ClickHouse/docs/en/sql-reference/window-functions/index.md
2024-07-04 15:44:10 +08:00

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/en/sql-reference/window-functions/ 62 Window Functions Window Functions

Windows functions let you perform calculations across a set of rows that are related to the current row. Some of the calculations that you can do are similar to those that can be done with an aggregate function, but a window function doesn't cause rows to be grouped into a single output - the individual rows are still returned.

Standard Window Functions

ClickHouse supports the standard grammar for defining windows and window functions. The table below indicates whether a feature is currently supported.

Feature Supported?
ad hoc window specification (count(*) over (partition by id order by time desc))
expressions involving window functions, e.g. (count(*) over ()) / 2)
WINDOW clause (select ... from table window w as (partition by id))
ROWS frame
RANGE frame (the default)
INTERVAL syntax for DateTime RANGE OFFSET frame (specify the number of seconds instead (RANGE works with any numeric type).)
GROUPS frame
Calculating aggregate functions over a frame (sum(value) over (order by time)) (All aggregate functions are supported)
rank(), dense_rank(), row_number()
percent_rank() equal to ifNull((rank() OVER(PARTITION BY x order by y) - 1) / nullif(count(1) OVER(PARTITION BY x) -1, 0), 0), but more efficient
lag/lead(value, offset)
You can use one of the following workarounds:
1) any(value) over (.... rows between <offset> preceding and <offset> preceding), or following for lead
2) lagInFrame/leadInFrame, which are analogous, but respect the window frame. To get behavior identical to lag/lead, use rows between unbounded preceding and unbounded following
ntile(buckets)
Specify window like, (partition by x order by y rows between unbounded preceding and unrounded following).

ClickHouse-specific Window Functions

There is also the following ClickHouse specific window function:

nonNegativeDerivative(metric_column, timestamp_column[, INTERVAL X UNITS])

Finds non-negative derivative for given metric_column by timestamp_column. INTERVAL can be omitted, default is INTERVAL 1 SECOND. The computed value is the following for each row:

  • 0 for 1st row,
  • {\text{metric}_i - \text{metric}_{i-1} \over \text{timestamp}_i - \text{timestamp}_{i-1}} * \text{interval} for i_{th} row.

Syntax

aggregate_function (column_name)
  OVER ([[PARTITION BY grouping_column] [ORDER BY sorting_column] 
        [ROWS or RANGE expression_to_bound_rows_withing_the_group]] | [window_name])
FROM table_name
WINDOW window_name as ([[PARTITION BY grouping_column] [ORDER BY sorting_column])
  • PARTITION BY - defines how to break a resultset into groups.
  • ORDER BY - defines how to order rows inside the group during calculation aggregate_function.
  • ROWS or RANGE - defines bounds of a frame, aggregate_function is calculated within a frame.
  • WINDOW - allows multiple expressions to use the same window definition.
      PARTITION
┌─────────────────┐  <-- UNBOUNDED PRECEDING (BEGINNING of the PARTITION)
│                 │
│                 │
│=================│  <-- N PRECEDING  <─┐
│      N ROWS     │                     │  F
│  Before CURRENT │                     │  R
│~~~~~~~~~~~~~~~~~│  <-- CURRENT ROW    │  A
│     M ROWS      │                     │  M
│   After CURRENT │                     │  E
│=================│  <-- M FOLLOWING  <─┘
│                 │
│                 │
└─────────────────┘  <--- UNBOUNDED FOLLOWING (END of the PARTITION)

Functions

These functions can be used only as a window function.

  • row_number() - Number the current row within its partition starting from 1.
  • first_value(x) - Return the first non-NULL value evaluated within its ordered frame.
  • last_value(x) - Return the last non-NULL value evaluated within its ordered frame.
  • nth_value(x, offset) - Return the first non-NULL value evaluated against the nth row (offset) in its ordered frame.
  • rank() - Rank the current row within its partition with gaps.
  • dense_rank() - Rank the current row within its partition without gaps.
  • lagInFrame(x[, offset[, default]]) - Return a value evaluated at the row that is at a specified physical offset row before the current row within the ordered frame. The offset parameter, if not specified, defaults to 1, meaning it will fetch the value from the next row. If the calculated row exceeds the boundaries of the window frame, the specified default value is returned.
  • leadInFrame(x[, offset[, default]]) - Return a value evaluated at the row that is offset rows after the current row within the ordered frame. If offset is not provided, it defaults to 1. If the offset leads to a position outside the window frame, the specified default value is used.

Examples

Let's have a look at some examples of how window functions can be used.

Numbering rows

CREATE TABLE salaries
(
    `team` String,
    `player` String,
    `salary` UInt32,
    `position` String
)
Engine = Memory;

INSERT INTO salaries FORMAT Values
    ('Port Elizabeth Barbarians', 'Gary Chen', 195000, 'F'),
    ('New Coreystad Archdukes', 'Charles Juarez', 190000, 'F'),
    ('Port Elizabeth Barbarians', 'Michael Stanley', 150000, 'D'),
    ('New Coreystad Archdukes', 'Scott Harrison', 150000, 'D'),
    ('Port Elizabeth Barbarians', 'Robert George', 195000, 'M');
SELECT player, salary, 
       row_number() OVER (ORDER BY salary) AS row
FROM salaries;
┌─player──────────┬─salary─┬─row─┐
│ Michael Stanley │ 150000 │   1 │
│ Scott Harrison  │ 150000 │   2 │
│ Charles Juarez  │ 190000 │   3 │
│ Gary Chen       │ 195000 │   4 │
│ Robert George   │ 195000 │   5 │
└─────────────────┴────────┴─────┘
SELECT player, salary, 
       row_number() OVER (ORDER BY salary) AS row,
       rank() OVER (ORDER BY salary) AS rank,
       dense_rank() OVER (ORDER BY salary) AS denseRank
FROM salaries;
┌─player──────────┬─salary─┬─row─┬─rank─┬─denseRank─┐
│ Michael Stanley │ 150000 │   1 │    1 │         1 │
│ Scott Harrison  │ 150000 │   2 │    1 │         1 │
│ Charles Juarez  │ 190000 │   3 │    3 │         2 │
│ Gary Chen       │ 195000 │   4 │    4 │         3 │
│ Robert George   │ 195000 │   5 │    4 │         3 │
└─────────────────┴────────┴─────┴──────┴───────────┘

Aggregation functions

Compare each player's salary to the average for their team.

SELECT player, salary, team,
       avg(salary) OVER (PARTITION BY team) AS teamAvg,
       salary - teamAvg AS diff
FROM salaries;
┌─player──────────┬─salary─┬─team──────────────────────┬─teamAvg─┬───diff─┐
│ Charles Juarez  │ 190000 │ New Coreystad Archdukes   │  170000 │  20000 │
│ Scott Harrison  │ 150000 │ New Coreystad Archdukes   │  170000 │ -20000 │
│ Gary Chen       │ 195000 │ Port Elizabeth Barbarians │  180000 │  15000 │
│ Michael Stanley │ 150000 │ Port Elizabeth Barbarians │  180000 │ -30000 │
│ Robert George   │ 195000 │ Port Elizabeth Barbarians │  180000 │  15000 │
└─────────────────┴────────┴───────────────────────────┴─────────┴────────┘

Compare each player's salary to the maximum for their team.

SELECT player, salary, team,
       max(salary) OVER (PARTITION BY team) AS teamAvg,
       salary - teamAvg AS diff
FROM salaries;
┌─player──────────┬─salary─┬─team──────────────────────┬─teamAvg─┬───diff─┐
│ Charles Juarez  │ 190000 │ New Coreystad Archdukes   │  190000 │      0 │
│ Scott Harrison  │ 150000 │ New Coreystad Archdukes   │  190000 │ -40000 │
│ Gary Chen       │ 195000 │ Port Elizabeth Barbarians │  195000 │      0 │
│ Michael Stanley │ 150000 │ Port Elizabeth Barbarians │  195000 │ -45000 │
│ Robert George   │ 195000 │ Port Elizabeth Barbarians │  195000 │      0 │
└─────────────────┴────────┴───────────────────────────┴─────────┴────────┘

Partitioning by column

CREATE TABLE wf_partition
(
    `part_key` UInt64,
    `value` UInt64,
    `order` UInt64    
)
ENGINE = Memory;

INSERT INTO wf_partition FORMAT Values
   (1,1,1), (1,2,2), (1,3,3), (2,0,0), (3,0,0);

SELECT
    part_key,
    value,
    order,
    groupArray(value) OVER (PARTITION BY part_key) AS frame_values
FROM wf_partition
ORDER BY
    part_key ASC,
    value ASC;

┌─part_key─┬─value─┬─order─┬─frame_values─┐
        1      1      1  [1,2,3]         <   
        1      2      2  [1,2,3]            1-st group
        1      3      3  [1,2,3]         < 
        2      0      0  [0]             <- 2-nd group
        3      0      0  [0]             <- 3-d group
└──────────┴───────┴───────┴──────────────┘

Frame bounding

CREATE TABLE wf_frame
(
    `part_key` UInt64,
    `value` UInt64,
    `order` UInt64
)
ENGINE = Memory;

INSERT INTO wf_frame FORMAT Values
   (1,1,1), (1,2,2), (1,3,3), (1,4,4), (1,5,5);
-- Frame is bounded by bounds of a partition (BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING)
SELECT
    part_key,
    value,
    order,
    groupArray(value) OVER (
        PARTITION BY part_key 
        ORDER BY order ASC
        Rows BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING
    ) AS frame_values
FROM wf_frame
ORDER BY
    part_key ASC,
    value ASC;
    
┌─part_key─┬─value─┬─order─┬─frame_values─┐
        1      1      1  [1,2,3,4,5]  
        1      2      2  [1,2,3,4,5]  
        1      3      3  [1,2,3,4,5]  
        1      4      4  [1,2,3,4,5]  
        1      5      5  [1,2,3,4,5]  
└──────────┴───────┴───────┴──────────────┘
-- short form - no bound expression, no order by
SELECT
    part_key,
    value,
    order,
    groupArray(value) OVER (PARTITION BY part_key) AS frame_values
FROM wf_frame
ORDER BY
    part_key ASC,
    value ASC;
┌─part_key─┬─value─┬─order─┬─frame_values─┐
        1      1      1  [1,2,3,4,5]  
        1      2      2  [1,2,3,4,5]  
        1      3      3  [1,2,3,4,5]  
        1      4      4  [1,2,3,4,5]  
        1      5      5  [1,2,3,4,5]  
└──────────┴───────┴───────┴──────────────┘
-- frame is bounded by the beginning of a partition and the current row
SELECT
    part_key,
    value,
    order,
    groupArray(value) OVER (
        PARTITION BY part_key 
        ORDER BY order ASC
        Rows BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW
    ) AS frame_values
FROM wf_frame
ORDER BY
    part_key ASC,
    value ASC;

┌─part_key─┬─value─┬─order─┬─frame_values─┐
        1      1      1  [1]          
        1      2      2  [1,2]        
        1      3      3  [1,2,3]      
        1      4      4  [1,2,3,4]    
        1      5      5  [1,2,3,4,5]  
└──────────┴───────┴───────┴──────────────┘
-- short form (frame is bounded by the beginning of a partition and the current row)
SELECT
    part_key,
    value,
    order,
    groupArray(value) OVER (PARTITION BY part_key ORDER BY order ASC) AS frame_values
FROM wf_frame
ORDER BY
    part_key ASC,
    value ASC;
┌─part_key─┬─value─┬─order─┬─frame_values─┐
        1      1      1  [1]          
        1      2      2  [1,2]        
        1      3      3  [1,2,3]      
        1      4      4  [1,2,3,4]    
        1      5      5  [1,2,3,4,5]  
└──────────┴───────┴───────┴──────────────┘
-- frame is bounded by the beginning of a partition and the current row, but order is backward
SELECT
    part_key,
    value,
    order,
    groupArray(value) OVER (PARTITION BY part_key ORDER BY order DESC) AS frame_values
FROM wf_frame
ORDER BY
    part_key ASC,
    value ASC;
┌─part_key─┬─value─┬─order─┬─frame_values─┐
        1      1      1  [5,4,3,2,1]  
        1      2      2  [5,4,3,2]    
        1      3      3  [5,4,3]      
        1      4      4  [5,4]        
        1      5      5  [5]          
└──────────┴───────┴───────┴──────────────┘
-- sliding frame - 1 PRECEDING ROW AND CURRENT ROW
SELECT
    part_key,
    value,
    order,
    groupArray(value) OVER (
        PARTITION BY part_key 
        ORDER BY order ASC
        Rows BETWEEN 1 PRECEDING AND CURRENT ROW
    ) AS frame_values
FROM wf_frame
ORDER BY
    part_key ASC,
    value ASC;

┌─part_key─┬─value─┬─order─┬─frame_values─┐
        1      1      1  [1]          
        1      2      2  [1,2]        
        1      3      3  [2,3]        
        1      4      4  [3,4]        
        1      5      5  [4,5]        
└──────────┴───────┴───────┴──────────────┘
-- sliding frame - Rows BETWEEN 1 PRECEDING AND UNBOUNDED FOLLOWING 
SELECT
    part_key,
    value,
    order,
    groupArray(value) OVER (
        PARTITION BY part_key 
        ORDER BY order ASC
        Rows BETWEEN 1 PRECEDING AND UNBOUNDED FOLLOWING
    ) AS frame_values
FROM wf_frame
ORDER BY
    part_key ASC,
    value ASC;
┌─part_key─┬─value─┬─order─┬─frame_values─┐
        1      1      1  [1,2,3,4,5]  
        1      2      2  [1,2,3,4,5]  
        1      3      3  [2,3,4,5]    
        1      4      4  [3,4,5]      
        1      5      5  [4,5]        
└──────────┴───────┴───────┴──────────────┘
-- row_number does not respect the frame, so rn_1 = rn_2 = rn_3 != rn_4
SELECT
    part_key,
    value,
    order,
    groupArray(value) OVER w1 AS frame_values,
    row_number() OVER w1 AS rn_1,
    sum(1) OVER w1 AS rn_2,
    row_number() OVER w2 AS rn_3,
    sum(1) OVER w2 AS rn_4
FROM wf_frame
WINDOW
    w1 AS (PARTITION BY part_key ORDER BY order DESC),
    w2 AS (
        PARTITION BY part_key 
        ORDER BY order DESC 
        Rows BETWEEN 1 PRECEDING AND CURRENT ROW
    )
ORDER BY
    part_key ASC,
    value ASC;
┌─part_key─┬─value─┬─order─┬─frame_values─┬─rn_1─┬─rn_2─┬─rn_3─┬─rn_4─┐
        1      1      1  [5,4,3,2,1]      5     5     5     2 
        1      2      2  [5,4,3,2]        4     4     4     2 
        1      3      3  [5,4,3]          3     3     3     2 
        1      4      4  [5,4]            2     2     2     2 
        1      5      5  [5]              1     1     1     1 
└──────────┴───────┴───────┴──────────────┴──────┴──────┴──────┴──────┘
-- first_value and last_value respect the frame
SELECT
    groupArray(value) OVER w1 AS frame_values_1,
    first_value(value) OVER w1 AS first_value_1,
    last_value(value) OVER w1 AS last_value_1,
    groupArray(value) OVER w2 AS frame_values_2,
    first_value(value) OVER w2 AS first_value_2,
    last_value(value) OVER w2 AS last_value_2
FROM wf_frame
WINDOW
    w1 AS (PARTITION BY part_key ORDER BY order ASC),
    w2 AS (PARTITION BY part_key ORDER BY order ASC Rows BETWEEN 1 PRECEDING AND CURRENT ROW)
ORDER BY
    part_key ASC,
    value ASC;
┌─frame_values_1─┬─first_value_1─┬─last_value_1─┬─frame_values_2─┬─first_value_2─┬─last_value_2─┐
 [1]                         1             1  [1]                         1             1 
 [1,2]                       1             2  [1,2]                       1             2 
 [1,2,3]                     1             3  [2,3]                       2             3 
 [1,2,3,4]                   1             4  [3,4]                       3             4 
 [1,2,3,4,5]                 1             5  [4,5]                       4             5 
└────────────────┴───────────────┴──────────────┴────────────────┴───────────────┴──────────────┘
-- second value within the frame
SELECT
    groupArray(value) OVER w1 AS frame_values_1,
    nth_value(value, 2) OVER w1 AS second_value
FROM wf_frame
WINDOW w1 AS (PARTITION BY part_key ORDER BY order ASC Rows BETWEEN 3 PRECEDING AND CURRENT ROW)
ORDER BY
    part_key ASC,
    value ASC
┌─frame_values_1─┬─second_value─┐
 [1]                        0 
 [1,2]                      2 
 [1,2,3]                    2 
 [1,2,3,4]                  2 
 [2,3,4,5]                  3 
└────────────────┴──────────────┘
-- second value within the frame + Null for missing values
SELECT
    groupArray(value) OVER w1 AS frame_values_1,
    nth_value(toNullable(value), 2) OVER w1 AS second_value
FROM wf_frame
WINDOW w1 AS (PARTITION BY part_key ORDER BY order ASC Rows BETWEEN 3 PRECEDING AND CURRENT ROW)
ORDER BY
    part_key ASC,
    value ASC
┌─frame_values_1─┬─second_value─┐
 [1]                     ᴺᵁᴸᴸ 
 [1,2]                      2 
 [1,2,3]                    2 
 [1,2,3,4]                  2 
 [2,3,4,5]                  3 
└────────────────┴──────────────┘

Real world examples

The following examples solve common real-world problems.

Maximum/total salary per department

CREATE TABLE employees
(
    `department` String,
    `employee_name` String,
    `salary` Float
)
ENGINE = Memory;

INSERT INTO employees FORMAT Values
   ('Finance', 'Jonh', 200),
   ('Finance', 'Joan', 210),
   ('Finance', 'Jean', 505),
   ('IT', 'Tim', 200),
   ('IT', 'Anna', 300),
   ('IT', 'Elen', 500);
SELECT
    department,
    employee_name AS emp,
    salary,
    max_salary_per_dep,
    total_salary_per_dep,
    round((salary / total_salary_per_dep) * 100, 2) AS `share_per_dep(%)`
FROM
(
    SELECT
        department,
        employee_name,
        salary,
        max(salary) OVER wndw AS max_salary_per_dep,
        sum(salary) OVER wndw AS total_salary_per_dep
    FROM employees
    WINDOW wndw AS (
        PARTITION BY department
        rows BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING
    )
    ORDER BY
        department ASC,
        employee_name ASC
);

┌─department─┬─emp──┬─salary─┬─max_salary_per_dep─┬─total_salary_per_dep─┬─share_per_dep(%)─┐
 Finance     Jean     505                 505                   915             55.19 
 Finance     Joan     210                 505                   915             22.95 
 Finance     Jonh     200                 505                   915             21.86 
 IT          Anna     300                 500                  1000                30 
 IT          Elen     500                 500                  1000                50 
 IT          Tim      200                 500                  1000                20 
└────────────┴──────┴────────┴────────────────────┴──────────────────────┴──────────────────┘

Cumulative sum

CREATE TABLE warehouse
(
    `item` String,
    `ts` DateTime,
    `value` Float
)
ENGINE = Memory

INSERT INTO warehouse VALUES
    ('sku38', '2020-01-01', 9),
    ('sku38', '2020-02-01', 1),
    ('sku38', '2020-03-01', -4),
    ('sku1', '2020-01-01', 1),
    ('sku1', '2020-02-01', 1),
    ('sku1', '2020-03-01', 1);
SELECT
    item,
    ts,
    value,
    sum(value) OVER (PARTITION BY item ORDER BY ts ASC) AS stock_balance
FROM warehouse
ORDER BY
    item ASC,
    ts ASC;

┌─item──┬──────────────────ts─┬─value─┬─stock_balance─┐
 sku1   2020-01-01 00:00:00      1              1 
 sku1   2020-02-01 00:00:00      1              2 
 sku1   2020-03-01 00:00:00      1              3 
 sku38  2020-01-01 00:00:00      9              9 
 sku38  2020-02-01 00:00:00      1             10 
 sku38  2020-03-01 00:00:00     -4              6 
└───────┴─────────────────────┴───────┴───────────────┘

Moving / Sliding Average (per 3 rows)

CREATE TABLE sensors
(
    `metric` String,
    `ts` DateTime,
    `value` Float
)
ENGINE = Memory;

insert into sensors values('cpu_temp', '2020-01-01 00:00:00', 87),
                          ('cpu_temp', '2020-01-01 00:00:01', 77),
                          ('cpu_temp', '2020-01-01 00:00:02', 93),
                          ('cpu_temp', '2020-01-01 00:00:03', 87),
                          ('cpu_temp', '2020-01-01 00:00:04', 87),
                          ('cpu_temp', '2020-01-01 00:00:05', 87),
                          ('cpu_temp', '2020-01-01 00:00:06', 87),
                          ('cpu_temp', '2020-01-01 00:00:07', 87);
SELECT
    metric,
    ts,
    value,
    avg(value) OVER (
        PARTITION BY metric 
        ORDER BY ts ASC 
        Rows BETWEEN 2 PRECEDING AND CURRENT ROW
    ) AS moving_avg_temp
FROM sensors
ORDER BY
    metric ASC,
    ts ASC;

┌─metric───┬──────────────────ts─┬─value─┬───moving_avg_temp─┐
 cpu_temp  2020-01-01 00:00:00     87                 87 
 cpu_temp  2020-01-01 00:00:01     77                 82 
 cpu_temp  2020-01-01 00:00:02     93  85.66666666666667 
 cpu_temp  2020-01-01 00:00:03     87  85.66666666666667 
 cpu_temp  2020-01-01 00:00:04     87                 89 
 cpu_temp  2020-01-01 00:00:05     87                 87 
 cpu_temp  2020-01-01 00:00:06     87                 87 
 cpu_temp  2020-01-01 00:00:07     87                 87 
└──────────┴─────────────────────┴───────┴───────────────────┘

Moving / Sliding Average (per 10 seconds)

SELECT
    metric,
    ts,
    value,
    avg(value) OVER (PARTITION BY metric ORDER BY ts
      Range BETWEEN 10 PRECEDING AND CURRENT ROW) AS moving_avg_10_seconds_temp
FROM sensors
ORDER BY
    metric ASC,
    ts ASC;
    
┌─metric───┬──────────────────ts─┬─value─┬─moving_avg_10_seconds_temp─┐
 cpu_temp  2020-01-01 00:00:00     87                          87 
 cpu_temp  2020-01-01 00:01:10     77                          77 
 cpu_temp  2020-01-01 00:02:20     93                          93 
 cpu_temp  2020-01-01 00:03:30     87                          87 
 cpu_temp  2020-01-01 00:04:40     87                          87 
 cpu_temp  2020-01-01 00:05:50     87                          87 
 cpu_temp  2020-01-01 00:06:00     87                          87 
 cpu_temp  2020-01-01 00:07:10     87                          87 
└──────────┴─────────────────────┴───────┴────────────────────────────┘

Moving / Sliding Average (per 10 days)

Temperature is stored with second precision, but using Range and ORDER BY toDate(ts) we form a frame with the size of 10 units, and because of toDate(ts) the unit is a day.

CREATE TABLE sensors
(
    `metric` String,
    `ts` DateTime,
    `value` Float
)
ENGINE = Memory;

insert into sensors values('ambient_temp', '2020-01-01 00:00:00', 16),
                          ('ambient_temp', '2020-01-01 12:00:00', 16),
                          ('ambient_temp', '2020-01-02 11:00:00', 9),
                          ('ambient_temp', '2020-01-02 12:00:00', 9),                          
                          ('ambient_temp', '2020-02-01 10:00:00', 10),
                          ('ambient_temp', '2020-02-01 12:00:00', 10),
                          ('ambient_temp', '2020-02-10 12:00:00', 12),                          
                          ('ambient_temp', '2020-02-10 13:00:00', 12),
                          ('ambient_temp', '2020-02-20 12:00:01', 16),
                          ('ambient_temp', '2020-03-01 12:00:00', 16),
                          ('ambient_temp', '2020-03-01 12:00:00', 16),
                          ('ambient_temp', '2020-03-01 12:00:00', 16);
SELECT
    metric,
    ts,
    value,
    round(avg(value) OVER (PARTITION BY metric ORDER BY toDate(ts) 
       Range BETWEEN 10 PRECEDING AND CURRENT ROW),2) AS moving_avg_10_days_temp
FROM sensors
ORDER BY
    metric ASC,
    ts ASC;

┌─metric───────┬──────────────────ts─┬─value─┬─moving_avg_10_days_temp─┐
 ambient_temp  2020-01-01 00:00:00     16                       16 
 ambient_temp  2020-01-01 12:00:00     16                       16 
 ambient_temp  2020-01-02 11:00:00      9                     12.5 
 ambient_temp  2020-01-02 12:00:00      9                     12.5 
 ambient_temp  2020-02-01 10:00:00     10                       10 
 ambient_temp  2020-02-01 12:00:00     10                       10 
 ambient_temp  2020-02-10 12:00:00     12                       11 
 ambient_temp  2020-02-10 13:00:00     12                       11 
 ambient_temp  2020-02-20 12:00:01     16                    13.33 
 ambient_temp  2020-03-01 12:00:00     16                       16 
 ambient_temp  2020-03-01 12:00:00     16                       16 
 ambient_temp  2020-03-01 12:00:00     16                       16 
└──────────────┴─────────────────────┴───────┴─────────────────────────┘

References

GitHub Issues

The roadmap for the initial support of window functions is in this issue.

All GitHub issues related to window functions have the comp-window-functions tag.

Tests

These tests contain the examples of the currently supported grammar:

https://github.com/ClickHouse/ClickHouse/blob/master/tests/performance/window_functions.xml

https://github.com/ClickHouse/ClickHouse/blob/master/tests/queries/0_stateless/01591_window_functions.sql

Postgres Docs

https://www.postgresql.org/docs/current/sql-select.html#SQL-WINDOW

https://www.postgresql.org/docs/devel/sql-expressions.html#SYNTAX-WINDOW-FUNCTIONS

https://www.postgresql.org/docs/devel/functions-window.html

https://www.postgresql.org/docs/devel/tutorial-window.html

MySQL Docs

https://dev.mysql.com/doc/refman/8.0/en/window-function-descriptions.html

https://dev.mysql.com/doc/refman/8.0/en/window-functions-usage.html

https://dev.mysql.com/doc/refman/8.0/en/window-functions-frames.html