This section describes how to use window functions. Examples use
the same sales information data set as found in the discussion
of the GROUPING()
function in
Section 12.20.2, “GROUP BY Modifiers”:
mysql> SELECT * FROM sales ORDER BY country, year, product;
+------+---------+------------+--------+
| year | country | product | profit |
+------+---------+------------+--------+
| 2000 | Finland | Computer | 1500 |
| 2000 | Finland | Phone | 100 |
| 2001 | Finland | Phone | 10 |
| 2000 | India | Calculator | 75 |
| 2000 | India | Calculator | 75 |
| 2000 | India | Computer | 1200 |
| 2000 | USA | Calculator | 75 |
| 2000 | USA | Computer | 1500 |
| 2001 | USA | Calculator | 50 |
| 2001 | USA | Computer | 1500 |
| 2001 | USA | Computer | 1200 |
| 2001 | USA | TV | 150 |
| 2001 | USA | TV | 100 |
+------+---------+------------+--------+
A window function performs an aggregate-like operation on a set of query rows. However, whereas an aggregate operation groups query rows into a single result row, a window function produces a result for each query row:
The row for which function evaluation occurs is called the current row.
The query rows related to the current row over which function evaluation occurs comprise the window for the current row.
For example, using the sales information table, these two queries perform aggregate operations that produce a single global sum for all rows taken as a group, and sums grouped per country:
mysql> SELECT SUM(profit) AS total_profit
FROM sales;
+--------------+
| total_profit |
+--------------+
| 7535 |
+--------------+
mysql> SELECT country, SUM(profit) AS country_profit
FROM sales
GROUP BY country
ORDER BY country;
+---------+----------------+
| country | country_profit |
+---------+----------------+
| Finland | 1610 |
| India | 1350 |
| USA | 4575 |
+---------+----------------+
By contrast, window operations do not collapse groups of query
rows to a single output row. Instead, they produce a result for
each row. Like the preceding queries, the following query uses
SUM()
, but this time as a window
function:
mysql> SELECT
year, country, product, profit,
SUM(profit) OVER() AS total_profit,
SUM(profit) OVER(PARTITION BY country) AS country_profit
FROM sales
ORDER BY country, year, product, profit;
+------+---------+------------+--------+--------------+----------------+
| year | country | product | profit | total_profit | country_profit |
+------+---------+------------+--------+--------------+----------------+
| 2000 | Finland | Computer | 1500 | 7535 | 1610 |
| 2000 | Finland | Phone | 100 | 7535 | 1610 |
| 2001 | Finland | Phone | 10 | 7535 | 1610 |
| 2000 | India | Calculator | 75 | 7535 | 1350 |
| 2000 | India | Calculator | 75 | 7535 | 1350 |
| 2000 | India | Computer | 1200 | 7535 | 1350 |
| 2000 | USA | Calculator | 75 | 7535 | 4575 |
| 2000 | USA | Computer | 1500 | 7535 | 4575 |
| 2001 | USA | Calculator | 50 | 7535 | 4575 |
| 2001 | USA | Computer | 1200 | 7535 | 4575 |
| 2001 | USA | Computer | 1500 | 7535 | 4575 |
| 2001 | USA | TV | 100 | 7535 | 4575 |
| 2001 | USA | TV | 150 | 7535 | 4575 |
+------+---------+------------+--------+--------------+----------------+
Each window operation in the query is signified by inclusion of
an OVER
clause that specifies how to
partition query rows into groups for processing by the window
function:
The first
OVER
clause is empty, which treats the entire set of query rows as a single partition. The window function thus produces a global sum, but does so for each row.The second
OVER
clause partitions rows by country, producing a sum per partition (per country). The function produces this sum for each partition row.
Window functions are permitted only in the select list and
ORDER BY
clause. Query result rows are
determined from the FROM
clause, after
WHERE
, GROUP BY
, and
HAVING
processing, and windowing execution
occurs before ORDER BY
,
LIMIT
, and SELECT
DISTINCT
.
The OVER
clause is permitted for many
aggregate functions, which therefore can be used as window or
nonwindow functions, depending on whether the
OVER
clause is present or absent:
AVG()
BIT_AND()
BIT_OR()
BIT_XOR()
COUNT()
JSON_ARRAYAGG()
JSON_OBJECTAGG()
MAX()
MIN()
STDDEV_POP(), STDDEV(), STD()
STDDEV_SAMP()
SUM()
VAR_POP(), VARIANCE()
VAR_SAMP()
For details about each aggregate function, see Section 12.20.1, “Aggregate (GROUP BY) Function Descriptions”.
MySQL also supports nonaggregate functions that are used only as
window functions. For these, the OVER
clause
is mandatory:
CUME_DIST()
DENSE_RANK()
FIRST_VALUE()
LAG()
LAST_VALUE()
LEAD()
NTH_VALUE()
NTILE()
PERCENT_RANK()
RANK()
ROW_NUMBER()
For details about each nonaggregate function, see Section 12.21.1, “Window Function Descriptions”.
As an example of one of those nonaggregate window functions,
this query uses ROW_NUMBER()
,
which produces the row number of each row within its partition.
In this case, rows are numbered per country. By default,
partition rows are unordered and row numbering is
nondeterministic. To sort partition rows, include an
ORDER BY
clause within the window definition.
The query uses unordered and ordered partitions (the
row_num1
and row_num2
columns) to illustrate the difference between omitting and
including ORDER BY
:
mysql> SELECT
year, country, product, profit,
ROW_NUMBER() OVER(PARTITION BY country) AS row_num1,
ROW_NUMBER() OVER(PARTITION BY country ORDER BY year, product) AS row_num2
FROM sales;
+------+---------+------------+--------+----------+----------+
| year | country | product | profit | row_num1 | row_num2 |
+------+---------+------------+--------+----------+----------+
| 2000 | Finland | Computer | 1500 | 2 | 1 |
| 2000 | Finland | Phone | 100 | 1 | 2 |
| 2001 | Finland | Phone | 10 | 3 | 3 |
| 2000 | India | Calculator | 75 | 2 | 1 |
| 2000 | India | Calculator | 75 | 3 | 2 |
| 2000 | India | Computer | 1200 | 1 | 3 |
| 2000 | USA | Calculator | 75 | 5 | 1 |
| 2000 | USA | Computer | 1500 | 4 | 2 |
| 2001 | USA | Calculator | 50 | 2 | 3 |
| 2001 | USA | Computer | 1500 | 3 | 4 |
| 2001 | USA | Computer | 1200 | 7 | 5 |
| 2001 | USA | TV | 150 | 1 | 6 |
| 2001 | USA | TV | 100 | 6 | 7 |
+------+---------+------------+--------+----------+----------+
As mentioned previously, to use a window function (or treat an
aggregate function as a window function), include an
OVER
clause following the function call. The
OVER
clause has two forms:
over_clause:
{OVER (window_spec) | OVER window_name}
Both forms define how the window function should process query
rows. They differ in whether the window is defined directly in
the OVER
clause, or supplied by a reference
to a named window defined elsewhere in the query:
In the first case, the window specification appears directly in the
OVER
clause, between the parentheses.In the second case,
window_name
is the name for a window specification defined by aWINDOW
clause elsewhere in the query. For details, see Section 12.21.4, “Named Windows”.
For OVER
(
syntax, the
window specification has several parts, all optional:
window_spec
)
window_spec:
[window_name] [partition_clause] [order_clause] [frame_clause]
If OVER()
is empty, the window consists of
all query rows and the window function computes a result using
all rows. Otherwise, the clauses present within the parentheses
determine which query rows are used to compute the function
result and how they are partitioned and ordered:
window_name
: The name of a window defined by aWINDOW
clause elsewhere in the query. Ifwindow_name
appears by itself within theOVER
clause, it completely defines the window. If partitioning, ordering, or framing clauses are also given, they modify interpretation of the named window. For details, see Section 12.21.4, “Named Windows”.partition_clause
: APARTITION BY
clause indicates how to divide the query rows into groups. The window function result for a given row is based on the rows of the partition that contains the row. IfPARTITION BY
is omitted, there is a single partition consisting of all query rows.NotePartitioning for window functions differs from table partitioning. For information about table partitioning, see Chapter 23, Partitioning.
partition_clause
has this syntax:partition_clause: PARTITION BY expr [, expr] ...
Standard SQL requires
PARTITION BY
to be followed by column names only. A MySQL extension is to permit expressions, not just column names. For example, if a table contains aTIMESTAMP
column namedts
, standard SQL permitsPARTITION BY ts
but notPARTITION BY HOUR(ts)
, whereas MySQL permits both.order_clause
: AnORDER BY
clause indicates how to sort rows in each partition. Partition rows that are equal according to theORDER BY
clause are considered peers. IfORDER BY
is omitted, partition rows are unordered, with no processing order implied, and all partition rows are peers.order_clause
has this syntax:order_clause: ORDER BY expr [ASC|DESC] [, expr [ASC|DESC]] ...
Each
ORDER BY
expression optionally can be followed byASC
orDESC
to indicate sort direction. The default isASC
if no direction is specified.NULL
values sort first for ascending sorts, last for descending sorts.An
ORDER BY
in a window definition applies within individual partitions. To sort the result set as a whole, include anORDER BY
at the query top level.frame_clause
: A frame is a subset of the current partition and the frame clause specifies how to define the subset. The frame clause has many subclauses of its own. For details, see Section 12.21.3, “Window Function Frame Specification”.