ClickHouse/docs/en/sql-reference/statements/select/array-join.md
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---
toc_title: ARRAY JOIN
---
# ARRAY JOIN Clause {#select-array-join-clause}
It is a common operation for tables that contain an array column to produce a new table that has a column with each individual array element of that initial column, while values of other columns are duplicated. This is the basic case of what `ARRAY JOIN` clause does.
Its name comes from the fact that it can be looked at as executing `JOIN` with an array or nested data structure. The intent is similar to the [arrayJoin](../../../sql-reference/functions/array-join.md#functions_arrayjoin) function, but the clause functionality is broader.
Syntax:
``` sql
SELECT <expr_list>
FROM <left_subquery>
[LEFT] ARRAY JOIN <array>
[WHERE|PREWHERE <expr>]
...
```
You can specify only one `ARRAY JOIN` clause in a `SELECT` query.
Supported types of `ARRAY JOIN` are listed below:
- `ARRAY JOIN` - In base case, empty arrays are not included in the result of `JOIN`.
- `LEFT ARRAY JOIN` - The result of `JOIN` contains rows with empty arrays. The value for an empty array is set to the default value for the array element type (usually 0, empty string or NULL).
## Basic ARRAY JOIN Examples {#basic-array-join-examples}
The examples below demonstrate the usage of the `ARRAY JOIN` and `LEFT ARRAY JOIN` clauses. Lets create a table with an [Array](../../../sql-reference/data-types/array.md) type column and insert values into it:
``` sql
CREATE TABLE arrays_test
(
s String,
arr Array(UInt8)
) ENGINE = Memory;
INSERT INTO arrays_test
VALUES ('Hello', [1,2]), ('World', [3,4,5]), ('Goodbye', []);
```
``` text
┌─s───────────┬─arr─────┐
│ Hello │ [1,2] │
│ World │ [3,4,5] │
│ Goodbye │ [] │
└─────────────┴─────────┘
```
The example below uses the `ARRAY JOIN` clause:
``` sql
SELECT s, arr
FROM arrays_test
ARRAY JOIN arr;
```
``` text
┌─s─────┬─arr─┐
│ Hello │ 1 │
│ Hello │ 2 │
│ World │ 3 │
│ World │ 4 │
│ World │ 5 │
└───────┴─────┘
```
The next example uses the `LEFT ARRAY JOIN` clause:
``` sql
SELECT s, arr
FROM arrays_test
LEFT ARRAY JOIN arr;
```
``` text
┌─s───────────┬─arr─┐
│ Hello │ 1 │
│ Hello │ 2 │
│ World │ 3 │
│ World │ 4 │
│ World │ 5 │
│ Goodbye │ 0 │
└─────────────┴─────┘
```
## Using Aliases {#using-aliases}
An alias can be specified for an array in the `ARRAY JOIN` clause. In this case, an array item can be accessed by this alias, but the array itself is accessed by the original name. Example:
``` sql
SELECT s, arr, a
FROM arrays_test
ARRAY JOIN arr AS a;
```
``` text
┌─s─────┬─arr─────┬─a─┐
│ Hello │ [1,2] │ 1 │
│ Hello │ [1,2] │ 2 │
│ World │ [3,4,5] │ 3 │
│ World │ [3,4,5] │ 4 │
│ World │ [3,4,5] │ 5 │
└───────┴─────────┴───┘
```
Using aliases, you can perform `ARRAY JOIN` with an external array. For example:
``` sql
SELECT s, arr_external
FROM arrays_test
ARRAY JOIN [1, 2, 3] AS arr_external;
```
``` text
┌─s───────────┬─arr_external─┐
│ Hello │ 1 │
│ Hello │ 2 │
│ Hello │ 3 │
│ World │ 1 │
│ World │ 2 │
│ World │ 3 │
│ Goodbye │ 1 │
│ Goodbye │ 2 │
│ Goodbye │ 3 │
└─────────────┴──────────────┘
```
Multiple arrays can be comma-separated in the `ARRAY JOIN` clause. In this case, `JOIN` is performed with them simultaneously (the direct sum, not the cartesian product). Note that all the arrays must have the same size. Example:
``` sql
SELECT s, arr, a, num, mapped
FROM arrays_test
ARRAY JOIN arr AS a, arrayEnumerate(arr) AS num, arrayMap(x -> x + 1, arr) AS mapped;
```
``` text
┌─s─────┬─arr─────┬─a─┬─num─┬─mapped─┐
│ Hello │ [1,2] │ 1 │ 1 │ 2 │
│ Hello │ [1,2] │ 2 │ 2 │ 3 │
│ World │ [3,4,5] │ 3 │ 1 │ 4 │
│ World │ [3,4,5] │ 4 │ 2 │ 5 │
│ World │ [3,4,5] │ 5 │ 3 │ 6 │
└───────┴─────────┴───┴─────┴────────┘
```
The example below uses the [arrayEnumerate](../../../sql-reference/functions/array-functions.md#array_functions-arrayenumerate) function:
``` sql
SELECT s, arr, a, num, arrayEnumerate(arr)
FROM arrays_test
ARRAY JOIN arr AS a, arrayEnumerate(arr) AS num;
```
``` text
┌─s─────┬─arr─────┬─a─┬─num─┬─arrayEnumerate(arr)─┐
│ Hello │ [1,2] │ 1 │ 1 │ [1,2] │
│ Hello │ [1,2] │ 2 │ 2 │ [1,2] │
│ World │ [3,4,5] │ 3 │ 1 │ [1,2,3] │
│ World │ [3,4,5] │ 4 │ 2 │ [1,2,3] │
│ World │ [3,4,5] │ 5 │ 3 │ [1,2,3] │
└───────┴─────────┴───┴─────┴─────────────────────┘
```
## ARRAY JOIN with Nested Data Structure {#array-join-with-nested-data-structure}
`ARRAY JOIN` also works with [nested data structures](../../../sql-reference/data-types/nested-data-structures/nested.md):
``` sql
CREATE TABLE nested_test
(
s String,
nest Nested(
x UInt8,
y UInt32)
) ENGINE = Memory;
INSERT INTO nested_test
VALUES ('Hello', [1,2], [10,20]), ('World', [3,4,5], [30,40,50]), ('Goodbye', [], []);
```
``` text
┌─s───────┬─nest.x──┬─nest.y─────┐
│ Hello │ [1,2] │ [10,20] │
│ World │ [3,4,5] │ [30,40,50] │
│ Goodbye │ [] │ [] │
└─────────┴─────────┴────────────┘
```
``` sql
SELECT s, `nest.x`, `nest.y`
FROM nested_test
ARRAY JOIN nest;
```
``` text
┌─s─────┬─nest.x─┬─nest.y─┐
│ Hello │ 1 │ 10 │
│ Hello │ 2 │ 20 │
│ World │ 3 │ 30 │
│ World │ 4 │ 40 │
│ World │ 5 │ 50 │
└───────┴────────┴────────┘
```
When specifying names of nested data structures in `ARRAY JOIN`, the meaning is the same as `ARRAY JOIN` with all the array elements that it consists of. Examples are listed below:
``` sql
SELECT s, `nest.x`, `nest.y`
FROM nested_test
ARRAY JOIN `nest.x`, `nest.y`;
```
``` text
┌─s─────┬─nest.x─┬─nest.y─┐
│ Hello │ 1 │ 10 │
│ Hello │ 2 │ 20 │
│ World │ 3 │ 30 │
│ World │ 4 │ 40 │
│ World │ 5 │ 50 │
└───────┴────────┴────────┘
```
This variation also makes sense:
``` sql
SELECT s, `nest.x`, `nest.y`
FROM nested_test
ARRAY JOIN `nest.x`;
```
``` text
┌─s─────┬─nest.x─┬─nest.y─────┐
│ Hello │ 1 │ [10,20] │
│ Hello │ 2 │ [10,20] │
│ World │ 3 │ [30,40,50] │
│ World │ 4 │ [30,40,50] │
│ World │ 5 │ [30,40,50] │
└───────┴────────┴────────────┘
```
An alias may be used for a nested data structure, in order to select either the `JOIN` result or the source array. Example:
``` sql
SELECT s, `n.x`, `n.y`, `nest.x`, `nest.y`
FROM nested_test
ARRAY JOIN nest AS n;
```
``` text
┌─s─────┬─n.x─┬─n.y─┬─nest.x──┬─nest.y─────┐
│ Hello │ 1 │ 10 │ [1,2] │ [10,20] │
│ Hello │ 2 │ 20 │ [1,2] │ [10,20] │
│ World │ 3 │ 30 │ [3,4,5] │ [30,40,50] │
│ World │ 4 │ 40 │ [3,4,5] │ [30,40,50] │
│ World │ 5 │ 50 │ [3,4,5] │ [30,40,50] │
└───────┴─────┴─────┴─────────┴────────────┘
```
Example of using the [arrayEnumerate](../../../sql-reference/functions/array-functions.md#array_functions-arrayenumerate) function:
``` sql
SELECT s, `n.x`, `n.y`, `nest.x`, `nest.y`, num
FROM nested_test
ARRAY JOIN nest AS n, arrayEnumerate(`nest.x`) AS num;
```
``` text
┌─s─────┬─n.x─┬─n.y─┬─nest.x──┬─nest.y─────┬─num─┐
│ Hello │ 1 │ 10 │ [1,2] │ [10,20] │ 1 │
│ Hello │ 2 │ 20 │ [1,2] │ [10,20] │ 2 │
│ World │ 3 │ 30 │ [3,4,5] │ [30,40,50] │ 1 │
│ World │ 4 │ 40 │ [3,4,5] │ [30,40,50] │ 2 │
│ World │ 5 │ 50 │ [3,4,5] │ [30,40,50] │ 3 │
└───────┴─────┴─────┴─────────┴────────────┴─────┘
```
## Implementation Details {#implementation-details}
The query execution order is optimized when running `ARRAY JOIN`. Although `ARRAY JOIN` must always be specified before the [WHERE](../../../sql-reference/statements/select/where.md)/[PREWHERE](../../../sql-reference/statements/select/prewhere.md) clause in a query, technically they can be performed in any order, unless result of `ARRAY JOIN` is used for filtering. The processing order is controlled by the query optimizer.