk.end_date = t.end_date CONTEXT BY entity_id, benchmark_id HAVING bmk.end_date.mcount(win) >= t.cnt * min_pct; } } else { bmk = SELECT * FROM benchmarks WHERE end_date <= end_day.month(); } return bmk; } /* * Calculation for monthly indicators which need benchmark * * @param entity_info
: xxx_information表,NEED COLUMNS entity_id, inception_date * @param benchmark_mapping
: entity-benchmark mapping table, NEED COLUMNS entity_id, end_date, benchmark_id * @param end_day ; * @param tb_ret
: 收益表,NEED COLUMNS entity_id, price_dat, end_date, nav * @param index_ret
: historical benchmark return table, NEED COLUMNS fund_id, end_date, ret * @param risk_free
: historical risk free rate table, NEED COLUMNS fund_id, end_date, ret * @param month : trailing x month * * @return: indicators table * * * Create 20240904 模仿Java & python代码在Dolphin中实现,具体计算逻辑可能会有不同 Joey * TODO: some datapoints require more data, we need a way to disable calculation for them * */ def cal_indicators_with_benchmark(entity_info, benchmark_mapping, end_day, tb_ret, index_ret, risk_free, month) { r = table(1000:0, ['entity_id', 'end_date', 'benchmark_id', 'winrate', 'track_error', 'info', 'beta', 'alpha', 'treynor', 'jensen', 'm2', 'upside_capture_ret', 'upside_capture_ratio', 'downside_capture_ret', 'downside_capture_ratio', 'alpha_a', 'jensen_a', 'track_error_a', 'info_a', 'm2_a'], [entity_info.entity_id[0].type(), MONTH, SYMBOL, DOUBLE, DOUBLE, DOUBLE, DOUBLE, DOUBLE, DOUBLE, DOUBLE, DOUBLE, DOUBLE, DOUBLE, DOUBLE, DOUBLE, DOUBLE, DOUBLE, DOUBLE, DOUBLE, DOUBLE]); if(entity_info.isVoid() || entity_info.size() == 0 || benchmark_mapping.isVoid() || benchmark_mapping.size() == 0 ) return r; if(tb_ret.isVoid() || tb_ret.size() == 0 || index_ret.isVoid() || index_ret.size() == 0 || risk_free.isVoid() || risk_free.size() == 0 ) return r; // sorting for correct first() and last() value ret = SELECT * FROM tb_ret WHERE ret > -1 AND end_date <= end_day.month() ORDER BY entity_id, price_date; // get the effective benchmarks benchmarks = get_effective_benchmarks(benchmark_mapping, end_day, month, true); if(ret.isVoid() || ret.size() == 0 || benchmarks.isVoid() || benchmarks.size() == 0) return r; // alpha, beta alpha_beta = cal_alpha_beta(ret, benchmarks, index_ret, risk_free, month); // 胜率、跟踪误差、信息比率 bmk_tracking = cal_benchmark_tracking(ret, benchmarks, index_ret, month); // 特雷诺 treynor = cal_treynor(ret, risk_free, alpha_beta, month); // 詹森指数 jensen = cal_jensen(ret, index_ret, risk_free, alpha_beta, month); // M2 m2 = cal_m2(ret, benchmarks, index_ret, risk_free, month); // 上下行捕获率、收益 capture_r = cal_capture_ratio(ret, benchmarks, index_ret, month); r = SELECT * FROM bmk_tracking a1 LEFT JOIN alpha_beta ON a1.entity_id = alpha_beta.entity_id AND a1.benchmark_id = alpha_beta.benchmark_id AND a1.end_date = alpha_beta.end_date LEFT JOIN treynor ON a1.entity_id = treynor.entity_id AND a1.benchmark_id = treynor.benchmark_id AND a1.end_date = treynor.end_date LEFT JOIN jensen ON a1.entity_id = jensen.entity_id AND a1.benchmark_id = jensen.benchmark_id AND a1.end_date = jensen.end_date LEFT JOIN m2 ON a1.entity_id = m2.entity_id AND a1.benchmark_id = m2.benchmark_id AND a1.end_date = m2.end_date LEFT JOIN capture_r ON a1.entity_id = capture_r.entity_id AND a1.benchmark_id = capture_r.benchmark_id AND a1.end_date = capture_r.end_date; // 年化各数据点 // GIPS RULE: NO annulization for data less than 1 year plainAnnu = get_annulization_multiple('m'); sqrtAnnu = sqrt(get_annulization_multiple('m')); r.addColumn(['alpha_a', 'jensen_a', 'track_error_a', 'info_a', 'm2_a'], [DOUBLE, DOUBLE, DOUBLE, DOUBLE, DOUBLE]); UPDATE r SET alpha_a = alpha * iif(end_date - inception_date.month() > 12, plainAnnu, 1), jensen_a = jensen * iif(end_date - inception_date.month() > 12, plainAnnu, 1), track_error_a = track_error * iif(end_date - inception_date.month() > 12, sqrtAnnu, 1), info_a = info * iif(end_date - inception_date.month() > 12, sqrtAnnu, 1), m2_a = m2 * iif(end_date - inception_date.month() > 12, plainAnnu, 1) FROM ej(r, entity_info, 'entity_id'); return r; } /* * Monthly standard indicator calculation * * @param entity_info
: * @param benchmarks
: entity-benchmark mapping table * @param end_day : * @param tb_ret
: 收益表,NEED COLUMNS entity_id, price_dat, end_date, nav * @param benchmark_ret
: historical benchmark return table, NEED COLUMNS fund_id, end_date, ret * @param risk_free
: historical risk free rate table, NEED COLUMNS fund_id, end_date, ret * @param month : * * @return: indicators table * * TODO: 目前只能使用单一无风险利率,无法根据基金信息自由选择更匹配的指数 * * Create 20240904 模仿Java & python代码在Dolphin中实现,具体计算逻辑可能会有不同 Joey * */ def cal_indicators(entity_info, benchmarks, end_day, tb_ret, benchmark_ret, risk_free, month) { if(entity_info.isVoid() || entity_info.size() == 0 || benchmarks.isVoid() || benchmarks.size() == 0 ) return null; if(tb_ret.isVoid() || tb_ret.size() == 0 || benchmark_ret.isVoid() || benchmark_ret.size() == 0 || risk_free.isVoid() || risk_free.size() == 0 ) return null; // sorting for correct first() and last() value ret = SELECT * FROM tb_ret WHERE end_date <= end_day.month() ORDER BY entity_id, price_date; // 有数据缺失时要插入相应的月份 tmp_dates = SELECT entity_id, ret.price_date.min() AS first_date, ret.price_date.max() AS last_date FROM ret GROUP BY entity_id; all_monthend = temporalSeq(ret.price_date.min(), ret.price_date.max(), 'M'); t_all_month = table(all_monthend.month() AS end_date, all_monthend AS price_date); t_entity_all_month = SELECT entity_id, end_date, price_date FROM cj(tmp_dates, t_all_month) WHERE t_all_month.price_date >= tmp_dates.first_date AND t_all_month.price_date <= tmp_dates.last_date; INSERT INTO ret SELECT entity_id, end_date, price_date, double(NULL) AS nav, 0 AS ret FROM t_entity_all_month WHERE NOT EXISTS ( SELECT * FROM ret r WHERE r.entity_id = t_entity_all_month.entity_id AND r.end_date = t_entity_all_month.end_date); ret.sortBy!(['entity_id', 'price_date']); ret.nav.bfill!(); // 根据净值计算收益,这里不能依赖数据库老数据 UPDATE ret SET ret = nav.ratios()-1 CONTEXT BY entity_id; // 收益、标准差、偏度、峰度、最大回撤、VaR, CVaR、卡玛比率 rtn = cal_basic_performance(entity_info, ret, month); // 夏普 sharpe = cal_sharpe(ret, rtn, risk_free, month); // 整合后的下行标准差、欧米伽、索提诺、卡帕 lpms = cal_omega_sortino_kappa(ret, risk_free, month); // 需要基准的指标们 indicator_with_benchmark = cal_indicators_with_benchmark(entity_info, benchmarks, end_day, ret, benchmark_ret, risk_free, month); r = SELECT * FROM rtn a1 LEFT JOIN sharpe ON a1.entity_id = sharpe.entity_id AND a1.end_date = sharpe.end_date LEFT JOIN lpms ON a1.entity_id = lpms.entity_id AND a1.end_date = lpms.end_date LEFT JOIN indicator_with_benchmark bmk ON a1.entity_id = bmk.entity_id AND a1.end_date = bmk.end_date; // 晨星收益和风险 if(month$STRING in ['36', '60', '120']) { ms = cal_ms_return(ret, risk_free, month); r = SELECT * FROM r LEFT JOIN ms ON r.entity_id = ms.entity_id AND r.end_date = ms.end_date; } // 年化各数据点 // GIPS RULE: NO annulization for data less than 1 year plainAnnu = get_annulization_multiple('m'); sqrtAnnu = sqrt(get_annulization_multiple('m')); r.addColumn(['std_dev_a', 'ds_dev_a', 'sharpe_a', 'sortino_a'], [DOUBLE, DOUBLE, DOUBLE, DOUBLE]); UPDATE r SET std_dev_a = std_dev * iif(end_date - inception_date.month() > 12, sqrtAnnu, 1), ds_dev_a = ds_dev * iif(end_date - inception_date.month() > 12, sqrtAnnu, 1), sharpe_a = sharpe * iif(end_date - inception_date.month() > 12, sqrtAnnu, 1), sortino_a = sortino * iif(end_date - inception_date.month() > 12, sqrtAnnu, 1) FROM ej(r, entity_info, 'entity_id'); return r; } /* * Calculate trailing 3m, 6m, ytd, 1y, 2y, 3y, 4y, 5y, 10y and since inception datapoints * * @param: func : the calculation function * @param: entity_info
: basic information of entity, NEED COLUMNS entity_id, inception_date * @param benchmarks
: entity-benchmark mapping table * @param: end_day : 计算截止日期 * @param: ret
: 收益表,NEED COLUMNS entity_id, price_dat, end_date, nav * @param bmk_ret
: historical benchmark return table, NEED COLUMNS fund_id, end_date, ret * @param risk_free
: historical risk free rate table, NEED COLUMNS fund_id, end_date, ret * * */ def cal_trailing(func, entity_info, benchmarks, end_day, tb_ret, bmk_ret, risk_free_rate ) { r_incep = null; r_ytd = null; r_3m = null; r_6m = null; r_1y = null; r_2y = null; r_3y = null; r_4y = null; r_5y = null; r_10y = null; // incep r_incep = func(entity_info, benchmarks, end_day, tb_ret, bmk_ret, risk_free_rate, 'incep'); // ytd r_ytd = func(entity_info, benchmarks, end_day, tb_ret, bmk_ret, risk_free_rate, 'ytd'); // 3m 只需要支持收益计算 r_3m = cal_basic_performance(entity_info, tb_ret, '3'); // 6m r_6m = func(entity_info, benchmarks, end_day, tb_ret, bmk_ret, risk_free_rate, '6'); // 1y r_1y = func(entity_info, benchmarks, end_day, tb_ret, bmk_ret, risk_free_rate, '12'); // 2y r_2y = func(entity_info, benchmarks, end_day, tb_ret, bmk_ret, risk_free_rate, '24'); // 3y r_3y = func(entity_info, benchmarks, end_day, tb_ret, bmk_ret, risk_free_rate, '36'); // 4y r_4y = func(entity_info, benchmarks, end_day, tb_ret, bmk_ret, risk_free_rate, '48'); // 5y r_5y = func(entity_info, benchmarks, end_day, tb_ret, bmk_ret, risk_free_rate, '60'); // 10y r_10y = func(entity_info, benchmarks, end_day, tb_ret, bmk_ret, risk_free_rate, '120'); return r_incep, r_ytd, r_3m, r_6m, r_1y, r_2y, r_3y, r_4y, r_5y, r_10y; } /* * Calculate trailing ytd, 3m, 6m, 1y, 2y, 3y, 4y, 5y, 10y and since inception standard indicators * * @param: entity_info
: basic information of entity, NEED COLUMNS entity_id, inception_date * @param benchmarks
: entity-benchmark mapping table * @param: ret
: 收益表,NEED COLUMNS entity_id, price_dat, end_date, nav * @param: end_day : 计算截止日期 * @param bmk_ret
: historical benchmark return table, NEED COLUMNS fund_id, end_date, ret * @param risk_free
: historical risk free rate table, NEED COLUMNS fund_id, end_date, ret * */ def cal_trailing_indicators(entity_info, benchmarks, end_day, tb_ret, bmk_ret, risk_free_rate) { return cal_trailing(cal_indicators, entity_info, benchmarks, end_day, tb_ret, bmk_ret, risk_free_rate); } /* * Calculate trailing ytd, 3m, 6m, 1y, 2y, 3y, 4y, 5y, 10y and since inception bfi indicators * * @param: entity_info
: basic information of entity, NEED COLUMNS entity_id, inception_date * @param benchmarks
: entity-benchmark mapping table * @param: ret
: 收益表,NEED COLUMNS entity_id, price_dat, end_date, nav * @param: end_day : 计算截止日期 * @param bmk_ret
: historical benchmark return table, NEED COLUMNS fund_id, end_date, ret * @param risk_free
: historical risk free rate table, NEED COLUMNS fund_id, end_date, ret * * NOTE: 3m 的所有指标没有意义 * * */ def cal_trailing_bfi_indicators(entity_info, benchmarks, end_day, tb_ret, bmk_ret, risk_free_rate) { return cal_trailing(cal_indicators_with_benchmark, entity_info, benchmarks, end_day, tb_ret, bmk_ret, risk_free_rate); } /* * 通用月度指标计算 * * @param entity_type : * @param indicator_type : PBI, BFI * @param monthly_returns
: NEED COLUMN: entity_id, end_date, price_date, nav, ret * * @return : ['PBI-INCEP', 'PBI-YTD', 'PBI-3M', 'PBI-6M', 'PBI-1Y', 'PBI-2Y', 'PBI-3Y', 'PBI-4Y', 'PBI-5Y', 'PBI-10Y'] * */ def cal_monthly_indicators(entity_type, indicator_type, monthly_returns) { if(find(['MF', 'HF', 'PF', 'MI', 'FI', 'FA'], entity_type) < 0) return null; if(monthly_returns.isVoid() || monthly_returns.size() < 1) return null; oldest_date = EXEC price_date.min() FROM monthly_returns; v_entity_ids = EXEC DISTINCT entity_id FROM monthly_returns; entity_info = get_entity_info(entity_type, v_entity_ids); if(entity_info.isVoid() || entity_info.size() == 0) { return null }; end_day = today(); // 取基金和基准的对照表 if(indicator_type == 'BFI') { benchmark = SELECT entity_id, end_date.temporalParse('yyyy-MM') AS end_date, factor_id AS benchmark_id FROM get_entity_bfi_factors(entity_type, v_entity_ids, oldest_date.month(), end_day.month()); } else { // 主基准, 对应 xxx_info 中的 primary_benchmark_id; TODO: 没有基准用沪深300顶,哪怕很多情况下不那么正确 benchmark = SELECT entity_id, end_date, iif(benchmark_id.isVoid(), 'IN00000008', benchmark_id) AS benchmark_id FROM get_entity_primary_benchmark(entity_type, v_entity_ids, oldest_date.temporalFormat('yyyy-MM'), end_day.temporalFormat('yyyy-MM')) ; } // 取所有出现的基准月收益 bmk_ret = get_benchmark_return(benchmark, end_day); //if(bmk_ret.isVoid() || bmk_ret.size() == 0) { return null; } // TODO: risk free指数月收益存在fund_performance表,所以先将就用 fund_id 表示。之后统一改为更准确的名字 risk_free_rate = SELECT entity_id AS fund_id, temporalParse(end_date, 'yyyy-MM') AS end_date, ret FROM get_risk_free_rate(oldest_date, end_day); if(risk_free_rate.isVoid() || risk_free_rate.size() == 0) { return null; } // 指标计算 if(indicator_type == 'BFI') { t0 = cal_trailing_bfi_indicators(entity_info, benchmark, end_day, monthly_returns, bmk_ret, risk_free_rate); v_table_name = ['BFI-INCEP', 'BFI-YTD', 'BFI-3M', 'BFI-6M', 'BFI-1Y', 'BFI-2Y', 'BFI-3Y', 'BFI-4Y', 'BFI-5Y', 'BFI-10Y']; } else { t0 = cal_trailing_indicators(entity_info, benchmark, end_day, monthly_returns, bmk_ret, risk_free_rate); v_table_name = ['PBI-INCEP', 'PBI-YTD', 'PBI-3M', 'PBI-6M', 'PBI-1Y', 'PBI-2Y', 'PBI-3Y', 'PBI-4Y', 'PBI-5Y', 'PBI-10Y']; } return dict(v_table_name, t0); } /* * 通用基金经理/公司月度指标计算 * * @param entity_type : * @param indicator_type : PBI, BFI * @param monthly_returns
: NEED COLUMN: entity_id, curve_type, strategy, end_date, price_date, nav, ret * * @return : ['PBI-INCEP', 'PBI-YTD', 'PBI-3M', 'PBI-6M', 'PBI-1Y', 'PBI-2Y', 'PBI-3Y', 'PBI-4Y', 'PBI-5Y', 'PBI-10Y'] * */ def cal_mc_monthly_indicators(entity_type, indicator_type, monthly_returns) { if(find(['PL', 'CO'], entity_type) < 0) return null; if(monthly_returns.isVoid() || monthly_returns.size() < 1) return null; oldest_date = EXEC price_date.min() FROM monthly_returns; v_entity_ids = EXEC DISTINCT entity_id FROM monthly_returns; if(entity_type == 'PL') { entity_info = get_personnel_info_for_perf(v_entity_ids); entity_info.rename!('manager_id', 'entity_id'); } else { entity_info = get_company_info_for_perf(v_entity_ids); entity_info.rename!('company_id', 'entity_id'); } if(entity_info.isVoid() || entity_info.size() == 0) { return null }; end_day = today(); // 取基金和基准的对照表 if(indicator_type == 'BFI') { benchmark = SELECT DISTINCT entity_id, curve_type, strategy, end_date.temporalParse('yyyy-MM') AS end_date, factor_id AS benchmark_id FROM get_mc_bfi_factors(entity_type, v_entity_ids, oldest_date.month(), end_day.month()); } else { // 主基准, 对应公募混合基金平均 FA00000VNB benchmark = SELECT DISTINCT entity_id, curve_type, strategy, end_date, iif(benchmark_id.isVoid(), 'FA00000VNB', benchmark_id) AS benchmark_id FROM ej(entity_info, monthly_returns, ['entity_id', 'curve_type', 'strategy']) ; } // 取所有出现的基准月收益 bmk_ret = get_benchmark_return(benchmark, end_day); //if(bmk_ret.isVoid() || bmk_ret.size() == 0) { return null; } // TODO: risk free指数月收益存在fund_performance表,所以先将就用 fund_id 表示。之后统一改为更准确的名字 risk_free_rate = SELECT entity_id AS fund_id, temporalParse(end_date, 'yyyy-MM') AS end_date, ret FROM get_risk_free_rate(oldest_date, end_day); if(risk_free_rate.isVoid() || risk_free_rate.size() == 0) { return null; } // 指标计算,因为 cal_traling_xxx 不支持 curve_type & strategy, 所以做个循环 d_rt = dict(STRING, ANY); v_curve_type = [1, 4, 7]; for(cur in v_curve_type) { t_ei = SELECT entity_id, inception_date, benchmark_id, ini_value FROM entity_info WHERE curve_type = cur AND strategy = 0; t_mr = SELECT entity_id, end_date, price_date, ret, nav FROM monthly_returns WHERE curve_type = cur AND strategy = 0; t_bk = SELECT entity_id, end_date, benchmark_id FROM benchmark WHERE curve_type = cur AND strategy = 0; if(t_ei.isVoid() || t_ei.size() == 0 || t_mr.isVoid() || t_mr.size() == 0) continue; if(indicator_type == 'BFI') { v_indicators = cal_trailing_bfi_indicators(t_ei, t_bk, end_day, t_mr, bmk_ret, risk_free_rate); for(tb in v_indicators) UPDATE tb SET curve_type = cur, strategy = 0; v_table_name = ['BFI-INCEP', 'BFI-YTD', 'BFI-3M', 'BFI-6M', 'BFI-1Y', 'BFI-2Y', 'BFI-3Y', 'BFI-4Y', 'BFI-5Y', 'BFI-10Y']; } else { v_indicators = cal_trailing_indicators(t_ei, t_bk, end_day, t_mr, bmk_ret, risk_free_rate); for(tb in v_indicators) UPDATE tb SET curve_type = cur, strategy = 0; v_table_name = ['PBI-INCEP', 'PBI-YTD', 'PBI-3M', 'PBI-6M', 'PBI-1Y', 'PBI-2Y', 'PBI-3Y', 'PBI-4Y', 'PBI-5Y', 'PBI-10Y']; } d_indicator = dict(v_table_name, v_indicators); d_rt[cur$STRING] = d_indicator; } return d_rt; } /* * 【Morningstar Integration】通用月度指标计算 * * @param entity_type : * @param indicator_type : PBI, BFI * @param monthly_returns
: NEED COLUMN: entity_id, end_date, price_date, nav, ret * * @return : ['PBI-INCEP', 'PBI-YTD', 'PBI-3M', 'PBI-6M', 'PBI-1Y', 'PBI-2Y', 'PBI-3Y', 'PBI-4Y', 'PBI-5Y', 'PBI-10Y'] * */ def ms_cal_monthly_indicators(entity_type, indicator_type, monthly_returns) { if(find(['MF', 'HF', 'PF', 'FA'], entity_type) < 0) return null; if(monthly_returns.isVoid() || monthly_returns.size() < 1) return null; oldest_date = EXEC price_date.min() FROM monthly_returns; v_entity_ids = (SELECT DISTINCT entity_id FROM monthly_returns).entity_id; entity_info = get_entity_info(entity_type, v_entity_ids); if(entity_info.isVoid() || entity_info.size() == 0) { return null }; end_day = today(); // 取基金和基准的对照表 if(indicator_type == 'BFI') { benchmark = SELECT entity_id, end_date.temporalParse('yyyy-MM') AS end_date, factor_id AS benchmark_id FROM get_entity_bfi_factors(entity_type, v_entity_ids, oldest_date.month(), end_day.month()); } else if(indicator_type == 'CAI') { benchmark = SELECT fund_id AS entity_id, end_date.temporalParse('yyyy-MM') AS end_date, factor_id AS benchmark_id FROM ms_get_fund_category_average(v_entity_ids, oldest_date.temporalFormat('yyyy-MM'), end_day.temporalFormat('yyyy-MM')); } else { // 主基准, 对应 xxx_info 中的 primary_benchmark_id, TODO: 没有基准用沪深300顶,哪怕很多情况下不那么正确 benchmark = SELECT entity_id, end_date, iif(benchmark_id.isNull(), 'IN00000008', benchmark_id) AS benchmark_id FROM ms_get_entity_primary_benchmark(entity_type, v_entity_ids, oldest_date.temporalFormat('yyyy-MM'), end_day.temporalFormat('yyyy-MM')) ; } // 取所有出现的基准月收益 bmk_ret = get_benchmark_return(benchmark, end_day); //if(bmk_ret.isVoid() || bmk_ret.size() == 0) { return null; } // TODO: risk free指数月收益存在fund_performance表,所以先将就用 fund_id 表示。之后统一改为更准确的名字 risk_free_rate = SELECT entity_id AS fund_id, temporalParse(end_date, 'yyyy-MM') AS end_date, ret FROM ms_get_risk_free_rate(oldest_date, end_day); if(risk_free_rate.isVoid() || risk_free_rate.size() == 0) { return null; } // 指标计算 if(indicator_type == 'BFI') { t0 = cal_trailing_bfi_indicators(entity_info, benchmark, end_day, monthly_returns, bmk_ret, risk_free_rate); v_table_name = ['BFI-INCEP', 'BFI-YTD', 'BFI-3M', 'BFI-6M', 'BFI-1Y', 'BFI-2Y', 'BFI-3Y', 'BFI-4Y', 'BFI-5Y', 'BFI-10Y']; } else if(indicator_type == 'CAI') { t0 = cal_trailing_bfi_indicators(entity_info, benchmark, end_day, monthly_returns, bmk_ret, risk_free_rate); v_table_name = ['CAI-INCEP', 'CAI-YTD', 'CAI-3M', 'CAI-6M', 'CAI-1Y', 'CAI-2Y', 'CAI-3Y', 'CAI-4Y', 'CAI-5Y', 'CAI-10Y']; } else { t0 = cal_trailing_indicators(entity_info, benchmark, end_day, monthly_returns, bmk_ret, risk_free_rate); v_table_name = ['PBI-INCEP', 'PBI-YTD', 'PBI-3M', 'PBI-6M', 'PBI-1Y', 'PBI-2Y', 'PBI-3Y', 'PBI-4Y', 'PBI-5Y', 'PBI-10Y']; } return dict(v_table_name, t0); }