title | summary | aliases | ||
---|---|---|---|---|
Aggregate (GROUP BY) Functions |
Learn about the supported aggregate functions in TiDB. |
|
This document describes details about the supported aggregate functions in TiDB.
This section describes the supported MySQL GROUP BY
aggregate functions in TiDB.
Name | Description |
---|---|
COUNT() |
Return a count of the number of rows returned |
COUNT(DISTINCT) |
Return the count of a number of different values |
SUM() |
Return the sum |
AVG() |
Return the average value of the argument |
MAX() |
Return the maximum value |
MIN() |
Return the minimum value |
GROUP_CONCAT() |
Return a concatenated string |
VARIANCE() , VAR_POP() |
Return the population standard variance |
STD() , STDDEV() , STDDEV_POP |
Return the population standard deviation |
VAR_SAMP() |
Return the sample variance |
STDDEV_SAMP() |
Return the sample standard deviation |
JSON_OBJECTAGG(key, value) |
Return the result set as a single JSON object containing key-value pairs |
- Unless otherwise stated, group functions ignore
NULL
values. - If you use a group function in a statement containing no
GROUP BY
clause, it is equivalent to grouping on all rows.
In addition, TiDB also provides the following aggregate functions:
-
APPROX_PERCENTILE(expr, constant_integer_expr)
This function returns the percentile of
expr
. Theconstant_integer_expr
argument indicates the percentage value which is a constant integer in the range of[1,100]
. A percentile Pk (k
represents percentage) indicates that there are at leastk%
values in the data set that are less than or equal to Pk.This function only supports the numeric type and the date and time type as the returned type of
expr
. For other returned types,APPROX_PERCENTILE
only returnsNULL
.The following example shows how to calculate the fiftieth percentile of a
INT
column:{{< copyable "sql" >}}
drop table if exists t; create table t(a int); insert into t values(1), (2), (3);
{{< copyable "sql" >}}
select approx_percentile(a, 50) from t;
+--------------------------+ | approx_percentile(a, 50) | +--------------------------+ | 2 | +--------------------------+ 1 row in set (0.00 sec)
Except for the GROUP_CONCAT()
and APPROX_PERCENTILE()
functions, all the preceding functions can serve as Window functions.
TiDB does not currently support GROUP BY
modifiers such as WITH ROLLUP
. We plan to add support in the future. See TiDB #4250.
TiDB supports the SQL Mode ONLY_FULL_GROUP_BY
, and when enabled TiDB will refuse queries with ambiguous non-aggregated columns. For example, this query is illegal with ONLY_FULL_GROUP_BY
enabled because the non-aggregated column "b" in the SELECT
list does not appear in the GROUP BY
statement:
drop table if exists t;
create table t(a bigint, b bigint, c bigint);
insert into t values(1, 2, 3), (2, 2, 3), (3, 2, 3);
mysql> select a, b, sum(c) from t group by a;
+------+------+--------+
| a | b | sum(c) |
+------+------+--------+
| 1 | 2 | 3 |
| 2 | 2 | 3 |
| 3 | 2 | 3 |
+------+------+--------+
3 rows in set (0.01 sec)
mysql> set sql_mode = 'ONLY_FULL_GROUP_BY';
Query OK, 0 rows affected (0.00 sec)
mysql> select a, b, sum(c) from t group by a;
ERROR 1055 (42000): Expression #2 of SELECT list is not in GROUP BY clause and contains nonaggregated column 'b' which is not functionally dependent on columns in GROUP BY clause; this is incompatible with sql_mode=only_full_group_by
TiDB currently enables the ONLY_FULL_GROUP_BY
mode by default.
The current implementation of ONLY_FULL_GROUP_BY
is less strict than that in MySQL 5.7. For example, suppose that we execute the following query, expecting the results to be ordered by "c":
drop table if exists t;
create table t(a bigint, b bigint, c bigint);
insert into t values(1, 2, 1), (1, 2, 2), (1, 3, 1), (1, 3, 2);
select distinct a, b from t order by c;
To order the result, duplicates must be eliminated first. But to do so, which row should we keep? This choice influences the retained value of "c", which in turn influences ordering and makes it arbitrary as well.
In MySQL, a query that has DISTINCT
and ORDER BY
is rejected as invalid if any ORDER BY
expression does not satisfy at least one of these conditions:
- The expression is equal to one in the
SELECT
list - All columns referenced by the expression and belonging to the query's selected tables are elements of the
SELECT
list
But in TiDB, the above query is legal, for more information see #4254.
Another TiDB extension to standard SQL permits references in the HAVING
clause to aliased expressions in the SELECT
list. For example, the following query returns "name" values that occur only once in table "orders":
select name, count(name) from orders
group by name
having count(name) = 1;
The TiDB extension permits the use of an alias in the HAVING
clause for the aggregated column:
select name, count(name) as c from orders
group by name
having c = 1;
Standard SQL permits only column expressions in GROUP BY
clauses, so a statement such as this is invalid because "FLOOR(value/100)" is a noncolumn expression:
select id, floor(value/100)
from tbl_name
group by id, floor(value/100);
TiDB extends standard SQL to permit noncolumn expressions in GROUP BY
clauses and considers the preceding statement valid.
Standard SQL also does not permit aliases in GROUP BY
clauses. TiDB extends standard SQL to permit aliases, so another way to write the query is as follows:
select id, floor(value/100) as val
from tbl_name
group by id, val;
The group_concat_max_len
variable sets the maximum number of items for the GROUP_CONCAT()
function.