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- module fundit::returnCalculator
- use fundit::fundCalculator
- use fundit::dataPuller
- /*
- * 根据私募基金净值序列计算月收益序列(适合提供给指标运算)
- *
- * Create: 20240907 Joey
- * TODO: missing pulling data from local
- * TODO: ONLY support month return now
- *
- * @param fund_ids: 基金ID STRING VECTOR
- * @param isFromMySQL: 净值来源 1 - 远程MySQL、 0 - 本地 DolphinDB
- *
- */
- def cal_hedge_fund_returns(fund_ids, isFromMySQL){
- tb_rets = null;
-
- // 用于保证老基金也能取到所有历史净值
- very_old_price_date = 1990.01.01;
- if(isFromMySQL){
-
- // 基金基本信息,包括初始净值
- tb_fund_info = get_fund_info(fund_ids);
- // 基金净值
- tb_nav = SELECT * FROM get_hedge_fund_nav_by_price_date(fund_ids, very_old_price_date, true);
- tb_month_end = table(100:0, ['fund_id', 'price_date'], [STRING, DATE]);
- // 填充好各基金有效期内所有月份的最后一天
- for( f in tb_fund_info )
- {
- INSERT INTO tb_month_end SELECT fund_id, price_date FROM table(f.fund_id.take(1) AS fund_id).cj(table(temporalSeq(f.inception_date, today(), 'M') AS price_date)) ;
- }
-
- UPDATE tb_month_end SET end_date = price_date.month();
-
- tb_monthly_nav = SELECT fund_id, monthEnd(price_date).month().last() AS end_date, price_date.last() AS price_date, cumulative_nav.last() AS cumulative_nav
- FROM tb_nav
- GROUP BY fund_id, monthEnd(price_date);
- // 完整月末日期的净值序列(包括缺失数据为NULL)
- tb_monthly_nav = SELECT me.fund_id, me.end_date, n.price_date, n.cumulative_nav
- FROM tb_month_end me
- LEFT JOIN tb_monthly_nav n ON me.fund_id = n.fund_id AND me.end_date = n.end_date
- ORDER BY me.fund_id, me.end_date;
- // 补一下成立日的初始净值
- // NOTE: DolphinDB 遇见 EXISTS 语句时,似乎主表的 alias 失效,只好用全名
- INSERT INTO tb_monthly_nav
- SELECT fund_id, inception_date.month(), inception_date, ifNull(ini_value, 1)
- FROM tb_fund_info fi
- WHERE NOT EXISTS ( SELECT * FROM tb_monthly_nav n WHERE fund_id = tb_fund_info.fund_id AND n.price_date = tb_fund_info.inception_date);
- // 算 ratios 之前先把时间顺序排好
- tb_monthly_nav.sortBy!(['fund_id', 'end_date', 'price_date'], [1, 1, 1]);
- // 计算月收益
- tb_rets = SELECT fund_id, end_date, price_date, cumulative_nav, cumulative_nav.ratios() - 1 AS ret
- FROM tb_monthly_nav
- CONTEXT BY fund_id;
- }
- // the records without return calculated but do have nav are still useful for some calculations
- return ( SELECT * FROM tb_rets WHERE cumulative_nav > 0 );
- }
- /*
- * 月末 fund_performance 表计算
- *
- * @param fund_ids: 逗号分隔的ID
- * @param end_date:
- *
- * Example: cal_fund_performance("'HF000004KN','HF00018WXG','HF000103EU'", '2024-06', true);
- */
- def cal_fund_performance(fund_ids, month_end) {
- // 获取必要的基金月度净值
- tb_nav = get_nav_for_hedge_fund_performance(fund_ids, month_end);
- tb_rets = SELECT fund_id, price_date.month() AS end_date, price_date, cumulative_nav,
- cumulative_nav \ nav_1m - 1 AS ret_1m,
- cumulative_nav \ nav_3m - 1 AS ret_3m,
- cumulative_nav \ nav_6m - 1 AS ret_6m,
- cumulative_nav \ nav_1y - 1 AS ret_1y,
- cumulative_nav \ nav_2y - 1 AS ret_2y,
- cumulative_nav \ nav_3y - 1 AS ret_3y,
- cumulative_nav \ nav_4y - 1 AS ret_4y,
- cumulative_nav \ nav_5y - 1 AS ret_5y,
- cumulative_nav \ nav_10y - 1 AS ret_10y,
- cumulative_nav \ nav_ytd - 1 AS ret_ytd,
- cumulative_nav \ nav_incep - 1 AS ret_incep, inception_date
- FROM tb_nav;
- // NOTE: this is to keep consistance with MySQL, even it is NOT complied with GIPS standard
- UPDATE tb_rets SET ret_1m_a = (1 + ret_1m).pow(12\1) - 1, ret_3m_a = (1 + ret_3m).pow(12\3) - 1, ret_6m_a = (1 + ret_6m).pow(12\6) - 1,
- ret_1y_a= ret_1y, ret_2y_a = (1 + ret_2y).pow(12\24) - 1, ret_3y_a = (1 + ret_3y).pow(12\36) - 1,
- ret_4y_a = (1 + ret_4y).pow(12\48) - 1, ret_5y_a = (1 + ret_5y).pow(12\60) - 1, ret_10y_a = (1 + ret_10y).pow(12\120) - 1,
- ret_ytd_a = (1 + ret_ytd).pow(12\int(temporalFormat(end_date, 'MM')))-1,
- ret_incep_a = (1 + ret_incep).pow(12\(end_date - inception_date.month())) - 1,
- ret_incep_a_all = (1 + ret_incep).pow(12\(end_date - inception_date.month()))- 1,
- ret_incep_a_gips = iif(end_date - inception_date.month() < 12, ret_incep,
- (1 + ret_incep).pow(12\(end_date - inception_date.month()))- 1);
- return tb_rets;
- }
- /*
- * 批量计算公募历史基金月度收益(fund_performance)
- * NOTE: 任何数据频率快于或等于月度的净值数据都可以用此函数一次性计算完整历史记录。双月频、季频甚至更低频率的基金只能按月计算
- *
- * cal_mutual_fund_performance("'HF000004KN','HF00018WXG','HF000103EU'", true)
- *
- */
- def cal_mutual_fund_performance(fund_ids, isFromMySQL) {
- /* 找到不必用pivot table 填充数据的办法了
- // NOTE: mySQL currently uses calendar day, while the codes below takes business day. it might cause a few different numbers calcuated
- tb_monthly_nav = SELECT fund_id, businessMonthEnd(price_date).month().last() AS end_date, price_date.last() AS price_date, cumulative_nav.last() AS cumulative_nav
- FROM tb_nav
- GROUP BY fund_id, businessMonthEnd(price_date);
-
- // 补一下成立日净值
- // NOTE: DolphinDB 遇见 EXISTS 语句时,似乎主表的 alias 失效,只好用全名
- INSERT INTO tb_monthly_nav
- SELECT businessMonthEnd(inception_date), fund_id, inception_date.month(), inception_date, ifNull(ini_value, 1)
- FROM tb_fund_info
- WHERE NOT EXISTS ( SELECT * FROM tb_monthly_nav n WHERE tb_fund_info.fund_id = n.fund_id AND tb_fund_info.inception_date = n.price_date);
-
- // 为了把不数据库里不存在的nav记录填空,不得不先做个pivot;然后才能正确计算ratios (ret_1m)
- // TODO: much better way is to have a "full list" of dates, then LEFT JOIN nav table, then ffill()
- tb_rets_1m = (SELECT cumulative_nav FROM tb_monthly_nav PIVOT BY end_date, fund_id).ffill!().ratios()-1
-
- // 取被pivot掉的fund_Ids
- v_col_name = tb_rets_1m.columnNames()[1:]
- tb_tmp = tb_rets_1m.unpivot("end_date", v_col_name).rename!("valueType" "value", "fund_id" "ret_1m")
- */
- // 计算月收益
- tb_tmp = cal_hedge_fund_returns(fund_ids, isFromMySQL);
- tb_rets = SELECT fund_id, end_date, ret_1m,
- (1 + ret_1m).mprod(3) - 1 AS ret_3m, (1 + ret_1m).mprod(6) - 1 AS ret_6m, (1 + ret_1m).mprod(12) - 1 AS ret_1y,
- (1 + ret_1m).mprod(24) - 1 AS ret_2y, (1 + ret_1m).mprod(36) - 1 AS ret_3y, (1 + ret_1m).mprod(48) - 1 AS ret_4y,
- (1 + ret_1m).mprod(60) - 1 AS ret_5y, (1 + ret_1m).mprod(120) - 1 AS ret_10y
- FROM tb_tmp
- CONTEXT BY fund_id;
- // NOTE: this is to keep consistance with MySQL, even it is NOT complied with GIPS standard
- UPDATE tb_rets SET ret_1m_a = (1 + ret_1m).pow(12) - 1, ret_3m_a = (1 + ret_3m).pow(4) - 1, ret_6m_a = (1 + ret_6m).pow(2) - 1, ret_1y_a= ret_1y,
- ret_2y_a = (1 + ret_2y).pow(1\2) - 1, ret_3y_a = (1 + ret_3y).pow(1\3) - 1, ret_4y_a = (1 + ret_4y).pow(1\4) - 1,
- ret_5y_a = (1 + ret_5y).pow(1\5) - 1, ret_10y_a = (1 + ret_10y).pow(1\10) - 1;
-
- // ytd 不会用上面的CONTEXT BY语句实现
- tb_ret_ytd = SELECT a.fund_id, a.end_date, a.price_date, a.cumulative_nav, -1 + a.cumulative_nav \ b.cumulative_nav AS ret_ytd,
- (a.cumulative_nav \ b.cumulative_nav).pow(12\(a.end_date - b.end_date)) - 1 AS ret_ytd_a
- FROM tb_rets a
- INNER JOIN tb_rets b ON a.fund_Id = b.fund_id
- AND b.end_date = a.price_date.yearEnd().datetimeAdd(-1y).month()
-
- // since inception 不会用上面的CONTEXT BY语句实现
- tb_ret_incep = SELECT a.fund_id, a.end_date, a.price_date, cumulative_nav, -1 + cumulative_nav \ ini_value AS ret_incep
- FROM tb_rets a
- INNER JOIN tb_fund_info fi ON a.fund_id = fi.fund_id
-
- UPDATE tb_ret_incep SET ret_incep_a = (1 + ret_incep).pow(12\(end_date - end_date.first())) - 1 CONTEXT BY fund_Id
- UPDATE tb_ret_incep SET ret_incep_a_gips = iif( end_date - end_date.first() < 12, ret_incep, ret_incep_a ), ret_incep_a_all = ret_incep_a CONTEXT BY fund_id
-
- // 只选需要更新的记录
- tb_fund_performance = SELECT a.fund_id, a.end_date.datetimeFormat("yyyy-MM") AS end_date, c.price_date, c.cumulative_nav,
- a.ret_1m, a.ret_1m_a, a.ret_3m, a.ret_3m_a, a.ret_6m, a.ret_6m_a,
- a.ret_1y, a.ret_1y_a, a.ret_2y, a.ret_2y_a, a.ret_3y, a.ret_3y_a,
- a.ret_4y, a.ret_4y_a, a.ret_5y, a.ret_5y_a, a.ret_10y, a.ret_10y_a,
- b.ret_ytd, b.ret_ytd_a, c.ret_incep, c.ret_incep_a, c.ret_incep_a_all, c.ret_incep_a_gips
- // , 123 AS creatorid, now() AS createtime, 123 AS updaterid, now() AS updatetime, 1 AS isvalid
- FROM tb_rets a
- LEFT JOIN tb_ret_ytd b ON a.fund_id = b.fund_id AND a.end_date = b.end_date
- LEFT JOIN tb_ret_incep c ON a.fund_id = c.fund_id AND a.end_date = c.end_date
- WHERE c.price_date IS NOT NULL
- ORDER BY a.fund_id, c.price_date
- /*
- // 把这些数据写回mySQL数据表
- save_table(tb_fund_performance, "mfdb.fund_performance", true)
- // 把这些数据写到本地数据表
- save_table(tb_fund_performance, "mfdb.fund_performance", false)
- */
- return tb_fund_performance
- }
- /*
- * 批量计算私募基金周收益
- * TODO: 需要用每周最后一个交易日?
- *
- * cal_hedge_fund_weekly_returns("'HF000004KN','HF00018WXG','HF000103EU'", true)
- *
- */
- def cal_hedge_fund_weekly_returns(fund_ids, isFromMySQL) {
- // 用于保证老基金也能取到所有历史净值
- very_old_price_date = 1990.01.01
- tb_nav = get_hedge_fund_nav_by_price_date(fund_ids, very_old_price_date, isFromMySQL)
- UPDATE tb_nav SET year_week = price_date.year()$STRING + (price_date.weekOfYear()$STRING).lpad(2, "0")
-
- tb_weekly_nav = SELECT fund_id, year_week, price_date.last() AS price_date, cumulative_nav.last() AS cumulative_nav
- FROM tb_nav
- GROUP BY fund_id, year_week
- ORDER BY fund_id, year_week
-
- // 这里选最简单的计算方式:不补任何净值空洞,净值前值日期不做任何限制
- // TODO: 可以考虑将月收益也改为这种方式
- tb_rets_1w = SELECT fund_id, year_week, price_date, cumulative_nav, cumulative_nav.ratios()-1 AS ret_1w
- FROM tb_weekly_nav
- ORDER BY fund_id, year_week
-
- return tb_rets_1w
- }
- /*
- * 批量计算私募基金区间收益
- * TODO: mySQL version 向前取4天,向后不做限制。这里的逻辑是向前取4个交易日
- *
- * get_trailing_return(tb_last_nav, tb_nav, -7d, "ret_1w")
- *
- */
- def get_trailing_return(table_last_nav, table_nav, duration, return_column_name) {
- tb = SELECT a.fund_id, a.price_date.last() AS price_date, a.cumulative_nav.last() \ b.cumulative_nav.last() - 1 AS ret
- FROM table_last_nav a
- INNER JOIN table_nav b ON a.fund_id = b.fund_id
- WHERE b.price_date <= a.price_date.datetimeAdd(duration)
- AND b.price_date >= a.price_date.datetimeAdd(duration).datetimeAdd(-4d).businessDay()
- GROUP by a.fund_id
- ORDER BY fund_id
- tb.rename!("ret", return_column_name)
- return tb
- }
- /*
- * 批量计算私募基金最新收益
- *
- *
- * cal_hedge_fund_weekly_returns("'HF000004KN','HF00018WXG','HF000103EU'", true)
- *
- */
- def cal_hedge_fund_latest_returns(fund_ids, isFromMySQL) {
- // 用于保证老基金也能取到所有历史净值
- very_old_price_date = 1990.01.01
- tb_nav = get_hedge_fund_nav_by_price_date(fund_ids, very_old_price_date, isFromMySQL)
-
- tb_last_nav = SELECT fund_id, price_date.last() AS price_date, cumulative_nav.last() AS cumulative_nav
- FROM tb_nav
- GROUP BY fund_id
- ORDER BY fund_id
-
- // 近1期收益,对应mySQL fund_latest_nav_performance 中的 net_value_change
- // 因为是倒序,所以算出来的 ratios() = n0 / n1, 要把它改换成 n1 / n0 - 1 的收益
- tb_last_return = SELECT TOP 2 fund_id, price_date.first() AS price_date, price_date AS pre_preice_date,
- cumulative_nav.first() AS cumulative_nav, 1\cumulative_nav.ratios() - 1 AS net_value_change
- FROM ( SELECT * FROM tb_nav ORDER BY price_date DESC )
- CONTEXT BY fund_id
- ORDER BY fund_id
- tb_last_return = SELECT * FROM tb_last_return WHERE net_value_change IS NOT NULL
- // 近1交易日收益
- tb_1d = SELECT a.fund_id, a.price_date, a.cumulative_nav \ b.cumulative_nav - 1 AS ret_1d
- FROM tb_last_nav a
- INNER JOIN tb_nav b ON a.fund_id = b.fund_id AND b.price_date = a.price_date.datetimeAdd(-1d).businessDay()
- ORDER BY fund_id
- // 近1周、1/3/6月、1/2/3/4/5/10年收益
- tb_1w = get_trailing_return(tb_last_nav, tb_nav, -7d, "ret_1w")
- tb_1m = get_trailing_return(tb_last_nav, tb_nav, -1M, "ret_1m")
- tb_3m = get_trailing_return(tb_last_nav, tb_nav, -3M, "ret_3m")
- tb_6m = get_trailing_return(tb_last_nav, tb_nav, -6M, "ret_6m")
- tb_1y = get_trailing_return(tb_last_nav, tb_nav, -1y, "ret_1y")
- tb_2y = get_trailing_return(tb_last_nav, tb_nav, -2y, "ret_2y")
- tb_3y = get_trailing_return(tb_last_nav, tb_nav, -3y, "ret_3y")
- tb_4y = get_trailing_return(tb_last_nav, tb_nav, -4y, "ret_4y")
- tb_5y = get_trailing_return(tb_last_nav, tb_nav, -5y, "ret_5y")
- tb_10y = get_trailing_return(tb_last_nav, tb_nav, -10y, "ret_10y")
- // ytd return
- tb_ytd = SELECT a.fund_id, a.price_date.last() AS price_date, a.cumulative_nav.last() \ b.cumulative_nav.last() - 1 AS ret_ytd
- FROM tb_last_nav a
- INNER JOIN tb_nav b ON a.fund_id = b.fund_id
- WHERE b.price_date < a.price_date.yearBegin()
- AND b.price_date >= a.price_date.yearBegin().datetimeAdd(-4d)
- GROUP by a.fund_id
- // since inception return
- tb_fund_info = get_fund_info(fund_ids)
- tb_incep = SELECT a.fund_id, a.price_date, -1 + cumulative_nav \ ini_value AS ret_incep, fi.inception_date
- FROM tb_last_nav a
- INNER JOIN tb_fund_info fi ON a.fund_id = fi.fund_id
-
- // annulized since reception return
- UPDATE tb_incep SET ret_incep_a = (1 + ret_incep).pow(365.25\(price_date-inception_date)) - 1
- UPDATE tb_incep SET ret_incep_a_all = ret_incep_a,
- ret_incep_a_gips = iif((price_date-inception_date)<365, ret_incep, ret_incep_a)
- // 最大回撤
- tb_drawdown_1m = SELECT a.fund_id, max( 1 - b.cumulative_nav \ b.cumulative_nav.cummax() ) AS drawdown_1m
- FROM tb_last_return a
- INNER JOIN tb_nav b ON a.fund_id = b.fund_id
- WHERE b.price_date >= a.price_date.datetimeAdd(-1M)
- GROUP BY a.fund_id
- tb_drawdown_3m = SELECT a.fund_id, max( 1 - b.cumulative_nav \ b.cumulative_nav.cummax() ) AS drawdown_3m
- FROM tb_last_return a
- INNER JOIN tb_nav b ON a.fund_id = b.fund_id
- WHERE b.price_date >= a.price_date.datetimeAdd(-3M)
- GROUP BY a.fund_id
- tb_drawdown_incep = SELECT fund_id, max( 1 - cumulative_nav \ cumulative_nav.cummax() ) AS drawdown_incep
- FROM tb_nav GROUP BY fund_id
- tb_rets = SELECT a.fund_id, a.price_date.datetimeFormat("yyyy-MM") AS end_date, a.price_date, a.pre_preice_date, a.cumulative_nav,
- a.net_value_change, d1.ret_1d, w1.ret_1w, m1.ret_1m, m3.ret_3m, m6.ret_6m,
- y1.ret_1y, y2.ret_2y, y3.ret_3y, y4.ret_4y, y5.ret_5y, y10.ret_10y,
- ytd.ret_ytd, incep.ret_incep, incep.ret_incep_a, incep.ret_incep_a_all, incep.ret_incep_a_gips,
- dd_m1.drawdown_1m AS maxdrawdown_1m, dd_m3.drawdown_3m AS maxdrawdown_3m,
- dd_incep.drawdown_incep AS maxdrawdown_incep,
- iif(dd_incep.drawdown_incep == 0, null,incep.ret_incep_a \ dd_incep.drawdown_incep) AS calmarratio_incep
- FROM tb_last_return a
- LEFT JOIN tb_1d d1 ON a.fund_id = d1.fund_id
- LEFT JOIN tb_1w w1 ON a.fund_id = w1.fund_id
- LEFT JOIN tb_1m m1 ON a.fund_id = m1.fund_id
- LEFT JOIN tb_3m m3 ON a.fund_id = m3.fund_id
- LEFT JOIN tb_6m m6 ON a.fund_id = m6.fund_id
- LEFT JOIN tb_1y y1 ON a.fund_id = y1.fund_id
- LEFT JOIN tb_2y y2 ON a.fund_id = y2.fund_id
- LEFT JOIN tb_3y y3 ON a.fund_id = y3.fund_id
- LEFT JOIN tb_4y y4 ON a.fund_id = y4.fund_id
- LEFT JOIN tb_5y y5 ON a.fund_id = y5.fund_id
- LEFT JOIN tb_10y y10 ON a.fund_id = y10.fund_id
- LEFT JOIN tb_ytd ytd ON a.fund_id = ytd.fund_id
- LEFT JOIN tb_incep incep ON a.fund_id = incep.fund_id
- LEFT JOIN tb_drawdown_1m dd_m1 ON a.fund_id = dd_m1.fund_id
- LEFT JOIN tb_drawdown_3m dd_m3 ON a.fund_id = dd_m3.fund_id
- LEFT JOIN tb_drawdown_incep dd_incep ON a.fund_id = dd_incep.fund_id
- ORDER BY a.fund_id
- // 忽略掉非GIPS标准的所有年化收益字段(包括ytd_a)
- UPDATE tb_rets SET ret_1y_a = ret_1y, ret_2y_a = (1 + ret_2y).pow(1\2) - 1, ret_3y_a = (1 + ret_3y).pow(1\3) - 1,
- ret_4y_a = (1 + ret_4y).pow(1\4) - 1, ret_5y_a = (1 + ret_5y).pow(1\5) - 1, ret_10y_a = (1 + ret_10y).pow(1\10) - 1
- return tb_rets
- }
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