原文地址:https://www.mysqltutorial.org/mysql-window-functions/
Summary: in this tutorial, you will learn about MySQL window functions and their practical applications for solving analytical query challenges.
MySQL has supported window functions since version 8.0, allowing you to solve query problems more easily and with better performance.
Suppose that we have the sales
table which stores the sales by employees and fiscal years:
CREATE TABLE sales(
sales_employee VARCHAR(50) NOT NULL,
fiscal_year INT NOT NULL,
sale DECIMAL(14,2) NOT NULL,
PRIMARY KEY(sales_employee,fiscal_year)
);
INSERT INTO sales(sales_employee,fiscal_year,sale)
VALUES('Bob',2016,100),
('Bob',2017,150),
('Bob',2018,200),
('Alice',2016,150),
('Alice',2017,100),
('Alice',2018,200),
('John',2016,200),
('John',2017,150),
('John',2018,250);
SELECT * FROM sales;
Code language: SQL (Structured Query Language) (sql)
It’s probably easier to understand window functions is to start with aggregate functions.
Aggregate functions summarize data from multiple rows into a single result row. For example, the following SUM()
function returns the total sales of all employees in the recorded years:
SELECT
SUM(sale)
FROM
sales;Code language: SQL (Structured Query Language) (sql)
The GROUP BY
clause allows you to apply aggregate functions to a subset of rows. For example, you may want to calculate the total sales by fiscal years:
SELECT
fiscal_year,
SUM(sale)
FROM
sales
GROUP BY
fiscal_year;Code language: SQL (Structured Query Language) (sql)
In both examples, the aggregate functions reduce the number of rows returned by the query.
Like the aggregate functions with the GROUP BY
clause, window functions also operate on a subset of rows but they do not reduce the number of rows returned by the query.
For example, the following query returns the sales for each employee, along with the total sales of the employees by fiscal year:
SELECT
fiscal_year,
sales_employee,
sale,
SUM(sale) OVER (PARTITION BY fiscal_year) total_sales
FROM
sales;Code language: SQL (Structured Query Language) (sql)
In this example, the SUM()
function works as a window function that operates on a set of rows defined by the contents of the OVER
clause. A set of rows to which the SUM()
function applies is referred to as a window.
The SUM()
window function reports not only the total sales by fiscal year as it does in the query with the GROUP BY
clause, but also the result in each row, rather than the total number of rows returned.
Note that window functions are performed on the result set after all JOIN
, WHERE
, GROUP BY
, and HAVING
clauses and before the ORDER BY
, LIMIT
and SELECT DISTINCT
.
The general syntax of calling a window function is as follows:
window_function_name(expression) OVER (
[partition_defintion]
[order_definition]
[frame_definition]
)Code language: SQL (Structured Query Language) (sql)
In this syntax:
- First, specify the window function name followed by an expression.
- Second, specify the
OVER
clause which has three possible elements: partition definition, order definition, and frame definition.
The opening and closing parentheses, which appear after the OVER
clause, is mandatory, even with no expression, for example:
window_function_name(expression) OVER()Code language: SQL (Structured Query Language) (sql)
The partition_clause
breaks up the rows into chunks or partitions. Two partitions are separated by a partition boundary.
The window function is performed within partitions and re-initialized when crossing the partition boundary.
The partition_clause
syntax looks like the following:
PARTITION BY <expression>[{,<expression>...}]Code language: SQL (Structured Query Language) (sql)
You can specify one or more expressions in the PARTITION BY
clause. Multiple expressions are separated by commas.
The order_by_clause
has the following syntax:
ORDER BY <expression> [ASC|DESC], [{,<expression>...}]Code language: SQL (Structured Query Language) (sql)
The ORDER BY
clause specifies how the rows are ordered within a partition. It is possible to order data within a partition on multiple keys, each key is specified by an expression. Multiple expressions are also separated by commas.
Similar to the PARTITION BY
clause, the ORDER BY
clause is also supported by all the window functions. However, it only makes sense to use the ORDER BY
clause for order-sensitive window functions.
A frame is a subset of the current partition. To define the subset, you use the frame clause as follows:
frame_unit {<frame_start>|<frame_between>}Code language: SQL (Structured Query Language) (sql)
A frame is defined with respect to the current row, which allows a frame to move within a partition depending on the position of the current row within its partition.
The frame unit specifies the type of relationship between the current row and frame rows. It can be ROWS
or RANGE
. The offsets of the current row and frame rows are the row numbers if the frame unit is ROWS
and row values the frame unit is RANGE
.
The frame_start
and frame_between
define the frame boundary.
The frame_start
contains one of the following:
UNBOUNDED PRECEDING
: frame starts at the first row of the partition.N PRECEDING
: a physical N of rows before the first current row. N can be a literal number or an expression that evaluates to a number.CURRENT ROW
: the row of the current calculation
The frame_between
is as follows:
BETWEEN frame_boundary_1 AND frame_boundary_2 Code language: SQL (Structured Query Language) (sql)
The frame_boundary_1
and frame_boundary_2
can each contain one of the following:
frame_start
: as mentioned previously.UNBOUNDED FOLLOWING
: the frame ends at the final row in the partition.N FOLLOWING
: a physical N of rows after the current row.
If you don’t specify the frame_definition
in the OVER
clause, then MySQL uses the following frame by default:
RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROWCode language: SQL (Structured Query Language) (sql)
The following table shows the window functions in MySQL:
Name | Description |
---|---|
CUME_DIST | Calculates the cumulative distribution of a value in a set of values. |
DENSE_RANK | Assigns a rank to every row within its partition based on the ORDER BY clause. It assigns the same rank to the rows with equal values. If two or more rows have the same rank, then there will be no gaps in the sequence of ranked values. |
FIRST_VALUE | Returns the value of the specified expression with respect to the first row in the window frame. |
LAG | Returns the value of the Nth row before the current row in a partition. It returns NULL if no preceding row exists. |
LAST_VALUE | Returns the value of the specified expression with respect to the last row in the window frame. |
LEAD | Returns the value of the Nth row after the current row in a partition. It returns NULL if no subsequent row exists. |
NTH_VALUE | Returns value of argument from Nth row of the window frame |
NTILE | Distributes the rows for each window partition into a specified number of ranked groups. |
PERCENT_RANK | Calculates the percentile rank of a row in a partition or result set |
RANK | Similar to the DENSE_RANK() function except that there are gaps in the sequence of ranked values when two or more rows have the same rank. |
ROW_NUMBER | Assigns a sequential integer to every row within its partition |
In this tutorial, you have learned about the MySQL window functions and their syntax. In the next tutorials, you will learn more about each window function and its applications in more detail.