Aggregate Functions

• sum(expression)

  Description: Specifies the sum of expressions across all input values.

  Return type:

  Generally, same as the argument data type. In the following cases, type conversion occurs:

  • BIGINT for SMALLINT or INT arguments
  • NUMBER for BIGINT arguments
  • DOUBLE PRECISION for floating-point arguments

  Example:

  mogdb=# SELECT SUM(ss_ext_tax) FROM tpcds.STORE_SALES;
    sum
  --------------
   213267594.69
  (1 row)

• max(expression)

  Description: Specifies the maximum value of expression across all input values.

  Parameter type: any array, numeric, string, date/time type, or IPv4 and IPv6 addresses (INET and CIDR data types)

  Return type: same as the argument type

  Example:

  mogdb=# SELECT MAX(inv_quantity_on_hand) FROM tpcds.inventory;

• min(expression)

  Description: Specifies the minimum value of expression across all input values.

  Parameter type: any array, numeric, string, date/time type, or IPv4 and IPv6 addresses (INET and CIDR data types)

  Return type: same as the argument type

  Example:

  mogdb=# SELECT MIN(inv_quantity_on_hand) FROM tpcds.inventory;
   min
  -----
     0
  (1 row)

• avg(expression)

  Description: Specifies the average (arithmetic mean) of all input values.

  Return type:

  NUMBER for any integer-type argument.

  DOUBLE PRECISION for floating-point arguments.

  otherwise the same as the argument data type.

  Example:

  mogdb=# SELECT AVG(inv_quantity_on_hand) FROM tpcds.inventory;
           avg
  ----------------------
   500.0387129084044604
  (1 row)

• count(expression)

  Description: Specifies the number of input rows for which the value of the expression is not null.

  Return type: bigint

  Example:

  mogdb=# SELECT COUNT(inv_quantity_on_hand) FROM tpcds.inventory;
    count
  ----------
   11158087
  (1 row)

• count(*)

  Description: Returns the number of input rows.

  Return type: bigint

  Example:

  mogdb=# SELECT COUNT(*) FROM tpcds.inventory;
    count
  ----------
   11745000
  (1 row)

• median(expression) [over (query partition clause)]

  Description: Returns the median of an expression. NULL will be ignored by the median function during calculation. The DISTINCT keyword can be used to exclude duplicate records in an expression. The data type of the input expression can be numeric (including integer, double, and bigint) or interval. For other data types, the median cannot be calculated.

  Return type: double or interval

  Example:

  select median(id) from (values(1), (2), (3), (4), (null)) test(id);
   median
  --------
       2.5
  (1 row)

• array_agg(expression)

  Description: Concatenates input values, including nulls, into an array.

  Return type: array of the argument type

  Example:

  mogdb=# SELECT ARRAY_AGG(sr_fee) FROM tpcds.store_returns WHERE sr_customer_sk = 2;
     array_agg
  ---------------
   {22.18,63.21}
  (1 row)

• string_agg(expression, delimiter)

  Description: Concatenates input values into a string, separated by delimiter.

  Return type: same as the argument type

  Example:

  mogdb=# SELECT string_agg(sr_item_sk, ',') FROM tpcds.store_returns where sr_item_sk < 3;
           string_agg
  ---------------------------------------------------------------------------------
  ------------------------------
   1,2,1,2,2,1,1,2,2,1,2,1,2,1,1,1,2,1,1,1,1,1,2,1,1,1,1,1,2,2,1,1,1,1,1,1,1,1,1,2,
  2,1,1,1,1,1,1,2,2,1,1,2,1,1,1
  (1 row)

• listagg(expression [, delimiter]) WITHIN GROUP(ORDER BY order-list)

  Description: Sorts aggregation column data according to the mode specified by WITHIN GROUP and concatenates the data to a string using the specified delimiter.

  • expression: Mandatory. It specifies an aggregation column name or a column-based valid expression. It does not support the DISTINCT keyword and the VARIADIC parameter.
  • delimiter: Optional. It specifies a delimiter, which can be a string constant or a deterministic expression based on a group of columns. The default value is empty.
  • order-list: Mandatory. It specifies the sorting mode in a group.

  Return type: text

  Example:

  The aggregation column is of the text character set type.

  mogdb=# SELECT deptno, listagg(ename, ',') WITHIN GROUP(ORDER BY ename) AS employees FROM emp GROUP BY deptno;
   deptno |              employees
  --------+--------------------------------------
       10 | CLARK,KING,MILLER
       20 | ADAMS,FORD,JONES,SCOTT,SMITH
       30 | ALLEN,BLAKE,JAMES,MARTIN,TURNER,WARD
  (3 rows)

  The aggregation column is of the integer type.

  mogdb=# SELECT deptno, listagg(mgrno, ',') WITHIN GROUP(ORDER BY mgrno NULLS FIRST) AS mgrnos FROM emp GROUP BY deptno;
   deptno |            mgrnos
  --------+-------------------------------
       10 | 7782,7839
       20 | 7566,7566,7788,7839,7902
       30 | 7698,7698,7698,7698,7698,7839
  (3 rows)

  The aggregation column is of the floating point type.

  mogdb=# SELECT job, listagg(bonus, '($); ') WITHIN GROUP(ORDER BY bonus DESC) || '($)' AS bonus FROM emp GROUP BY job;
      job     |                      bonus
  ------------+-------------------------------------------------
   CLERK      | 10234.21($); 2000.80($); 1100.00($); 1000.22($)
   PRESIDENT  | 23011.88($)
   ANALYST    | 2002.12($); 1001.01($)
   MANAGER    | 10000.01($); 2399.50($); 999.10($)
   SALESMAN   | 1000.01($); 899.00($); 99.99($); 9.00($)
  (5 rows)

  The aggregation column is of the time type.

  mogdb=# SELECT deptno, listagg(hiredate, ', ') WITHIN GROUP(ORDER BY hiredate DESC) AS hiredates FROM emp GROUP BY deptno;
   deptno |                                                          hiredates
  --------+------------------------------------------------------------------------------------------------------------------------------
       10 | 1982-01-23 00:00:00, 1981-11-17 00:00:00, 1981-06-09 00:00:00
       20 | 2001-04-02 00:00:00, 1999-12-17 00:00:00, 1987-05-23 00:00:00, 1987-04-19 00:00:00, 1981-12-03 00:00:00
       30 | 2015-02-20 00:00:00, 2010-02-22 00:00:00, 1997-09-28 00:00:00, 1981-12-03 00:00:00, 1981-09-08 00:00:00, 1981-05-01 00:00:00
  (3 rows)

  The aggregation column is of the time interval type.

  mogdb=# SELECT deptno, listagg(vacationTime, '; ') WITHIN GROUP(ORDER BY vacationTime DESC) AS vacationTime FROM emp GROUP BY deptno;
   deptno |                                    vacationtime
  --------+------------------------------------------------------------------------------------
       10 | 1 year 30 days; 40 days; 10 days
       20 | 70 days; 36 days; 9 days; 5 days
       30 | 1 year 1 mon; 2 mons 10 days; 30 days; 12 days 12:00:00; 4 days 06:00:00; 24:00:00
  (3 rows)

  By default, the delimiter is empty.

  mogdb=# SELECT deptno, listagg(job) WITHIN GROUP(ORDER BY job) AS jobs FROM emp GROUP BY deptno;
   deptno |                     jobs
  --------+----------------------------------------------
       10 | CLERKMANAGERPRESIDENT
       20 | ANALYSTANALYSTCLERKCLERKMANAGER
       30 | CLERKMANAGERSALESMANSALESMANSALESMANSALESMAN
  (3 rows)

  When listagg is used as a window function, the OVER clause does not support the window sorting of ORDER BY, and the listagg column is an ordered aggregation of the corresponding groups.

  mogdb=# SELECT deptno, mgrno, bonus, listagg(ename,'; ') WITHIN GROUP(ORDER BY hiredate) OVER(PARTITION BY deptno) AS employees FROM emp;
   deptno | mgrno |  bonus   |                 employees
  --------+-------+----------+-------------------------------------------
       10 |  7839 | 10000.01 | CLARK; KING; MILLER
       10 |       | 23011.88 | CLARK; KING; MILLER
       10 |  7782 | 10234.21 | CLARK; KING; MILLER
       20 |  7566 |  2002.12 | FORD; SCOTT; ADAMS; SMITH; JONES
       20 |  7566 |  1001.01 | FORD; SCOTT; ADAMS; SMITH; JONES
       20 |  7788 |  1100.00 | FORD; SCOTT; ADAMS; SMITH; JONES
       20 |  7902 |  2000.80 | FORD; SCOTT; ADAMS; SMITH; JONES
       20 |  7839 |   999.10 | FORD; SCOTT; ADAMS; SMITH; JONES
       30 |  7839 |  2399.50 | BLAKE; TURNER; JAMES; MARTIN; WARD; ALLEN
       30 |  7698 |     9.00 | BLAKE; TURNER; JAMES; MARTIN; WARD; ALLEN
       30 |  7698 |  1000.22 | BLAKE; TURNER; JAMES; MARTIN; WARD; ALLEN
       30 |  7698 |    99.99 | BLAKE; TURNER; JAMES; MARTIN; WARD; ALLEN
       30 |  7698 |  1000.01 | BLAKE; TURNER; JAMES; MARTIN; WARD; ALLEN
       30 |  7698 |   899.00 | BLAKE; TURNER; JAMES; MARTIN; WARD; ALLEN
  (14 rows)

• covar_pop(Y, X)

  Description: Specifies the overall covariance.

  Return type: double precision

  Example:

  mogdb=# SELECT COVAR_POP(sr_fee, sr_net_loss) FROM tpcds.store_returns WHERE sr_customer_sk < 1000;
      covar_pop
  ------------------
   829.749627587403
  (1 row)

• covar_samp(Y, X)

  Description: Specifies the sample covariance.

  Return type: double precision

  Example:

  mogdb=# SELECT COVAR_SAMP(sr_fee, sr_net_loss) FROM tpcds.store_returns WHERE sr_customer_sk < 1000;
      covar_samp
  ------------------
   830.052235037289
  (1 row)

• stddev_pop(expression)

  Description: Specifies the overall standard deviation.

  Return type: double precision for floating-point arguments, otherwise numeric

  Example:

  mogdb=# SELECT STDDEV_POP(inv_quantity_on_hand) FROM tpcds.inventory WHERE inv_warehouse_sk = 1;
      stddev_pop
  ------------------
   289.224294957556
  (1 row)

• stddev_samp(expression)

  Description: Specifies the sample standard deviation of the input values.

  Return type: double precision for floating-point arguments, otherwise numeric

  Example:

  mogdb=# SELECT STDDEV_SAMP(inv_quantity_on_hand) FROM tpcds.inventory WHERE inv_warehouse_sk = 1;
     stddev_samp
  ------------------
   289.224359757315
  (1 row)

• var_pop(expression)

  Description: Specifies the population variance of the input values (square of the population standard deviation).

  Return type: double precision for floating-point arguments, otherwise numeric

  Example:

  mogdb=# SELECT VAR_POP(inv_quantity_on_hand) FROM tpcds.inventory WHERE inv_warehouse_sk = 1;
        var_pop
  --------------------
   83650.692793695475
  (1 row)

• var_samp(expression)

  Description: Specifies the sample variance of the input values (square of the sample standard deviation).

  Return type: double precision for floating-point arguments, otherwise numeric

  Example:

  mogdb=# SELECT VAR_SAMP(inv_quantity_on_hand) FROM tpcds.inventory WHERE inv_warehouse_sk = 1;
        var_samp
  --------------------
   83650.730277028768
  (1 row)

• bit_and(expression)

  Description: bitwise AND of all non-null input values, or null if none

  Return type: same as the argument type

  Example:

  mogdb=# SELECT BIT_AND(inv_quantity_on_hand) FROM tpcds.inventory WHERE inv_warehouse_sk = 1;
   bit_and
  ---------
         0
  (1 row)

• bit_or(expression)

  Description: bitwise OR of all non-null input values, or null if none

  Return type: same as the argument type

  Example:

  mogdb=# SELECT BIT_OR(inv_quantity_on_hand) FROM tpcds.inventory WHERE inv_warehouse_sk = 1;
   bit_or
  --------
     1023
  (1 row)

• bool_and(expression)

  Description: Its value is true if all input values are true, otherwise false.

  Return type: Boolean

  Example:

  mogdb=# SELECT bool_and(100 <2500);
   bool_and
  ----------
   t
  (1 row)

• bool_or(expression)

  Description: Its value is true if at least one input value is true, otherwise false.

  Return type: Boolean

  Example:

  mogdb=# SELECT bool_or(100 <2500);
   bool_or
  ----------
   t
  (1 row)

• corr(Y, X)

  Description: Specifies the correlation coefficient.

  Return type: double precision

  Example:

  mogdb=# SELECT CORR(sr_fee, sr_net_loss) FROM tpcds.store_returns WHERE sr_customer_sk < 1000;
         corr
  -------------------
   .0381383624904186
  (1 row)

• every(expression)

  Description: Equivalent to bool_and

  Return type: Boolean

  Example:

  mogdb=# SELECT every(100 <2500);
   every
  -------
   t
  (1 row)

• regr_avgx(Y, X)

  Description: Specifies the average of the independent variable (sum(X)/N).

  Return type: double precision

  Example:

  mogdb=# SELECT REGR_AVGX(sr_fee, sr_net_loss) FROM tpcds.store_returns WHERE sr_customer_sk < 1000;
      regr_avgx
  ------------------
   578.606576740795
  (1 row)

• regr_avgy(Y, X)

  Description: Specifies the average of the dependent variable (sum(Y)/N).

  Return type: double precision

  Example:

  mogdb=# SELECT REGR_AVGY(sr_fee, sr_net_loss) FROM tpcds.store_returns WHERE sr_customer_sk < 1000;
      regr_avgy
  ------------------
   50.0136711629602
  (1 row)

• regr_count(Y, X)

  Description: Specifies the number of input rows in which both expressions are non-null.

  Return type: bigint

  Example:

  mogdb=# SELECT REGR_COUNT(sr_fee, sr_net_loss) FROM tpcds.store_returns WHERE sr_customer_sk < 1000;
   regr_count
  ------------
         2743
  (1 row)

• regr_intercept(Y, X)

  Description: Specifies the y-intercept of the least-squares-fit linear equation determined by the (X, Y) pairs.

  Return type: double precision

  Example:

  mogdb=# SELECT REGR_INTERCEPT(sr_fee, sr_net_loss) FROM tpcds.store_returns WHERE sr_customer_sk < 1000;
    regr_intercept
  ------------------
   49.2040847848607
  (1 row)

• regr_r2(Y, X)

  Description: Specifies the square of the correlation coefficient.

  Return type: double precision

  Example:

  mogdb=# SELECT REGR_R2(sr_fee, sr_net_loss) FROM tpcds.store_returns WHERE sr_customer_sk < 1000;
        regr_r2
  --------------------
   .00145453469345058
  (1 row)

• regr_slope(Y, X)

  Description: Specifies the slope of the least-squares-fit linear equation determined by the (X, Y) pairs.

  Return type: double precision

  Example:

  mogdb=# SELECT REGR_SLOPE(sr_fee, sr_net_loss) FROM tpcds.store_returns WHERE sr_customer_sk < 1000;
       regr_slope
  --------------------
   .00139920009665259
  (1 row)

• regr_sxx(Y, X)

  Description: sum(X^2) - sum(X)^2/N (sum of squares of the independent variables)

  Return type: double precision

  Example:

  mogdb=# SELECT REGR_SXX(sr_fee, sr_net_loss) FROM tpcds.store_returns WHERE sr_customer_sk < 1000;
       regr_sxx
  ------------------
   1626645991.46135
  (1 row)

• regr_sxy(Y, X)

  Description: sum(X*Y) - sum(X) * sum(Y)/N ("sum of products" of independent times dependent variable)

  Return type: double precision

  Example:

  mogdb=# SELECT REGR_SXY(sr_fee, sr_net_loss) FROM tpcds.store_returns WHERE sr_customer_sk < 1000;
       regr_sxy
  ------------------
   2276003.22847225
  (1 row)

• regr_syy(Y, X)

  Description: sum(Y^2) - sum(Y)^2/N ("sum of squares" of the dependent variable)

  Return type: double precision

  Example:

  mogdb=# SELECT REGR_SYY(sr_fee, sr_net_loss) FROM tpcds.store_returns WHERE sr_customer_sk < 1000;
      regr_syy
  -----------------
   2189417.6547314
  (1 row)

• stddev(expression)

  Description: Specifies the alias of stddev_samp.

  Return type: double precision for floating-point arguments, otherwise numeric

  Example:

  mogdb=# SELECT STDDEV(inv_quantity_on_hand) FROM tpcds.inventory WHERE inv_warehouse_sk = 1;
        stddev
  ------------------
   289.224359757315
  (1 row)

• variance(expexpression,ression)

  Description: Specifies the alias of var_samp.

  Return type: double precision for floating-point arguments, otherwise numeric

  Example:

  mogdb=# SELECT VARIANCE(inv_quantity_on_hand) FROM tpcds.inventory WHERE inv_warehouse_sk = 1;
        variance
  --------------------
   83650.730277028768
  (1 row)

• delta

  Description: Returns the difference between the current row and the previous row.

  Parameter: numeric

  Return type: numeric

• checksum(expression)

  Description: Returns the CHECKSUM value of all input values. This function can be used to check whether the data in the tables is the same before and after the backup, restoration, or migration of the MogDB database (databases other than MogDB are not supported). Before and after database backup, database restoration, or data migration, you need to manually run SQL commands to obtain the execution results. Compare the obtained execution results to check whether the data in the tables before and after the backup or migration is the same.

  NOTE: - For large tables, the execution of the CHECKSUM function may take a long time. - If the CHECKSUM values of two tables are different, it indicates that the contents of the two tables are different. Using the hash function in the CHECKSUM function may incur conflicts. There is low possibility that two tables with different contents may have the same CHECKSUM value. The same problem may occur when CHECKSUM is used for columns. - If the time type is timestamp, timestamptz, or smalldatetime, ensure that the time zone settings are the same when calculating the CHECKSUM value.

  • If the CHECKSUM value of a column is calculated and the column type can be changed to TEXT by default, set expression to the column name.
  • If the CHECKSUM value of a column is calculated and the column type cannot be converted to TEXT by default, set expression to Column name**::TEXT**.
  • If the CHECKSUM value of all columns is calculated, set expression to Table name**::TEXT**.

  The following types of data can be converted into TEXT types by default: char, name, int8, int2, int1, int4, raw, pg_node_tree, float4, float8, bpchar, varchar, nvarchar2, date, timestamp, timestamptz, numeric, and smalldatetime. Other types need to be forcibly converted to TEXT.

  Return type: numeric

  Example:

  The following shows the CHECKSUM value of a column that can be converted to the TEXT type by default:

  mogdb=# SELECT CHECKSUM(inv_quantity_on_hand) FROM tpcds.inventory;
       checksum
  -------------------
   24417258945265247
  (1 row)

  The following shows the CHECKSUM value of a column that cannot be converted to the TEXT type by default. Note that the CHECKSUM parameter is set to Column name**::TEXT**.

  mogdb=# SELECT CHECKSUM(inv_quantity_on_hand::TEXT) FROM tpcds.inventory;
       checksum
  -------------------
   24417258945265247
  (1 row)

  The following shows the CHECKSUM value of all columns in a table. Note that the CHECKSUM parameter is set to Table name**::TEXT**. The table name is not modified by its schema.

  mogdb=# SELECT CHECKSUM(inventory::TEXT) FROM tpcds.inventory;
       checksum
  -------------------
   25223696246875800
  (1 row)

• first(anyelement)

  Description: Returns the first non-null input.

  Return type: anyelement

  mogdb=# select * from tba;
  name
  -----
  A
  A
  D
  (4 rows)
  
  mogdb=# select first(name) from tba;
  first
  -----
  A
  (1 rows)

• last(anyelement)

  Description: Returns the last non-null input.

  Return type: anyelement

  mogdb=# select * from tba;
  name
  -----
  A
  A
  D
  (4 rows)
  
  mogdb=# select last(name) from tba;
  last
  -----
  D
  (1 rows)

• mode() within group (order by value anyelement)

  Description: Returns the value with the highest occurrence frequency in a column. If multiple values have the same frequency, the smallest value is returned. The sorting mode is the same as the default sorting mode of the column type. value is an input parameter and can be of any type.

  Return type: same as the input parameter type

  Example:

  mogdb=# select mode() within group (order by value) from (values(1, 'a'), (2, 'b'), (2, 'c')) v(value, tag);
   mode
  ------
      2
  (1 row)
  mogdb=# select mode() within group (order by tag) from (values(1, 'a'), (2, 'b'), (2, 'c')) v(value, tag);
   mode
  ------
   a
  (1 row)

• json_agg(any)

  Description: Aggregates values into a JSON array.

  Return type: array-json

  Example:

  mogdb=# select * from classes;
  name | score
  -----+-------
  A    |     2
  A    |     3
  D    |     5
  D    |
  (4 rows)

  mogdb=# select name, json_agg(score) score from classes group by name order by name;
  name |      score
  -----+-----------------
  A    | [2, 3]
  D    | [5, null]
  | [null]
  (3 rows)

• json_object_agg(any, any)

  Description: Aggregates values into a JSON object.

  Return type: object-json

  Example:

  mogdb=# select * from classes;
  name | score
  -----+-------
  A    |     2
  A    |     3
  D    |     5
  D    |
  (4 rows)

  mogdb=# select json_object_agg(name, score) from classes group by name order by name;
  json_object_agg
  -------------------------
  { "A" : 2, "A" : 3 }
  { "D" : 5, "D" : null }
  (2 rows)