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---
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slug: /en/sql-reference/functions/other-functions
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sidebar_position: 140
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sidebar_label: Other
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---
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# Other Functions
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## hostName
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Returns the name of the host on which this function was executed. If the function executes on a remote server (distributed processing), the remote server name is returned.
If the function executes in the context of a distributed table, it generates a normal column with values relevant to each shard. Otherwise it produces a constant value.
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**Syntax**
```sql
hostName()
```
**Returned value**
- Host name. [String ](../data-types/string.md ).
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## getMacro {#getMacro}
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Returns a named value from the [macros ](../../operations/server-configuration-parameters/settings.md#macros ) section of the server configuration.
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**Syntax**
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```sql
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getMacro(name);
```
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**Arguments**
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- `name` — Macro name to retrieve from the `<macros>` section. [String ](../data-types/string.md#string ).
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**Returned value**
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- Value of the specified macro. [String ](../data-types/string.md ).
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**Example**
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Example `<macros>` section in the server configuration file:
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```xml
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< macros >
< test > Value< / test >
< / macros >
```
Query:
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```sql
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SELECT getMacro('test');
```
Result:
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```text
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┌─getMacro('test')─┐
│ Value │
└──────────────────┘
```
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The same value can be retrieved as follows:
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```sql
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SELECT * FROM system.macros
WHERE macro = 'test';
```
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```text
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┌─macro─┬─substitution─┐
│ test │ Value │
└───────┴──────────────┘
```
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## fqdn
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Returns the fully qualified domain name of the ClickHouse server.
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**Syntax**
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```sql
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fqdn();
```
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Aliases: `fullHostName` , `FQDN` .
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**Returned value**
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- String with the fully qualified domain name. [String ](../data-types/string.md ).
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**Example**
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```sql
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SELECT FQDN();
```
Result:
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```text
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┌─FQDN()──────────────────────────┐
│ clickhouse.ru-central1.internal │
└─────────────────────────────────┘
```
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## basename
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Extracts the tail of a string following its last slash or backslash. This function if often used to extract the filename from a path.
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```sql
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basename(expr)
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```
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**Arguments**
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- `expr` — A value of type [String ](../data-types/string.md ). Backslashes must be escaped.
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**Returned Value**
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A string that contains:
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- The tail of the input string after its last slash or backslash. If the input string ends with a slash or backslash (e.g. `/` or `c:\` ), the function returns an empty string.
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- The original string if there are no slashes or backslashes.
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**Example**
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Query:
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```sql
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SELECT 'some/long/path/to/file' AS a, basename(a)
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```
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Result:
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```text
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┌─a──────────────────────┬─basename('some\\long\\path\\to\\file')─┐
│ some\long\path\to\file │ file │
└────────────────────────┴────────────────────────────────────────┘
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```
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Query:
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```sql
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SELECT 'some\\long\\path\\to\\file' AS a, basename(a)
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```
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Result:
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```text
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┌─a──────────────────────┬─basename('some\\long\\path\\to\\file')─┐
│ some\long\path\to\file │ file │
└────────────────────────┴────────────────────────────────────────┘
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```
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Query:
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```sql
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SELECT 'some-file-name' AS a, basename(a)
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```
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Result:
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```text
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┌─a──────────────┬─basename('some-file-name')─┐
│ some-file-name │ some-file-name │
└────────────────┴────────────────────────────┘
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```
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## visibleWidth
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Calculates the approximate width when outputting values to the console in text format (tab-separated).
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This function is used by the system to implement [Pretty formats ](../../interfaces/formats.md ).
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`NULL` is represented as a string corresponding to `NULL` in `Pretty` formats.
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**Syntax**
```sql
visibleWidth(x)
```
**Example**
Query:
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```sql
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SELECT visibleWidth(NULL)
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```
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Result:
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```text
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┌─visibleWidth(NULL)─┐
│ 4 │
└────────────────────┘
```
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## toTypeName
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Returns the type name of the passed argument.
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If `NULL` is passed, the function returns type `Nullable(Nothing)` , which corresponds to ClickHouse's internal `NULL` representation.
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**Syntax**
```sql
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toTypeName(value)
```
**Arguments**
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- `value` — A value of arbitrary type.
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**Returned value**
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- The data type name of the input value. [String ](../data-types/string.md ).
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**Example**
Query:
```sql
SELECT toTypeName(123);
```
Result:
```response
┌─toTypeName(123)─┐
│ UInt8 │
└─────────────────┘
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```
## blockSize {#blockSize}
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In ClickHouse, queries are processed in [blocks ](../../development/architecture.md/#block-block ) (chunks).
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This function returns the size (row count) of the block the function is called on.
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**Syntax**
```sql
blockSize()
```
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**Example**
Query:
```sql
DROP TABLE IF EXISTS test;
CREATE TABLE test (n UInt8) ENGINE = Memory;
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INSERT INTO test
SELECT * FROM system.numbers LIMIT 5;
SELECT blockSize()
FROM test;
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```
Result:
```response
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┌─blockSize()─┐
1. │ 5 │
2. │ 5 │
3. │ 5 │
4. │ 5 │
5. │ 5 │
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└─────────────┘
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```
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## byteSize
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Returns an estimation of uncompressed byte size of its arguments in memory.
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**Syntax**
```sql
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byteSize(argument [, ...])
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```
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**Arguments**
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- `argument` — Value.
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**Returned value**
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- Estimation of byte size of the arguments in memory. [UInt64 ](../data-types/int-uint.md ).
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**Examples**
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For [String ](../data-types/string.md ) arguments, the function returns the string length + 9 (terminating zero + length).
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Query:
```sql
SELECT byteSize('string');
```
Result:
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```text
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┌─byteSize('string')─┐
│ 15 │
└────────────────────┘
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```
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Query:
```sql
CREATE TABLE test
(
`key` Int32,
`u8` UInt8,
`u16` UInt16,
`u32` UInt32,
`u64` UInt64,
`i8` Int8,
`i16` Int16,
`i32` Int32,
`i64` Int64,
`f32` Float32,
`f64` Float64
)
ENGINE = MergeTree
ORDER BY key;
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INSERT INTO test VALUES(1, 8, 16, 32, 64, -8, -16, -32, -64, 32.32, 64.64);
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SELECT key, byteSize(u8) AS `byteSize(UInt8)` , byteSize(u16) AS `byteSize(UInt16)` , byteSize(u32) AS `byteSize(UInt32)` , byteSize(u64) AS `byteSize(UInt64)` , byteSize(i8) AS `byteSize(Int8)` , byteSize(i16) AS `byteSize(Int16)` , byteSize(i32) AS `byteSize(Int32)` , byteSize(i64) AS `byteSize(Int64)` , byteSize(f32) AS `byteSize(Float32)` , byteSize(f64) AS `byteSize(Float64)` FROM test ORDER BY key ASC FORMAT Vertical;
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```
Result:
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```text
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Row 1:
──────
key: 1
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byteSize(UInt8): 1
byteSize(UInt16): 2
byteSize(UInt32): 4
byteSize(UInt64): 8
byteSize(Int8): 1
byteSize(Int16): 2
byteSize(Int32): 4
byteSize(Int64): 8
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byteSize(Float32): 4
byteSize(Float64): 8
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```
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If the function has multiple arguments, the function accumulates their byte sizes.
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Query:
```sql
SELECT byteSize(NULL, 1, 0.3, '');
```
Result:
```text
┌─byteSize(NULL, 1, 0.3, '')─┐
│ 19 │
└────────────────────────────┘
```
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## materialize
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Turns a constant into a full column containing a single value.
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Full columns and constants are represented differently in memory.
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Functions usually execute different code for normal and constant arguments, although the result should typically be the same.
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This function can be used to debug this behavior.
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**Syntax**
```sql
materialize(x)
```
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**Parameters**
- `x` — A constant. [Constant ](../functions/index.md/#constants ).
**Returned value**
- A column containing a single value `x` .
**Example**
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In the example below the `countMatches` function expects a constant second argument.
This behaviour can be debugged by using the `materialize` function to turn a constant into a full column,
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verifying that the function throws an error for a non-constant argument.
Query:
```sql
SELECT countMatches('foobarfoo', 'foo');
SELECT countMatches('foobarfoo', materialize('foo'));
```
Result:
```response
2
Code: 44. DB::Exception: Received from localhost:9000. DB::Exception: Illegal type of argument #2 'pattern' of function countMatches, expected constant String, got String
```
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## ignore
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Accepts arbitrary arguments and unconditionally returns `0` .
The argument is still evaluated internally, making it useful for eg. benchmarking.
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**Syntax**
```sql
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ignore([arg1[, arg2[, ...]])
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```
**Arguments**
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- Accepts arbitrarily many arguments of arbitrary type, including `NULL` .
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**Returned value**
- Returns `0` .
**Example**
Query:
```sql
SELECT ignore(0, 'ClickHouse', NULL);
```
Result:
```response
┌─ignore(0, 'ClickHouse', NULL)─┐
│ 0 │
└───────────────────────────────┘
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```
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## sleep
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Used to introduce a delay or pause in the execution of a query. It is primarily used for testing and debugging purposes.
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**Syntax**
```sql
sleep(seconds)
```
**Arguments**
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- `seconds` : [UInt* ](../data-types/int-uint.md ) or [Float ](../data-types/float.md ) The number of seconds to pause the query execution to a maximum of 3 seconds. It can be a floating-point value to specify fractional seconds.
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**Returned value**
This function does not return any value.
**Example**
```sql
SELECT sleep(2);
```
This function does not return any value. However, if you run the function with `clickhouse client` you will see something similar to:
```response
SELECT sleep(2)
Query id: 8aa9943e-a686-45e1-8317-6e8e3a5596ac
┌─sleep(2)─┐
│ 0 │
└──────────┘
1 row in set. Elapsed: 2.012 sec.
```
This query will pause for 2 seconds before completing. During this time, no results will be returned, and the query will appear to be hanging or unresponsive.
**Implementation details**
The `sleep()` function is generally not used in production environments, as it can negatively impact query performance and system responsiveness. However, it can be useful in the following scenarios:
1. **Testing** : When testing or benchmarking ClickHouse, you may want to simulate delays or introduce pauses to observe how the system behaves under certain conditions.
2. **Debugging** : If you need to examine the state of the system or the execution of a query at a specific point in time, you can use `sleep()` to introduce a pause, allowing you to inspect or collect relevant information.
3. **Simulation** : In some cases, you may want to simulate real-world scenarios where delays or pauses occur, such as network latency or external system dependencies.
It's important to use the `sleep()` function judiciously and only when necessary, as it can potentially impact the overall performance and responsiveness of your ClickHouse system.
## sleepEachRow
Pauses the execution of a query for a specified number of seconds for each row in the result set.
**Syntax**
```sql
sleepEachRow(seconds)
```
**Arguments**
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- `seconds` : [UInt* ](../data-types/int-uint.md ) or [Float* ](../data-types/float.md ) The number of seconds to pause the query execution for each row in the result set to a maximum of 3 seconds. It can be a floating-point value to specify fractional seconds.
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**Returned value**
This function returns the same input values as it receives, without modifying them.
**Example**
```sql
SELECT number, sleepEachRow(0.5) FROM system.numbers LIMIT 5;
```
```response
┌─number─┬─sleepEachRow(0.5)─┐
│ 0 │ 0 │
│ 1 │ 0 │
│ 2 │ 0 │
│ 3 │ 0 │
│ 4 │ 0 │
└────────┴───────────────────┘
```
But the output will be delayed, with a 0.5-second pause between each row.
The `sleepEachRow()` function is primarily used for testing and debugging purposes, similar to the `sleep()` function. It allows you to simulate delays or introduce pauses in the processing of each row, which can be useful in scenarios such as:
1. **Testing** : When testing or benchmarking ClickHouse's performance under specific conditions, you can use `sleepEachRow()` to simulate delays or introduce pauses for each row processed.
2. **Debugging** : If you need to examine the state of the system or the execution of a query for each row processed, you can use `sleepEachRow()` to introduce pauses, allowing you to inspect or collect relevant information.
3. **Simulation** : In some cases, you may want to simulate real-world scenarios where delays or pauses occur for each row processed, such as when dealing with external systems or network latencies.
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Like the [`sleep()` function ](#sleep ), it's important to use `sleepEachRow()` judiciously and only when necessary, as it can significantly impact the overall performance and responsiveness of your ClickHouse system, especially when dealing with large result sets.
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## currentDatabase
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Returns the name of the current database.
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Useful in table engine parameters of `CREATE TABLE` queries where you need to specify the database.
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**Syntax**
```sql
currentDatabase()
```
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**Returned value**
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- Returns the current database name. [String ](../data-types/string.md ).
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**Example**
Query:
```sql
SELECT currentDatabase()
```
Result:
```response
┌─currentDatabase()─┐
│ default │
└───────────────────┘
```
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## currentUser {#currentUser}
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Returns the name of the current user. In case of a distributed query, the name of the user who initiated the query is returned.
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**Syntax**
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```sql
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currentUser()
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```
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Aliases: `user()` , `USER()` , `current_user()` . Aliases are case insensitive.
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**Returned values**
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- The name of the current user. [String ](../data-types/string.md ).
- In distributed queries, the login of the user who initiated the query. [String ](../data-types/string.md ).
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**Example**
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```sql
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SELECT currentUser();
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```
Result:
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```text
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┌─currentUser()─┐
│ default │
└───────────────┘
```
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## currentSchemas
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Returns a single-element array with the name of the current database schema.
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**Syntax**
```sql
currentSchemas(bool)
```
Alias: `current_schemas` .
**Arguments**
- `bool` : A boolean value. [Bool ](../data-types/boolean.md ).
:::note
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The boolean argument is ignored. It only exists for the sake of compatibility with the [implementation ](https://www.postgresql.org/docs/7.3/functions-misc.html ) of this function in PostgreSQL.
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:::
**Returned values**
- Returns a single-element array with the name of the current database
**Example**
```sql
SELECT currentSchemas(true);
```
Result:
```response
['default']
```
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## isConstant
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Returns whether the argument is a constant expression.
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A constant expression is an expression whose result is known during query analysis, i.e. before execution. For example, expressions over [literals ](../../sql-reference/syntax.md#literals ) are constant expressions.
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This function is mostly intended for development, debugging and demonstration.
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**Syntax**
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```sql
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isConstant(x)
```
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**Arguments**
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- `x` — Expression to check.
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**Returned values**
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- `1` if `x` is constant. [UInt8 ](../data-types/int-uint.md ).
- `0` if `x` is non-constant. [UInt8 ](../data-types/int-uint.md ).
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**Examples**
Query:
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```sql
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SELECT isConstant(x + 1) FROM (SELECT 43 AS x)
```
Result:
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```text
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┌─isConstant(plus(x, 1))─┐
│ 1 │
└────────────────────────┘
```
Query:
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```sql
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WITH 3.14 AS pi SELECT isConstant(cos(pi))
```
Result:
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```text
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┌─isConstant(cos(pi))─┐
│ 1 │
└─────────────────────┘
```
Query:
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```sql
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SELECT isConstant(number) FROM numbers(1)
```
Result:
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```text
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┌─isConstant(number)─┐
│ 0 │
└────────────────────┘
```
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## hasColumnInTable
Given the database name, the table name, and the column name as constant strings, returns 1 if the given column exists, otherwise 0.
**Syntax**
```sql
hasColumnInTable(\[‘ hostname’ \[, ‘ username’ \[, ‘ password’ \]\],\] ‘ database’ , ‘ table’ , ‘ column’ )
```
**Parameters**
- `database` : name of the database. [String literal ](../syntax#syntax-string-literal )
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- `table` : name of the table. [String literal ](../syntax#syntax-string-literal )
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- `column` : name of the column. [String literal ](../syntax#syntax-string-literal )
- `hostname` : remote server name to perform the check on. [String literal ](../syntax#syntax-string-literal )
- `username` : username for remote server. [String literal ](../syntax#syntax-string-literal )
- `password` : password for remote server. [String literal ](../syntax#syntax-string-literal )
**Returned value**
- `1` if the given column exists.
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- `0` , otherwise.
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**Implementation details**
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For elements in a nested data structure, the function checks for the existence of a column. For the nested data structure itself, the function returns 0.
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**Example**
Query:
```sql
SELECT hasColumnInTable('system','metrics','metric')
```
```response
1
```
```sql
SELECT hasColumnInTable('system','metrics','non-existing_column')
```
```response
0
```
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## hasThreadFuzzer
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Returns whether Thread Fuzzer is effective. It can be used in tests to prevent runs from being too long.
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**Syntax**
```sql
hasThreadFuzzer();
```
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## bar
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Builds a bar chart.
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`bar(x, min, max, width)` draws a band with width proportional to `(x - min)` and equal to `width` characters when `x = max` .
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**Arguments**
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- `x` — Size to display.
- `min, max` — Integer constants. The value must fit in `Int64` .
- `width` — Constant, positive integer, can be fractional.
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The band is drawn with accuracy to one eighth of a symbol.
Example:
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```sql
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SELECT
toHour(EventTime) AS h,
count() AS c,
bar(c, 0, 600000, 20) AS bar
FROM test.hits
GROUP BY h
ORDER BY h ASC
```
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```text
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┌──h─┬──────c─┬─bar────────────────┐
│ 0 │ 292907 │ █████████▋ │
│ 1 │ 180563 │ ██████ │
│ 2 │ 114861 │ ███▋ │
│ 3 │ 85069 │ ██▋ │
│ 4 │ 68543 │ ██▎ │
│ 5 │ 78116 │ ██▌ │
│ 6 │ 113474 │ ███▋ │
│ 7 │ 170678 │ █████▋ │
│ 8 │ 278380 │ █████████▎ │
│ 9 │ 391053 │ █████████████ │
│ 10 │ 457681 │ ███████████████▎ │
│ 11 │ 493667 │ ████████████████▍ │
│ 12 │ 509641 │ ████████████████▊ │
│ 13 │ 522947 │ █████████████████▍ │
│ 14 │ 539954 │ █████████████████▊ │
│ 15 │ 528460 │ █████████████████▌ │
│ 16 │ 539201 │ █████████████████▊ │
│ 17 │ 523539 │ █████████████████▍ │
│ 18 │ 506467 │ ████████████████▊ │
│ 19 │ 520915 │ █████████████████▎ │
│ 20 │ 521665 │ █████████████████▍ │
│ 21 │ 542078 │ ██████████████████ │
│ 22 │ 493642 │ ████████████████▍ │
│ 23 │ 400397 │ █████████████▎ │
└────┴────────┴────────────────────┘
```
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## transform
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Transforms a value according to the explicitly defined mapping of some elements to other ones.
There are two variations of this function:
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### transform(x, array_from, array_to, default)
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`x` – What to transform.
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`array_from` – Constant array of values to convert.
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`array_to` – Constant array of values to convert the values in ‘ from’ to.
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`default` – Which value to use if ‘ x’ is not equal to any of the values in ‘ from’ .
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`array_from` and `array_to` must have equally many elements.
Signature:
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For `x` equal to one of the elements in `array_from` , the function returns the corresponding element in `array_to` , i.e. the one at the same array index. Otherwise, it returns `default` . If multiple matching elements exist `array_from` , it returns the element corresponding to the first of them.
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`transform(T, Array(T), Array(U), U) -> U`
`T` and `U` can be numeric, string, or Date or DateTime types.
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The same letter (T or U) means that types must be mutually compatible and not necessarily equal.
For example, the first argument could have type `Int64` , while the second argument could have type `Array(UInt16)` .
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Example:
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```sql
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SELECT
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transform(SearchEngineID, [2, 3], ['Yandex', 'Google'], 'Other') AS title,
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count() AS c
FROM test.hits
WHERE SearchEngineID != 0
GROUP BY title
ORDER BY c DESC
```
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```text
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┌─title─────┬──────c─┐
│ Yandex │ 498635 │
│ Google │ 229872 │
│ Other │ 104472 │
└───────────┴────────┘
```
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### transform(x, array_from, array_to)
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Similar to the other variation but has no ‘ default’ argument. In case no match can be found, `x` is returned.
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Example:
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```sql
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SELECT
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transform(domain(Referer), ['yandex.ru', 'google.ru', 'vkontakte.ru'], ['www.yandex', 'example.com', 'vk.com']) AS s,
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count() AS c
FROM test.hits
GROUP BY domain(Referer)
ORDER BY count() DESC
LIMIT 10
```
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```text
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┌─s──────────────┬───────c─┐
│ │ 2906259 │
│ www.yandex │ 867767 │
│ ███████.ru │ 313599 │
│ mail.yandex.ru │ 107147 │
│ ██████.ru │ 100355 │
│ █████████.ru │ 65040 │
│ news.yandex.ru │ 64515 │
│ ██████.net │ 59141 │
│ example.com │ 57316 │
└────────────────┴─────────┘
```
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## formatReadableDecimalSize
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Given a size (number of bytes), this function returns a readable, rounded size with suffix (KB, MB, etc.) as string.
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The opposite operations of this function are [parseReadableSize ](#parsereadablesize ), [parseReadableSizeOrZero ](#parsereadablesizeorzero ), and [parseReadableSizeOrNull ](#parsereadablesizeornull ).
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**Syntax**
```sql
formatReadableDecimalSize(x)
```
**Example**
Query:
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```sql
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SELECT
arrayJoin([1, 1024, 1024*1024, 192851925]) AS filesize_bytes,
formatReadableDecimalSize(filesize_bytes) AS filesize
```
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Result:
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```text
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┌─filesize_bytes─┬─filesize───┐
│ 1 │ 1.00 B │
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│ 1024 │ 1.02 KB │
│ 1048576 │ 1.05 MB │
│ 192851925 │ 192.85 MB │
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└────────────────┴────────────┘
```
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## formatReadableSize
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Given a size (number of bytes), this function returns a readable, rounded size with suffix (KiB, MiB, etc.) as string.
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The opposite operations of this function are [parseReadableSize ](#parsereadablesize ), [parseReadableSizeOrZero ](#parsereadablesizeorzero ), and [parseReadableSizeOrNull ](#parsereadablesizeornull ).
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**Syntax**
```sql
formatReadableSize(x)
```
Alias: `FORMAT_BYTES` .
**Example**
Query:
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```sql
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SELECT
arrayJoin([1, 1024, 1024*1024, 192851925]) AS filesize_bytes,
formatReadableSize(filesize_bytes) AS filesize
```
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Result:
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```text
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┌─filesize_bytes─┬─filesize───┐
│ 1 │ 1.00 B │
│ 1024 │ 1.00 KiB │
│ 1048576 │ 1.00 MiB │
│ 192851925 │ 183.92 MiB │
└────────────────┴────────────┘
```
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## formatReadableQuantity
Given a number, this function returns a rounded number with suffix (thousand, million, billion, etc.) as string.
**Syntax**
```sql
formatReadableQuantity(x)
```
**Example**
Query:
```sql
SELECT
arrayJoin([1024, 1234 * 1000, (4567 * 1000) * 1000, 98765432101234]) AS number,
formatReadableQuantity(number) AS number_for_humans
```
Result:
```text
┌─────────number─┬─number_for_humans─┐
│ 1024 │ 1.02 thousand │
│ 1234000 │ 1.23 million │
│ 4567000000 │ 4.57 billion │
│ 98765432101234 │ 98.77 trillion │
└────────────────┴───────────────────┘
```
## formatReadableTimeDelta
Given a time interval (delta) in seconds, this function returns a time delta with year/month/day/hour/minute/second/millisecond/microsecond/nanosecond as string.
**Syntax**
```sql
formatReadableTimeDelta(column[, maximum_unit, minimum_unit])
```
**Arguments**
- `column` — A column with a numeric time delta.
- `maximum_unit` — Optional. Maximum unit to show.
- Acceptable values: `nanoseconds` , `microseconds` , `milliseconds` , `seconds` , `minutes` , `hours` , `days` , `months` , `years` .
- Default value: `years` .
- `minimum_unit` — Optional. Minimum unit to show. All smaller units are truncated.
- Acceptable values: `nanoseconds` , `microseconds` , `milliseconds` , `seconds` , `minutes` , `hours` , `days` , `months` , `years` .
- If explicitly specified value is bigger than `maximum_unit` , an exception will be thrown.
- Default value: `seconds` if `maximum_unit` is `seconds` or bigger, `nanoseconds` otherwise.
**Example**
```sql
SELECT
arrayJoin([100, 12345, 432546534]) AS elapsed,
formatReadableTimeDelta(elapsed) AS time_delta
```
```text
┌────elapsed─┬─time_delta ─────────────────────────────────────────────────────┐
│ 100 │ 1 minute and 40 seconds │
│ 12345 │ 3 hours, 25 minutes and 45 seconds │
│ 432546534 │ 13 years, 8 months, 17 days, 7 hours, 48 minutes and 54 seconds │
└────────────┴─────────────────────────────────────────────────────────────────┘
```
```sql
SELECT
arrayJoin([100, 12345, 432546534]) AS elapsed,
formatReadableTimeDelta(elapsed, 'minutes') AS time_delta
```
```text
┌────elapsed─┬─time_delta ─────────────────────────────────────────────────────┐
│ 100 │ 1 minute and 40 seconds │
│ 12345 │ 205 minutes and 45 seconds │
│ 432546534 │ 7209108 minutes and 54 seconds │
└────────────┴─────────────────────────────────────────────────────────────────┘
```
```sql
SELECT
arrayJoin([100, 12345, 432546534.00000006]) AS elapsed,
formatReadableTimeDelta(elapsed, 'minutes', 'nanoseconds') AS time_delta
```
```text
┌────────────elapsed─┬─time_delta─────────────────────────────────────┐
│ 100 │ 1 minute and 40 seconds │
│ 12345 │ 205 minutes and 45 seconds │
│ 432546534.00000006 │ 7209108 minutes, 54 seconds and 60 nanoseconds │
└────────────────────┴────────────────────────────────────────────────┘
```
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## parseReadableSize
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Given a string containing a byte size and `B` , `KiB` , `KB` , `MiB` , `MB` , etc. as a unit (i.e. [ISO/IEC 80000-13 ](https://en.wikipedia.org/wiki/ISO/IEC_80000 ) or decimal byte unit), this function returns the corresponding number of bytes.
If the function is unable to parse the input value, it throws an exception.
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The inverse operations of this function are [formatReadableSize ](#formatreadablesize ) and [formatReadableDecimalSize ](#formatreadabledecimalsize ).
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**Syntax**
```sql
formatReadableSize(x)
```
**Arguments**
- `x` : Readable size with ISO/IEC 80000-13 or decimal byte unit ([String](../../sql-reference/data-types/string.md)).
**Returned value**
- Number of bytes, rounded up to the nearest integer ([UInt64](../../sql-reference/data-types/int-uint.md)).
**Example**
```sql
SELECT
arrayJoin(['1 B', '1 KiB', '3 MB', '5.314 KiB']) AS readable_sizes,
parseReadableSize(readable_sizes) AS sizes;
```
```text
┌─readable_sizes─┬───sizes─┐
│ 1 B │ 1 │
│ 1 KiB │ 1024 │
│ 3 MB │ 3000000 │
│ 5.314 KiB │ 5442 │
└────────────────┴─────────┘
```
## parseReadableSizeOrNull
Given a string containing a byte size and `B` , `KiB` , `KB` , `MiB` , `MB` , etc. as a unit (i.e. [ISO/IEC 80000-13 ](https://en.wikipedia.org/wiki/ISO/IEC_80000 ) or decimal byte unit), this function returns the corresponding number of bytes.
If the function is unable to parse the input value, it returns `NULL` .
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The inverse operations of this function are [formatReadableSize ](#formatreadablesize ) and [formatReadableDecimalSize ](#formatreadabledecimalsize ).
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**Syntax**
```sql
parseReadableSizeOrNull(x)
```
**Arguments**
- `x` : Readable size with ISO/IEC 80000-13 or decimal byte unit ([String](../../sql-reference/data-types/string.md)).
**Returned value**
- Number of bytes, rounded up to the nearest integer, or NULL if unable to parse the input (Nullable([UInt64](../../sql-reference/data-types/int-uint.md))).
**Example**
```sql
SELECT
arrayJoin(['1 B', '1 KiB', '3 MB', '5.314 KiB', 'invalid']) AS readable_sizes,
parseReadableSizeOrNull(readable_sizes) AS sizes;
```
```text
┌─readable_sizes─┬───sizes─┐
│ 1 B │ 1 │
│ 1 KiB │ 1024 │
│ 3 MB │ 3000000 │
│ 5.314 KiB │ 5442 │
│ invalid │ ᴺᵁᴸᴸ │
└────────────────┴─────────┘
```
## parseReadableSizeOrZero
Given a string containing a byte size and `B` , `KiB` , `KB` , `MiB` , `MB` , etc. as a unit (i.e. [ISO/IEC 80000-13 ](https://en.wikipedia.org/wiki/ISO/IEC_80000 ) or decimal byte unit), this function returns the corresponding number of bytes. If the function is unable to parse the input value, it returns `0` .
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The inverse operations of this function are [formatReadableSize ](#formatreadablesize ) and [formatReadableDecimalSize ](#formatreadabledecimalsize ).
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**Syntax**
```sql
parseReadableSizeOrZero(x)
```
**Arguments**
- `x` : Readable size with ISO/IEC 80000-13 or decimal byte unit ([String](../../sql-reference/data-types/string.md)).
**Returned value**
- Number of bytes, rounded up to the nearest integer, or 0 if unable to parse the input ([UInt64](../../sql-reference/data-types/int-uint.md)).
**Example**
```sql
SELECT
arrayJoin(['1 B', '1 KiB', '3 MB', '5.314 KiB', 'invalid']) AS readable_sizes,
parseReadableSizeOrZero(readable_sizes) AS sizes;
```
```text
┌─readable_sizes─┬───sizes─┐
│ 1 B │ 1 │
│ 1 KiB │ 1024 │
│ 3 MB │ 3000000 │
│ 5.314 KiB │ 5442 │
│ invalid │ 0 │
└────────────────┴─────────┘
```
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## parseTimeDelta
Parse a sequence of numbers followed by something resembling a time unit.
**Syntax**
```sql
parseTimeDelta(timestr)
```
**Arguments**
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- `timestr` — A sequence of numbers followed by something resembling a time unit.
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**Returned value**
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- A floating-point number with the number of seconds.
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**Example**
```sql
SELECT parseTimeDelta('11s+22min')
```
```text
┌─parseTimeDelta('11s+22min')─┐
│ 1331 │
└─────────────────────────────┘
```
```sql
SELECT parseTimeDelta('1yr2mo')
```
```text
┌─parseTimeDelta('1yr2mo')─┐
│ 36806400 │
└──────────────────────────┘
```
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## least
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Returns the smaller value of a and b.
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**Syntax**
```sql
least(a, b)
```
## greatest
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Returns the larger value of a and b.
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**Syntax**
```sql
greatest(a, b)
```
## uptime
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Returns the server’ s uptime in seconds.
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If executed in the context of a distributed table, this function generates a normal column with values relevant to each shard. Otherwise it produces a constant value.
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**Syntax**
``` sql
uptime()
```
**Returned value**
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- Time value of seconds. [UInt32 ](../data-types/int-uint.md ).
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**Example**
Query:
``` sql
SELECT uptime() as Uptime;
```
Result:
``` response
┌─Uptime─┐
│ 55867 │
└────────┘
```
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## version
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Returns the current version of ClickHouse as a string in the form of:
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- Major version
- Minor version
- Patch version
- Number of commits since the previous stable release.
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```plaintext
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major_version.minor_version.patch_version.number_of_commits_since_the_previous_stable_release
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```
If executed in the context of a distributed table, this function generates a normal column with values relevant to each shard. Otherwise, it produces a constant value.
**Syntax**
```sql
version()
```
**Arguments**
None.
**Returned value**
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- Current version of ClickHouse. [String ](../data-types/string ).
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**Implementation details**
None.
**Example**
Query:
```sql
SELECT version()
```
**Result**:
```response
┌─version()─┐
│ 24.2.1.1 │
└───────────┘
```
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## buildId
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Returns the build ID generated by a compiler for the running ClickHouse server binary.
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If executed in the context of a distributed table, this function generates a normal column with values relevant to each shard. Otherwise it produces a constant value.
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**Syntax**
```sql
buildId()
```
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## blockNumber
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Returns a monotonically increasing sequence number of the [block ](../../development/architecture.md#block ) containing the row.
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The returned block number is updated on a best-effort basis, i.e. it may not be fully accurate.
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**Syntax**
```sql
blockNumber()
```
**Returned value**
- Sequence number of the data block where the row is located. [UInt64 ](../data-types/int-uint.md ).
**Example**
Query:
```sql
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SELECT blockNumber()
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FROM
(
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SELECT *
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FROM system.numbers
LIMIT 10
) SETTINGS max_block_size = 2
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```
Result:
```response
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┌─blockNumber()─┐
│ 7 │
│ 7 │
└───────────────┘
┌─blockNumber()─┐
│ 8 │
│ 8 │
└───────────────┘
┌─blockNumber()─┐
│ 9 │
│ 9 │
└───────────────┘
┌─blockNumber()─┐
│ 10 │
│ 10 │
└───────────────┘
┌─blockNumber()─┐
│ 11 │
│ 11 │
└───────────────┘
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```
## rowNumberInBlock {#rowNumberInBlock}
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Returns for each [block ](../../development/architecture.md#block ) processed by `rowNumberInBlock` the number of the current row.
The returned number starts for each block at 0.
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**Syntax**
```sql
rowNumberInBlock()
```
**Returned value**
- Ordinal number of the row in the data block starting from 0. [UInt64 ](../data-types/int-uint.md ).
**Example**
Query:
```sql
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SELECT rowNumberInBlock()
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FROM
(
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SELECT *
FROM system.numbers_mt
LIMIT 10
) SETTINGS max_block_size = 2
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```
Result:
```response
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┌─rowNumberInBlock()─┐
│ 0 │
│ 1 │
└────────────────────┘
┌─rowNumberInBlock()─┐
│ 0 │
│ 1 │
└────────────────────┘
┌─rowNumberInBlock()─┐
│ 0 │
│ 1 │
└────────────────────┘
┌─rowNumberInBlock()─┐
│ 0 │
│ 1 │
└────────────────────┘
┌─rowNumberInBlock()─┐
│ 0 │
│ 1 │
└────────────────────┘
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```
## rowNumberInAllBlocks
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Returns a unique row number for each row processed by `rowNumberInAllBlocks` . The returned numbers start at 0.
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**Syntax**
```sql
rowNumberInAllBlocks()
```
**Returned value**
- Ordinal number of the row in the data block starting from 0. [UInt64 ](../data-types/int-uint.md ).
**Example**
Query:
```sql
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SELECT rowNumberInAllBlocks()
FROM
(
SELECT *
FROM system.numbers_mt
LIMIT 10
)
SETTINGS max_block_size = 2
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```
Result:
```response
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┌─rowNumberInAllBlocks()─┐
│ 0 │
│ 1 │
└────────────────────────┘
┌─rowNumberInAllBlocks()─┐
│ 4 │
│ 5 │
└────────────────────────┘
┌─rowNumberInAllBlocks()─┐
│ 2 │
│ 3 │
└────────────────────────┘
┌─rowNumberInAllBlocks()─┐
│ 6 │
│ 7 │
└────────────────────────┘
┌─rowNumberInAllBlocks()─┐
│ 8 │
│ 9 │
└────────────────────────┘
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```
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## neighbor
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The window function that provides access to a row at a specified offset before or after the current row of a given column.
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**Syntax**
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```sql
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neighbor(column, offset[, default_value])
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```
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The result of the function depends on the affected data blocks and the order of data in the block.
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:::note
Only returns neighbor inside the currently processed data block.
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Because of this error-prone behavior the function is DEPRECATED, please use proper window functions instead.
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:::
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The order of rows during calculation of `neighbor()` can differ from the order of rows returned to the user.
To prevent that you can create a subquery with [ORDER BY ](../../sql-reference/statements/select/order-by.md ) and call the function from outside the subquery.
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**Arguments**
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- `column` — A column name or scalar expression.
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- `offset` — The number of rows to look before or ahead of the current row in `column` . [Int64 ](../data-types/int-uint.md ).
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- `default_value` — Optional. The returned value if offset is beyond the block boundaries. Type of data blocks affected.
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**Returned values**
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- Value of `column` with `offset` distance from current row, if `offset` is not outside the block boundaries.
- The default value of `column` or `default_value` (if given), if `offset` is outside the block boundaries.
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:::note
The return type will be that of the data blocks affected or the default value type.
:::
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**Example**
Query:
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```sql
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SELECT number, neighbor(number, 2) FROM system.numbers LIMIT 10;
```
Result:
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```text
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┌─number─┬─neighbor(number, 2)─┐
│ 0 │ 2 │
│ 1 │ 3 │
│ 2 │ 4 │
│ 3 │ 5 │
│ 4 │ 6 │
│ 5 │ 7 │
│ 6 │ 8 │
│ 7 │ 9 │
│ 8 │ 0 │
│ 9 │ 0 │
└────────┴─────────────────────┘
```
Query:
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```sql
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SELECT number, neighbor(number, 2, 999) FROM system.numbers LIMIT 10;
```
Result:
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```text
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┌─number─┬─neighbor(number, 2, 999)─┐
│ 0 │ 2 │
│ 1 │ 3 │
│ 2 │ 4 │
│ 3 │ 5 │
│ 4 │ 6 │
│ 5 │ 7 │
│ 6 │ 8 │
│ 7 │ 9 │
│ 8 │ 999 │
│ 9 │ 999 │
└────────┴──────────────────────────┘
```
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This function can be used to compute year-over-year metric value:
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Query:
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```sql
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WITH toDate('2018-01-01') AS start_date
SELECT
toStartOfMonth(start_date + (number * 32)) AS month,
toInt32(month) % 100 AS money,
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neighbor(money, -12) AS prev_year,
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round(prev_year / money, 2) AS year_over_year
FROM numbers(16)
```
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Result:
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```text
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┌──────month─┬─money─┬─prev_year─┬─year_over_year─┐
│ 2018-01-01 │ 32 │ 0 │ 0 │
│ 2018-02-01 │ 63 │ 0 │ 0 │
│ 2018-03-01 │ 91 │ 0 │ 0 │
│ 2018-04-01 │ 22 │ 0 │ 0 │
│ 2018-05-01 │ 52 │ 0 │ 0 │
│ 2018-06-01 │ 83 │ 0 │ 0 │
│ 2018-07-01 │ 13 │ 0 │ 0 │
│ 2018-08-01 │ 44 │ 0 │ 0 │
│ 2018-09-01 │ 75 │ 0 │ 0 │
│ 2018-10-01 │ 5 │ 0 │ 0 │
│ 2018-11-01 │ 36 │ 0 │ 0 │
│ 2018-12-01 │ 66 │ 0 │ 0 │
│ 2019-01-01 │ 97 │ 32 │ 0.33 │
│ 2019-02-01 │ 28 │ 63 │ 2.25 │
│ 2019-03-01 │ 56 │ 91 │ 1.62 │
│ 2019-04-01 │ 87 │ 22 │ 0.25 │
└────────────┴───────┴───────────┴────────────────┘
```
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## runningDifference {#runningDifference}
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Calculates the difference between two consecutive row values in the data block.
Returns 0 for the first row, and for subsequent rows the difference to the previous row.
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:::note
Only returns differences inside the currently processed data block.
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Because of this error-prone behavior the function is DEPRECATED, please use proper window functions instead.
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:::
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The result of the function depends on the affected data blocks and the order of data in the block.
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The order of rows during calculation of `runningDifference()` can differ from the order of rows returned to the user.
To prevent that you can create a subquery with [ORDER BY ](../../sql-reference/statements/select/order-by.md ) and call the function from outside the subquery.
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**Syntax**
```sql
runningDifference(x)
```
**Example**
Query:
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```sql
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SELECT
EventID,
EventTime,
runningDifference(EventTime) AS delta
FROM
(
SELECT
EventID,
EventTime
FROM events
WHERE EventDate = '2016-11-24'
ORDER BY EventTime ASC
LIMIT 5
)
```
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Result:
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```text
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┌─EventID─┬───────────EventTime─┬─delta─┐
│ 1106 │ 2016-11-24 00:00:04 │ 0 │
│ 1107 │ 2016-11-24 00:00:05 │ 1 │
│ 1108 │ 2016-11-24 00:00:05 │ 0 │
│ 1109 │ 2016-11-24 00:00:09 │ 4 │
│ 1110 │ 2016-11-24 00:00:10 │ 1 │
└─────────┴─────────────────────┴───────┘
```
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Please note that the block size affects the result. The internal state of `runningDifference` state is reset for each new block.
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Query:
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```sql
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SELECT
number,
runningDifference(number + 1) AS diff
FROM numbers(100000)
WHERE diff != 1
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```
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Result:
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```text
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┌─number─┬─diff─┐
│ 0 │ 0 │
└────────┴──────┘
┌─number─┬─diff─┐
│ 65536 │ 0 │
└────────┴──────┘
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```
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Query:
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```sql
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set max_block_size=100000 -- default value is 65536!
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SELECT
number,
runningDifference(number + 1) AS diff
FROM numbers(100000)
WHERE diff != 1
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```
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Result:
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```text
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┌─number─┬─diff─┐
│ 0 │ 0 │
└────────┴──────┘
```
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## runningDifferenceStartingWithFirstValue
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:::note
This function is DEPRECATED (see the note for `runningDifference` ).
:::
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Same as [runningDifference ](./other-functions.md#other_functions-runningdifference ), but returns the value of the first row as the value on the first row.
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## runningConcurrency
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Calculates the number of concurrent events.
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Each event has a start time and an end time. The start time is included in the event, while the end time is excluded. Columns with a start time and an end time must be of the same data type.
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The function calculates the total number of active (concurrent) events for each event start time.
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:::tip
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Events must be ordered by the start time in ascending order. If this requirement is violated the function raises an exception. Every data block is processed separately. If events from different data blocks overlap then they can not be processed correctly.
:::
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**Syntax**
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```sql
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runningConcurrency(start, end)
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```
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**Arguments**
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- `start` — A column with the start time of events. [Date ](../data-types/date.md ), [DateTime ](../data-types/datetime.md ), or [DateTime64 ](../data-types/datetime64.md ).
- `end` — A column with the end time of events. [Date ](../data-types/date.md ), [DateTime ](../data-types/datetime.md ), or [DateTime64 ](../data-types/datetime64.md ).
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**Returned values**
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- The number of concurrent events at each event start time. [UInt32 ](../data-types/int-uint.md )
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**Example**
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Consider the table:
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```text
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┌──────start─┬────────end─┐
│ 2021-03-03 │ 2021-03-11 │
│ 2021-03-06 │ 2021-03-12 │
│ 2021-03-07 │ 2021-03-08 │
│ 2021-03-11 │ 2021-03-12 │
└────────────┴────────────┘
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```
Query:
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```sql
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SELECT start, runningConcurrency(start, end) FROM example_table;
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```
Result:
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```text
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┌──────start─┬─runningConcurrency(start, end)─┐
│ 2021-03-03 │ 1 │
│ 2021-03-06 │ 2 │
│ 2021-03-07 │ 3 │
│ 2021-03-11 │ 2 │
└────────────┴────────────────────────────────┘
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```
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## MACNumToString
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Interprets a UInt64 number as a MAC address in big endian format. Returns the corresponding MAC address in format AA:BB:CC:DD:EE:FF (colon-separated numbers in hexadecimal form) as string.
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**Syntax**
```sql
MACNumToString(num)
```
## MACStringToNum
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The inverse function of MACNumToString. If the MAC address has an invalid format, it returns 0.
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**Syntax**
```sql
MACStringToNum(s)
```
## MACStringToOUI
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Given a MAC address in format AA:BB:CC:DD:EE:FF (colon-separated numbers in hexadecimal form), returns the first three octets as a UInt64 number. If the MAC address has an invalid format, it returns 0.
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**Syntax**
```sql
MACStringToOUI(s)
```
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## getSizeOfEnumType
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Returns the number of fields in [Enum ](../data-types/enum.md ).
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An exception is thrown if the type is not `Enum` .
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**Syntax**
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```sql
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getSizeOfEnumType(value)
```
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**Arguments:**
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- `value` — Value of type `Enum` .
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**Returned values**
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- The number of fields with `Enum` input values.
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**Example**
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```sql
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SELECT getSizeOfEnumType( CAST('a' AS Enum8('a' = 1, 'b' = 2) ) ) AS x
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```
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```text
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┌─x─┐
│ 2 │
└───┘
```
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## blockSerializedSize
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Returns the size on disk without considering compression.
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```sql
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blockSerializedSize(value[, value[, ...]])
```
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**Arguments**
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- `value` — Any value.
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**Returned values**
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- The number of bytes that will be written to disk for block of values without compression.
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**Example**
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Query:
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```sql
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SELECT blockSerializedSize(maxState(1)) as x
```
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Result:
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```text
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┌─x─┐
│ 2 │
└───┘
```
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## toColumnTypeName
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Returns the internal name of the data type that represents the value.
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**Syntax**
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```sql
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toColumnTypeName(value)
```
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**Arguments:**
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- `value` — Any type of value.
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**Returned values**
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- The internal data type name used to represent `value` .
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**Example**
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Difference between `toTypeName` and `toColumnTypeName` :
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```sql
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SELECT toTypeName(CAST('2018-01-01 01:02:03' AS DateTime))
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```
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Result:
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```text
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┌─toTypeName(CAST('2018-01-01 01:02:03', 'DateTime'))─┐
│ DateTime │
└─────────────────────────────────────────────────────┘
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```
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Query:
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```sql
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SELECT toColumnTypeName(CAST('2018-01-01 01:02:03' AS DateTime))
```
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Result:
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```text
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┌─toColumnTypeName(CAST('2018-01-01 01:02:03', 'DateTime'))─┐
│ Const(UInt32) │
└───────────────────────────────────────────────────────────┘
```
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The example shows that the `DateTime` data type is internally stored as `Const(UInt32)` .
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## dumpColumnStructure
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Outputs a detailed description of data structures in RAM
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```sql
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dumpColumnStructure(value)
```
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**Arguments:**
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- `value` — Any type of value.
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**Returned values**
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- A description of the column structure used for representing `value` .
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**Example**
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```sql
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SELECT dumpColumnStructure(CAST('2018-01-01 01:02:03', 'DateTime'))
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```
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```text
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┌─dumpColumnStructure(CAST('2018-01-01 01:02:03', 'DateTime'))─┐
│ DateTime, Const(size = 1, UInt32(size = 1)) │
└──────────────────────────────────────────────────────────────┘
```
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## defaultValueOfArgumentType
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Returns the default value for the given data type.
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Does not include default values for custom columns set by the user.
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**Syntax**
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```sql
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defaultValueOfArgumentType(expression)
```
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**Arguments:**
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- `expression` — Arbitrary type of value or an expression that results in a value of an arbitrary type.
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**Returned values**
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- `0` for numbers.
- Empty string for strings.
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- `ᴺᵁᴸᴸ` for [Nullable ](../data-types/nullable.md ).
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**Example**
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Query:
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```sql
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SELECT defaultValueOfArgumentType( CAST(1 AS Int8) )
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```
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Result:
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```text
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┌─defaultValueOfArgumentType(CAST(1, 'Int8'))─┐
│ 0 │
└─────────────────────────────────────────────┘
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```
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Query:
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```sql
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SELECT defaultValueOfArgumentType( CAST(1 AS Nullable(Int8) ) )
```
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Result:
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```text
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┌─defaultValueOfArgumentType(CAST(1, 'Nullable(Int8)'))─┐
│ ᴺᵁᴸᴸ │
└───────────────────────────────────────────────────────┘
```
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## defaultValueOfTypeName
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Returns the default value for the given type name.
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Does not include default values for custom columns set by the user.
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```sql
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defaultValueOfTypeName(type)
```
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**Arguments:**
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- `type` — A string representing a type name.
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**Returned values**
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- `0` for numbers.
- Empty string for strings.
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- `ᴺᵁᴸᴸ` for [Nullable ](../data-types/nullable.md ).
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**Example**
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Query:
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```sql
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SELECT defaultValueOfTypeName('Int8')
```
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Result:
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```text
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┌─defaultValueOfTypeName('Int8')─┐
│ 0 │
└────────────────────────────────┘
```
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Query:
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```sql
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SELECT defaultValueOfTypeName('Nullable(Int8)')
```
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Result:
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```text
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┌─defaultValueOfTypeName('Nullable(Int8)')─┐
│ ᴺᵁᴸᴸ │
└──────────────────────────────────────────┘
```
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## indexHint
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This function is intended for debugging and introspection. It ignores its argument and always returns 1. The arguments are not evaluated.
But during index analysis, the argument of this function is assumed to be not wrapped in `indexHint` . This allows to select data in index ranges by the corresponding condition but without further filtering by this condition. The index in ClickHouse is sparse and using `indexHint` will yield more data than specifying the same condition directly.
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**Syntax**
```sql
SELECT * FROM table WHERE indexHint(< expression > )
```
**Returned value**
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- `1` . [Uint8 ](../data-types/int-uint.md ).
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**Example**
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Here is the example of test data from the table [ontime ](../../getting-started/example-datasets/ontime.md ).
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Table:
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```sql
SELECT count() FROM ontime
```
```text
┌─count()─┐
│ 4276457 │
└─────────┘
```
The table has indexes on the fields `(FlightDate, (Year, FlightDate))` .
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Create a query which does not use the index:
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```sql
SELECT FlightDate AS k, count() FROM ontime GROUP BY k ORDER BY k
```
ClickHouse processed the entire table (`Processed 4.28 million rows`).
Result:
```text
┌──────────k─┬─count()─┐
│ 2017-01-01 │ 13970 │
│ 2017-01-02 │ 15882 │
........................
│ 2017-09-28 │ 16411 │
│ 2017-09-29 │ 16384 │
│ 2017-09-30 │ 12520 │
└────────────┴─────────┘
```
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To apply the index, select a specific date:
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```sql
SELECT FlightDate AS k, count() FROM ontime WHERE k = '2017-09-15' GROUP BY k ORDER BY k
```
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ClickHouse now uses the index to process a significantly smaller number of rows (`Processed 32.74 thousand rows`).
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Result:
```text
┌──────────k─┬─count()─┐
│ 2017-09-15 │ 16428 │
└────────────┴─────────┘
```
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Now wrap the expression `k = '2017-09-15'` in function `indexHint` :
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Query:
```sql
SELECT
FlightDate AS k,
count()
FROM ontime
WHERE indexHint(k = '2017-09-15')
GROUP BY k
ORDER BY k ASC
```
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ClickHouse used the index the same way as previously (`Processed 32.74 thousand rows`).
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The expression `k = '2017-09-15'` was not used when generating the result.
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In example, the `indexHint` function allows to see adjacent dates.
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Result:
```text
┌──────────k─┬─count()─┐
│ 2017-09-14 │ 7071 │
│ 2017-09-15 │ 16428 │
│ 2017-09-16 │ 1077 │
│ 2017-09-30 │ 8167 │
└────────────┴─────────┘
```
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## replicate
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Creates an array with a single value.
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:::note
This function is used for the internal implementation of [arrayJoin ](../../sql-reference/functions/array-join.md#functions_arrayjoin ).
:::
**Syntax**
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```sql
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replicate(x, arr)
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```
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**Arguments**
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- `x` — The value to fill the result array with.
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- `arr` — An array. [Array ](../data-types/array.md ).
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**Returned value**
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An array of the lame length as `arr` filled with value `x` . [Array ](../data-types/array.md ).
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**Example**
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Query:
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```sql
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SELECT replicate(1, ['a', 'b', 'c']);
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```
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Result:
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```text
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┌─replicate(1, ['a', 'b', 'c'])─┐
│ [1,1,1] │
└───────────────────────────────┘
```
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## revision
Returns the current ClickHouse [server revision ](../../operations/system-tables/metrics#revision ).
**Syntax**
```sql
revision()
```
**Returned value**
- The current ClickHouse server revision. [UInt32 ](../data-types/int-uint.md ).
**Example**
Query:
```sql
SELECT revision();
```
Result:
```response
┌─revision()─┐
│ 54485 │
└────────────┘
```
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## filesystemAvailable
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Returns the amount of free space in the filesystem hosting the database persistence. The returned value is always smaller than total free space ([filesystemFree](#filesystemfree)) because some space is reserved for the operating system.
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**Syntax**
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```sql
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filesystemAvailable()
```
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**Returned value**
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- The amount of remaining space available in bytes. [UInt64 ](../data-types/int-uint.md ).
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**Example**
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Query:
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```sql
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SELECT formatReadableSize(filesystemAvailable()) AS "Available space";
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```
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Result:
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```text
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┌─Available space─┐
│ 30.75 GiB │
└─────────────────┘
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```
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## filesystemUnreserved
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Returns the total amount of the free space on the filesystem hosting the database persistence. (previously `filesystemFree` ). See also [`filesystemAvailable` ](#filesystemavailable ).
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**Syntax**
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```sql
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filesystemUnreserved()
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```
**Returned value**
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- The amount of free space in bytes. [UInt64 ](../data-types/int-uint.md ).
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**Example**
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Query:
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```sql
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SELECT formatReadableSize(filesystemUnreserved()) AS "Free space";
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```
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Result:
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```text
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┌─Free space─┐
│ 32.39 GiB │
└────────────┘
2019-07-18 11:04:45 +00:00
```
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## filesystemCapacity
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Returns the capacity of the filesystem in bytes. Needs the [path ](../../operations/server-configuration-parameters/settings.md#path ) to the data directory to be configured.
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**Syntax**
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```sql
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filesystemCapacity()
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```
**Returned value**
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- Capacity of the filesystem in bytes. [UInt64 ](../data-types/int-uint.md ).
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**Example**
Query:
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```sql
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SELECT formatReadableSize(filesystemCapacity()) AS "Capacity";
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```
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Result:
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```text
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┌─Capacity──┐
│ 39.32 GiB │
└───────────┘
2019-10-07 19:32:18 +00:00
```
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## initializeAggregation
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Calculates the result of an aggregate function based on a single value. This function can be used to initialize aggregate functions with combinator [-State ](../../sql-reference/aggregate-functions/combinators.md#agg-functions-combinator-state ). You can create states of aggregate functions and insert them to columns of type [AggregateFunction ](../data-types/aggregatefunction.md#data-type-aggregatefunction ) or use initialized aggregates as default values.
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**Syntax**
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```sql
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initializeAggregation (aggregate_function, arg1, arg2, ..., argN)
```
**Arguments**
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- `aggregate_function` — Name of the aggregation function to initialize. [String ](../data-types/string.md ).
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- `arg` — Arguments of aggregate function.
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**Returned value(s)**
- Result of aggregation for every row passed to the function.
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The return type is the same as the return type of function, that `initializeAggregation` takes as first argument.
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**Example**
Query:
```sql
SELECT uniqMerge(state) FROM (SELECT initializeAggregation('uniqState', number % 3) AS state FROM numbers(10000));
```
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Result:
```text
┌─uniqMerge(state)─┐
│ 3 │
└──────────────────┘
```
Query:
```sql
SELECT finalizeAggregation(state), toTypeName(state) FROM (SELECT initializeAggregation('sumState', number % 3) AS state FROM numbers(5));
```
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Result:
```text
┌─finalizeAggregation(state)─┬─toTypeName(state)─────────────┐
│ 0 │ AggregateFunction(sum, UInt8) │
│ 1 │ AggregateFunction(sum, UInt8) │
│ 2 │ AggregateFunction(sum, UInt8) │
│ 0 │ AggregateFunction(sum, UInt8) │
│ 1 │ AggregateFunction(sum, UInt8) │
└────────────────────────────┴───────────────────────────────┘
```
Example with `AggregatingMergeTree` table engine and `AggregateFunction` column:
```sql
CREATE TABLE metrics
(
key UInt64,
value AggregateFunction(sum, UInt64) DEFAULT initializeAggregation('sumState', toUInt64(0))
)
ENGINE = AggregatingMergeTree
ORDER BY key
```
```sql
INSERT INTO metrics VALUES (0, initializeAggregation('sumState', toUInt64(42)))
```
**See Also**
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- [arrayReduce ](../../sql-reference/functions/array-functions.md#arrayreduce )
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## finalizeAggregation
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Given a state of aggregate function, this function returns the result of aggregation (or finalized state when using a [-State ](../../sql-reference/aggregate-functions/combinators.md#agg-functions-combinator-state ) combinator).
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**Syntax**
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```sql
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finalizeAggregation(state)
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```
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**Arguments**
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- `state` — State of aggregation. [AggregateFunction ](../data-types/aggregatefunction.md#data-type-aggregatefunction ).
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**Returned value(s)**
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- Value/values that was aggregated.
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:::note
The return type is equal to that of any types which were aggregated.
:::
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**Examples**
Query:
```sql
SELECT finalizeAggregation(( SELECT countState(number) FROM numbers(10)));
```
Result:
```text
┌─finalizeAggregation(_subquery16)─┐
│ 10 │
└──────────────────────────────────┘
```
Query:
```sql
SELECT finalizeAggregation(( SELECT sumState(number) FROM numbers(10)));
```
Result:
```text
┌─finalizeAggregation(_subquery20)─┐
│ 45 │
└──────────────────────────────────┘
```
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Note that `NULL` values are ignored.
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Query:
```sql
SELECT finalizeAggregation(arrayReduce('anyState', [NULL, 2, 3]));
```
Result:
```text
┌─finalizeAggregation(arrayReduce('anyState', [NULL, 2, 3]))─┐
│ 2 │
└────────────────────────────────────────────────────────────┘
```
Combined example:
Query:
```sql
WITH initializeAggregation('sumState', number) AS one_row_sum_state
SELECT
number,
finalizeAggregation(one_row_sum_state) AS one_row_sum,
runningAccumulate(one_row_sum_state) AS cumulative_sum
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FROM numbers(10);
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```
Result:
```text
┌─number─┬─one_row_sum─┬─cumulative_sum─┐
│ 0 │ 0 │ 0 │
│ 1 │ 1 │ 1 │
│ 2 │ 2 │ 3 │
│ 3 │ 3 │ 6 │
│ 4 │ 4 │ 10 │
│ 5 │ 5 │ 15 │
│ 6 │ 6 │ 21 │
│ 7 │ 7 │ 28 │
│ 8 │ 8 │ 36 │
│ 9 │ 9 │ 45 │
└────────┴─────────────┴────────────────┘
```
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**See Also**
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- [arrayReduce ](../../sql-reference/functions/array-functions.md#arrayreduce )
- [initializeAggregation ](#initializeaggregation )
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## runningAccumulate
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Accumulates the states of an aggregate function for each row of a data block.
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:::note
The state is reset for each new block of data.
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Because of this error-prone behavior the function is DEPRECATED, please use proper window functions instead.
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:::
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**Syntax**
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```sql
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runningAccumulate(agg_state[, grouping]);
```
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**Arguments**
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- `agg_state` — State of the aggregate function. [AggregateFunction ](../data-types/aggregatefunction.md#data-type-aggregatefunction ).
- `grouping` — Grouping key. Optional. The state of the function is reset if the `grouping` value is changed. It can be any of the [supported data types ](../data-types/index.md ) for which the equality operator is defined.
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**Returned value**
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- Each resulting row contains a result of the aggregate function, accumulated for all the input rows from 0 to the current position. `runningAccumulate` resets states for each new data block or when the `grouping` value changes.
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Type depends on the aggregate function used.
**Examples**
Consider how you can use `runningAccumulate` to find the cumulative sum of numbers without and with grouping.
Query:
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```sql
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SELECT k, runningAccumulate(sum_k) AS res FROM (SELECT number as k, sumState(k) AS sum_k FROM numbers(10) GROUP BY k ORDER BY k);
```
Result:
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```text
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┌─k─┬─res─┐
│ 0 │ 0 │
│ 1 │ 1 │
│ 2 │ 3 │
│ 3 │ 6 │
│ 4 │ 10 │
│ 5 │ 15 │
│ 6 │ 21 │
│ 7 │ 28 │
│ 8 │ 36 │
│ 9 │ 45 │
└───┴─────┘
```
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The subquery generates `sumState` for every number from `0` to `9` . `sumState` returns the state of the [sum ](../../sql-reference/aggregate-functions/reference/sum.md ) function that contains the sum of a single number.
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The whole query does the following:
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1. For the first row, `runningAccumulate` takes `sumState(0)` and returns `0` .
2. For the second row, the function merges `sumState(0)` and `sumState(1)` resulting in `sumState(0 + 1)` , and returns `1` as a result.
3. For the third row, the function merges `sumState(0 + 1)` and `sumState(2)` resulting in `sumState(0 + 1 + 2)` , and returns `3` as a result.
4. The actions are repeated until the block ends.
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The following example shows the `groupping` parameter usage:
Query:
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```sql
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SELECT
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grouping,
item,
runningAccumulate(state, grouping) AS res
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FROM
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(
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SELECT
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toInt8(number / 4) AS grouping,
number AS item,
sumState(number) AS state
FROM numbers(15)
GROUP BY item
ORDER BY item ASC
);
```
Result:
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```text
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┌─grouping─┬─item─┬─res─┐
│ 0 │ 0 │ 0 │
│ 0 │ 1 │ 1 │
│ 0 │ 2 │ 3 │
│ 0 │ 3 │ 6 │
│ 1 │ 4 │ 4 │
│ 1 │ 5 │ 9 │
│ 1 │ 6 │ 15 │
│ 1 │ 7 │ 22 │
│ 2 │ 8 │ 8 │
│ 2 │ 9 │ 17 │
│ 2 │ 10 │ 27 │
│ 2 │ 11 │ 38 │
│ 3 │ 12 │ 12 │
│ 3 │ 13 │ 25 │
│ 3 │ 14 │ 39 │
└──────────┴──────┴─────┘
```
As you can see, `runningAccumulate` merges states for each group of rows separately.
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## joinGet
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The function lets you extract data from the table the same way as from a [dictionary ](../../sql-reference/dictionaries/index.md ). Gets the data from [Join ](../../engines/table-engines/special/join.md#creating-a-table ) tables using the specified join key.
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:::note
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Only supports tables created with the `ENGINE = Join(ANY, LEFT, <join_keys>)` statement.
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:::
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**Syntax**
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```sql
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joinGet(join_storage_table_name, `value_column` , join_keys)
```
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**Arguments**
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- `join_storage_table_name` — an [identifier ](../../sql-reference/syntax.md#syntax-identifiers ) indicating where the search is performed.
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- `value_column` — name of the column of the table that contains required data.
- `join_keys` — list of keys.
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:::note
The identifier is searched for in the default database (see setting `default_database` in the config file). To override the default database, use `USE db_name` or specify the database and the table through the separator `db_name.db_table` as in the example.
:::
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**Returned value**
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- Returns a list of values corresponded to the list of keys.
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:::note
If a certain key does not exist in source table then `0` or `null` will be returned based on [join_use_nulls ](../../operations/settings/settings.md#join_use_nulls ) setting during table creation.
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More info about `join_use_nulls` in [Join operation ](../../engines/table-engines/special/join.md ).
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:::
**Example**
Input table:
```sql
CREATE DATABASE db_test;
CREATE TABLE db_test.id_val(`id` UInt32, `val` UInt32) ENGINE = Join(ANY, LEFT, id);
INSERT INTO db_test.id_val VALUES (1, 11)(2, 12)(4, 13);
SELECT * FROM db_test.id_val;
```
```text
┌─id─┬─val─┐
│ 4 │ 13 │
│ 2 │ 12 │
│ 1 │ 11 │
└────┴─────┘
```
Query:
```sql
SELECT number, joinGet(db_test.id_val, 'val', toUInt32(number)) from numbers(4);
```
Result:
```text
┌─number─┬─joinGet('db_test.id_val', 'val', toUInt32(number))─┐
1. │ 0 │ 0 │
2. │ 1 │ 11 │
3. │ 2 │ 12 │
4. │ 3 │ 0 │
└────────┴────────────────────────────────────────────────────┘
```
Setting `join_use_nulls` can be used during table creation to change the behaviour of what gets returned if no key exists in the source table.
```sql
CREATE DATABASE db_test;
CREATE TABLE db_test.id_val_nulls(`id` UInt32, `val` UInt32) ENGINE = Join(ANY, LEFT, id) SETTINGS join_use_nulls=1;
INSERT INTO db_test.id_val_nulls VALUES (1, 11)(2, 12)(4, 13);
SELECT * FROM db_test.id_val_nulls;
```
```text
┌─id─┬─val─┐
│ 4 │ 13 │
│ 2 │ 12 │
│ 1 │ 11 │
└────┴─────┘
```
Query:
```sql
SELECT number, joinGet(db_test.id_val_nulls, 'val', toUInt32(number)) from numbers(4);
```
Result:
```text
┌─number─┬─joinGet('db_test.id_val_nulls', 'val', toUInt32(number))─┐
1. │ 0 │ ᴺᵁᴸᴸ │
2. │ 1 │ 11 │
3. │ 2 │ 12 │
4. │ 3 │ ᴺᵁᴸᴸ │
└────────┴──────────────────────────────────────────────────────────┘
```
## joinGetOrNull
Like [joinGet ](#joinget ) but returns `NULL` when the key is missing instead of returning the default value.
**Syntax**
```sql
joinGetOrNull(join_storage_table_name, `value_column` , join_keys)
```
**Arguments**
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- `join_storage_table_name` — an [identifier ](../../sql-reference/syntax.md#syntax-identifiers ) indicating where the search is performed.
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- `value_column` — name of the column of the table that contains required data.
- `join_keys` — list of keys.
:::note
The identifier is searched for in the default database (see setting `default_database` in the config file). To override the default database, use `USE db_name` or specify the database and the table through the separator `db_name.db_table` as in the example.
:::
**Returned value**
- Returns a list of values corresponded to the list of keys.
:::note
If a certain key does not exist in source table then `NULL` is returned for that key.
:::
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**Example**
Input table:
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```sql
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CREATE DATABASE db_test;
CREATE TABLE db_test.id_val(`id` UInt32, `val` UInt32) ENGINE = Join(ANY, LEFT, id);
INSERT INTO db_test.id_val VALUES (1, 11)(2, 12)(4, 13);
SELECT * FROM db_test.id_val;
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```
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```text
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┌─id─┬─val─┐
│ 4 │ 13 │
│ 2 │ 12 │
│ 1 │ 11 │
└────┴─────┘
```
Query:
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```sql
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SELECT number, joinGetOrNull(db_test.id_val, 'val', toUInt32(number)) from numbers(4);
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```
Result:
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```text
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┌─number─┬─joinGetOrNull('db_test.id_val', 'val', toUInt32(number))─┐
1. │ 0 │ ᴺᵁᴸᴸ │
2. │ 1 │ 11 │
3. │ 2 │ 12 │
4. │ 3 │ ᴺᵁᴸᴸ │
└────────┴──────────────────────────────────────────────────────────┘
2019-10-27 16:33:47 +00:00
```
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## catboostEvaluate
feat: implement catboost in library-bridge
This commit moves the catboost model evaluation out of the server
process into the library-bridge binary. This serves two goals: On the
one hand, crashes / memory corruptions of the catboost library no longer
affect the server. On the other hand, we can forbid loading dynamic
libraries in the server (catboost was the last consumer of this
functionality), thus improving security.
SQL syntax:
SELECT
catboostEvaluate('/path/to/model.bin', FEAT_1, ..., FEAT_N) > 0 AS prediction,
ACTION AS target
FROM amazon_train
LIMIT 10
Required configuration:
<catboost_lib_path>/path/to/libcatboostmodel.so</catboost_lib_path>
*** Implementation Details ***
The internal protocol between the server and the library-bridge is
simple:
- HTTP GET on path "/extdict_ping":
A ping, used during the handshake to check if the library-bridge runs.
- HTTP POST on path "extdict_request"
(1) Send a "catboost_GetTreeCount" request from the server to the
bridge, containing a library path (e.g /home/user/libcatboost.so) and
a model path (e.g. /home/user/model.bin). Rirst, this unloads the
catboost library handler associated to the model path (if it was
loaded), then loads the catboost library handler associated to the
model path, then executes GetTreeCount() on the library handler and
finally sends the result back to the server. Step (1) is called once
by the server from FunctionCatBoostEvaluate::getReturnTypeImpl(). The
library path handler is unloaded in the beginning because it contains
state which may no longer be valid if the user runs
catboost("/path/to/model.bin", ...) more than once and if "model.bin"
was updated in between.
(2) Send "catboost_Evaluate" from the server to the bridge, containing
the model path and the features to run the interference on. Step (2)
is called multiple times (once per chunk) by the server from function
FunctionCatBoostEvaluate::executeImpl(). The library handler for the
given model path is expected to be already loaded by Step (1).
Fixes #27870
2022-08-05 07:53:06 +00:00
2023-02-16 19:19:25 +00:00
:::note
This function is not available in ClickHouse Cloud.
:::
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Evaluate an external catboost model. [CatBoost ](https://catboost.ai ) is an open-source gradient boosting library developed by Yandex for machine learning.
feat: implement catboost in library-bridge
This commit moves the catboost model evaluation out of the server
process into the library-bridge binary. This serves two goals: On the
one hand, crashes / memory corruptions of the catboost library no longer
affect the server. On the other hand, we can forbid loading dynamic
libraries in the server (catboost was the last consumer of this
functionality), thus improving security.
SQL syntax:
SELECT
catboostEvaluate('/path/to/model.bin', FEAT_1, ..., FEAT_N) > 0 AS prediction,
ACTION AS target
FROM amazon_train
LIMIT 10
Required configuration:
<catboost_lib_path>/path/to/libcatboostmodel.so</catboost_lib_path>
*** Implementation Details ***
The internal protocol between the server and the library-bridge is
simple:
- HTTP GET on path "/extdict_ping":
A ping, used during the handshake to check if the library-bridge runs.
- HTTP POST on path "extdict_request"
(1) Send a "catboost_GetTreeCount" request from the server to the
bridge, containing a library path (e.g /home/user/libcatboost.so) and
a model path (e.g. /home/user/model.bin). Rirst, this unloads the
catboost library handler associated to the model path (if it was
loaded), then loads the catboost library handler associated to the
model path, then executes GetTreeCount() on the library handler and
finally sends the result back to the server. Step (1) is called once
by the server from FunctionCatBoostEvaluate::getReturnTypeImpl(). The
library path handler is unloaded in the beginning because it contains
state which may no longer be valid if the user runs
catboost("/path/to/model.bin", ...) more than once and if "model.bin"
was updated in between.
(2) Send "catboost_Evaluate" from the server to the bridge, containing
the model path and the features to run the interference on. Step (2)
is called multiple times (once per chunk) by the server from function
FunctionCatBoostEvaluate::executeImpl(). The library handler for the
given model path is expected to be already loaded by Step (1).
Fixes #27870
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Accepts a path to a catboost model and model arguments (features). Returns Float64.
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**Syntax**
```sql
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catboostEvaluate(path_to_model, feature_1, feature_2, ..., feature_n)
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```
**Example**
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```sql
feat: implement catboost in library-bridge
This commit moves the catboost model evaluation out of the server
process into the library-bridge binary. This serves two goals: On the
one hand, crashes / memory corruptions of the catboost library no longer
affect the server. On the other hand, we can forbid loading dynamic
libraries in the server (catboost was the last consumer of this
functionality), thus improving security.
SQL syntax:
SELECT
catboostEvaluate('/path/to/model.bin', FEAT_1, ..., FEAT_N) > 0 AS prediction,
ACTION AS target
FROM amazon_train
LIMIT 10
Required configuration:
<catboost_lib_path>/path/to/libcatboostmodel.so</catboost_lib_path>
*** Implementation Details ***
The internal protocol between the server and the library-bridge is
simple:
- HTTP GET on path "/extdict_ping":
A ping, used during the handshake to check if the library-bridge runs.
- HTTP POST on path "extdict_request"
(1) Send a "catboost_GetTreeCount" request from the server to the
bridge, containing a library path (e.g /home/user/libcatboost.so) and
a model path (e.g. /home/user/model.bin). Rirst, this unloads the
catboost library handler associated to the model path (if it was
loaded), then loads the catboost library handler associated to the
model path, then executes GetTreeCount() on the library handler and
finally sends the result back to the server. Step (1) is called once
by the server from FunctionCatBoostEvaluate::getReturnTypeImpl(). The
library path handler is unloaded in the beginning because it contains
state which may no longer be valid if the user runs
catboost("/path/to/model.bin", ...) more than once and if "model.bin"
was updated in between.
(2) Send "catboost_Evaluate" from the server to the bridge, containing
the model path and the features to run the interference on. Step (2)
is called multiple times (once per chunk) by the server from function
FunctionCatBoostEvaluate::executeImpl(). The library handler for the
given model path is expected to be already loaded by Step (1).
Fixes #27870
2022-08-05 07:53:06 +00:00
SELECT feat1, ..., feat_n, catboostEvaluate('/path/to/model.bin', feat_1, ..., feat_n) AS prediction
FROM data_table
```
**Prerequisites**
1. Build the catboost evaluation library
Before evaluating catboost models, the `libcatboostmodel.<so|dylib>` library must be made available. See [CatBoost documentation ](https://catboost.ai/docs/concepts/c-plus-plus-api_dynamic-c-pluplus-wrapper.html ) how to compile it.
Next, specify the path to `libcatboostmodel.<so|dylib>` in the clickhouse configuration:
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```xml
feat: implement catboost in library-bridge
This commit moves the catboost model evaluation out of the server
process into the library-bridge binary. This serves two goals: On the
one hand, crashes / memory corruptions of the catboost library no longer
affect the server. On the other hand, we can forbid loading dynamic
libraries in the server (catboost was the last consumer of this
functionality), thus improving security.
SQL syntax:
SELECT
catboostEvaluate('/path/to/model.bin', FEAT_1, ..., FEAT_N) > 0 AS prediction,
ACTION AS target
FROM amazon_train
LIMIT 10
Required configuration:
<catboost_lib_path>/path/to/libcatboostmodel.so</catboost_lib_path>
*** Implementation Details ***
The internal protocol between the server and the library-bridge is
simple:
- HTTP GET on path "/extdict_ping":
A ping, used during the handshake to check if the library-bridge runs.
- HTTP POST on path "extdict_request"
(1) Send a "catboost_GetTreeCount" request from the server to the
bridge, containing a library path (e.g /home/user/libcatboost.so) and
a model path (e.g. /home/user/model.bin). Rirst, this unloads the
catboost library handler associated to the model path (if it was
loaded), then loads the catboost library handler associated to the
model path, then executes GetTreeCount() on the library handler and
finally sends the result back to the server. Step (1) is called once
by the server from FunctionCatBoostEvaluate::getReturnTypeImpl(). The
library path handler is unloaded in the beginning because it contains
state which may no longer be valid if the user runs
catboost("/path/to/model.bin", ...) more than once and if "model.bin"
was updated in between.
(2) Send "catboost_Evaluate" from the server to the bridge, containing
the model path and the features to run the interference on. Step (2)
is called multiple times (once per chunk) by the server from function
FunctionCatBoostEvaluate::executeImpl(). The library handler for the
given model path is expected to be already loaded by Step (1).
Fixes #27870
2022-08-05 07:53:06 +00:00
< clickhouse >
...
< catboost_lib_path > /path/to/libcatboostmodel.so< / catboost_lib_path >
...
< / clickhouse >
```
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For security and isolation reasons, the model evaluation does not run in the server process but in the clickhouse-library-bridge process.
At the first execution of `catboostEvaluate()` , the server starts the library bridge process if it is not running already. Both processes
communicate using a HTTP interface. By default, port `9012` is used. A different port can be specified as follows - this is useful if port
`9012` is already assigned to a different service.
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```xml
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< library_bridge >
< port > 9019< / port >
< / library_bridge >
```
feat: implement catboost in library-bridge
This commit moves the catboost model evaluation out of the server
process into the library-bridge binary. This serves two goals: On the
one hand, crashes / memory corruptions of the catboost library no longer
affect the server. On the other hand, we can forbid loading dynamic
libraries in the server (catboost was the last consumer of this
functionality), thus improving security.
SQL syntax:
SELECT
catboostEvaluate('/path/to/model.bin', FEAT_1, ..., FEAT_N) > 0 AS prediction,
ACTION AS target
FROM amazon_train
LIMIT 10
Required configuration:
<catboost_lib_path>/path/to/libcatboostmodel.so</catboost_lib_path>
*** Implementation Details ***
The internal protocol between the server and the library-bridge is
simple:
- HTTP GET on path "/extdict_ping":
A ping, used during the handshake to check if the library-bridge runs.
- HTTP POST on path "extdict_request"
(1) Send a "catboost_GetTreeCount" request from the server to the
bridge, containing a library path (e.g /home/user/libcatboost.so) and
a model path (e.g. /home/user/model.bin). Rirst, this unloads the
catboost library handler associated to the model path (if it was
loaded), then loads the catboost library handler associated to the
model path, then executes GetTreeCount() on the library handler and
finally sends the result back to the server. Step (1) is called once
by the server from FunctionCatBoostEvaluate::getReturnTypeImpl(). The
library path handler is unloaded in the beginning because it contains
state which may no longer be valid if the user runs
catboost("/path/to/model.bin", ...) more than once and if "model.bin"
was updated in between.
(2) Send "catboost_Evaluate" from the server to the bridge, containing
the model path and the features to run the interference on. Step (2)
is called multiple times (once per chunk) by the server from function
FunctionCatBoostEvaluate::executeImpl(). The library handler for the
given model path is expected to be already loaded by Step (1).
Fixes #27870
2022-08-05 07:53:06 +00:00
2. Train a catboost model using libcatboost
See [Training and applying models ](https://catboost.ai/docs/features/training.html#training ) for how to train catboost models from a training data set.
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## throwIf
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Throw an exception if argument `x` is true.
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**Syntax**
```sql
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throwIf(x[, message[, error_code]])
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```
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**Arguments**
- `x` - the condition to check.
- `message` - a constant string providing a custom error message. Optional.
- `error_code` - A constant integer providing a custom error code. Optional.
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To use the `error_code` argument, configuration parameter `allow_custom_error_code_in_throwif` must be enabled.
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**Example**
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```sql
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SELECT throwIf(number = 3, 'Too many') FROM numbers(10);
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```
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2023-06-01 18:27:34 +00:00
Result:
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```text
2019-09-03 01:27:48 +00:00
↙ Progress: 0.00 rows, 0.00 B (0.00 rows/s., 0.00 B/s.) Received exception from server (version 19.14.1):
Code: 395. DB::Exception: Received from localhost:9000. DB::Exception: Too many.
```
2018-10-16 10:47:17 +00:00
2022-06-02 10:55:18 +00:00
## identity
2019-10-22 19:14:56 +00:00
2023-06-01 18:27:34 +00:00
Returns its argument. Intended for debugging and testing. Allows to cancel using index, and get the query performance of a full scan. When the query is analyzed for possible use of an index, the analyzer ignores everything in `identity` functions. Also disables constant folding.
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**Syntax**
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```sql
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identity(x)
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```
**Example**
Query:
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```sql
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SELECT identity(42);
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```
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Result:
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```text
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┌─identity(42)─┐
│ 42 │
└──────────────┘
```
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## getSetting
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Returns the current value of a [custom setting ](../../operations/settings/index.md#custom_settings ).
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**Syntax**
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```sql
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getSetting('custom_setting');
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```
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**Parameter**
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- `custom_setting` — The setting name. [String ](../data-types/string.md ).
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**Returned value**
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- The setting's current value.
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**Example**
```sql
SET custom_a = 123;
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SELECT getSetting('custom_a');
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```
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Result:
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```
123
```
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**See Also**
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- [Custom Settings ](../../operations/settings/index.md#custom_settings )
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## getSettingOrDefault
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Returns the current value of a [custom setting ](../../operations/settings/index.md#custom_settings ) or returns the default value specified in the 2nd argument if the custom setting is not set in the current profile.
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**Syntax**
```sql
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getSettingOrDefault('custom_setting', default_value);
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```
**Parameter**
- `custom_setting` — The setting name. [String ](../data-types/string.md ).
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- `default_value` — Value to return if custom_setting is not set. Value may be of any data type or Null.
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**Returned value**
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- The setting's current value or default_value if setting is not set.
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**Example**
```sql
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SELECT getSettingOrDefault('custom_undef1', 'my_value');
SELECT getSettingOrDefault('custom_undef2', 100);
SELECT getSettingOrDefault('custom_undef3', NULL);
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```
Result:
```
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my_value
100
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NULL
```
**See Also**
- [Custom Settings ](../../operations/settings/index.md#custom_settings )
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## isDecimalOverflow
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Checks whether the [Decimal ](../data-types/decimal.md ) value is outside its precision or outside the specified precision.
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**Syntax**
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```sql
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isDecimalOverflow(d, [p])
```
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**Arguments**
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- `d` — value. [Decimal ](../data-types/decimal.md ).
- `p` — precision. Optional. If omitted, the initial precision of the first argument is used. This parameter can be helpful to migrate data from/to another database or file. [UInt8 ](../data-types/int-uint.md#uint-ranges ).
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**Returned values**
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- `1` — Decimal value has more digits then allowed by its precision,
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- `0` — Decimal value satisfies the specified precision.
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**Example**
Query:
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```sql
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SELECT isDecimalOverflow(toDecimal32(1000000000, 0), 9),
isDecimalOverflow(toDecimal32(1000000000, 0)),
isDecimalOverflow(toDecimal32(-1000000000, 0), 9),
isDecimalOverflow(toDecimal32(-1000000000, 0));
```
Result:
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```text
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1 1 1 1
```
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## countDigits
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Returns number of decimal digits need to represent a value.
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**Syntax**
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```sql
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countDigits(x)
```
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**Arguments**
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- `x` — [Int ](../data-types/int-uint.md ) or [Decimal ](../data-types/decimal.md ) value.
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**Returned value**
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- Number of digits. [UInt8 ](../data-types/int-uint.md#uint-ranges ).
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:::note
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For `Decimal` values takes into account their scales: calculates result over underlying integer type which is `(value * scale)` . For example: `countDigits(42) = 2` , `countDigits(42.000) = 5` , `countDigits(0.04200) = 4` . I.e. you may check decimal overflow for `Decimal64` with `countDecimal(x) > 18` . It's a slow variant of [isDecimalOverflow ](#isdecimaloverflow ).
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:::
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**Example**
Query:
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```sql
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SELECT countDigits(toDecimal32(1, 9)), countDigits(toDecimal32(-1, 9)),
countDigits(toDecimal64(1, 18)), countDigits(toDecimal64(-1, 18)),
countDigits(toDecimal128(1, 38)), countDigits(toDecimal128(-1, 38));
```
Result:
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```text
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10 10 19 19 39 39
```
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## errorCodeToName
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- The textual name of an error code. [LowCardinality(String) ](../data-types/lowcardinality.md ).
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**Syntax**
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```sql
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errorCodeToName(1)
```
Result:
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```text
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UNSUPPORTED_METHOD
```
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## tcpPort
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Returns [native interface ](../../interfaces/tcp.md ) TCP port number listened by this server.
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If executed in the context of a distributed table, this function generates a normal column with values relevant to each shard. Otherwise it produces a constant value.
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**Syntax**
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```sql
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tcpPort()
```
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**Arguments**
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- None.
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**Returned value**
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- The TCP port number. [UInt16 ](../data-types/int-uint.md ).
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**Example**
Query:
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```sql
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SELECT tcpPort();
```
Result:
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```text
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┌─tcpPort()─┐
│ 9000 │
└───────────┘
```
**See Also**
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- [tcp_port ](../../operations/server-configuration-parameters/settings.md#tcp_port )
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## currentProfiles
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Returns a list of the current [settings profiles ](../../guides/sre/user-management/index.md#settings-profiles-management ) for the current user.
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The command [SET PROFILE ](../../sql-reference/statements/set.md#query-set ) could be used to change the current setting profile. If the command `SET PROFILE` was not used the function returns the profiles specified at the current user's definition (see [CREATE USER ](../../sql-reference/statements/create/user.md#create-user-statement )).
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**Syntax**
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```sql
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currentProfiles()
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```
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**Returned value**
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- List of the current user settings profiles. [Array ](../data-types/array.md )([String](../data-types/string.md)).
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## enabledProfiles
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Returns settings profiles, assigned to the current user both explicitly and implicitly. Explicitly assigned profiles are the same as returned by the [currentProfiles ](#currentprofiles ) function. Implicitly assigned profiles include parent profiles of other assigned profiles, profiles assigned via granted roles, profiles assigned via their own settings, and the main default profile (see the `default_profile` section in the main server configuration file).
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**Syntax**
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```sql
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enabledProfiles()
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```
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**Returned value**
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- List of the enabled settings profiles. [Array ](../data-types/array.md )([String](../data-types/string.md)).
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## defaultProfiles
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Returns all the profiles specified at the current user's definition (see [CREATE USER ](../../sql-reference/statements/create/user.md#create-user-statement ) statement).
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**Syntax**
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```sql
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defaultProfiles()
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```
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**Returned value**
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- List of the default settings profiles. [Array ](../data-types/array.md )([String](../data-types/string.md)).
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## currentRoles
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Returns the roles assigned to the current user. The roles can be changed by the [SET ROLE ](../../sql-reference/statements/set-role.md#set-role-statement ) statement. If no `SET ROLE` statement was not, the function `currentRoles` returns the same as `defaultRoles` .
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**Syntax**
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```sql
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currentRoles()
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```
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**Returned value**
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- A list of the current roles for the current user. [Array ](../data-types/array.md )([String](../data-types/string.md)).
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## enabledRoles
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Returns the names of the current roles and the roles, granted to some of the current roles.
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**Syntax**
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```sql
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enabledRoles()
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```
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**Returned value**
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- List of the enabled roles for the current user. [Array ](../data-types/array.md )([String](../data-types/string.md)).
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## defaultRoles
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Returns the roles which are enabled by default for the current user when he logs in. Initially these are all roles granted to the current user (see [GRANT ](../../sql-reference/statements/grant.md#select )), but that can be changed with the [SET DEFAULT ROLE ](../../sql-reference/statements/set-role.md#set-default-role-statement ) statement.
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**Syntax**
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```sql
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defaultRoles()
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```
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**Returned value**
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- List of the default roles for the current user. [Array ](../data-types/array.md )([String](../data-types/string.md)).
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## getServerPort
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Returns the server port number. When the port is not used by the server, throws an exception.
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**Syntax**
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```sql
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getServerPort(port_name)
```
**Arguments**
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- `port_name` — The name of the server port. [String ](../data-types/string.md#string ). Possible values:
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- 'tcp_port'
- 'tcp_port_secure'
- 'http_port'
- 'https_port'
- 'interserver_http_port'
- 'interserver_https_port'
- 'mysql_port'
- 'postgresql_port'
- 'grpc_port'
- 'prometheus.port'
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**Returned value**
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- The number of the server port. [UInt16 ](../data-types/int-uint.md ).
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**Example**
Query:
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```sql
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SELECT getServerPort('tcp_port');
```
Result:
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```text
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┌─getServerPort('tcp_port')─┐
│ 9000 │
└───────────────────────────┘
```
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## queryID
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Returns the ID of the current query. Other parameters of a query can be extracted from the [system.query_log ](../../operations/system-tables/query_log.md ) table via `query_id` .
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In contrast to [initialQueryID ](#initialqueryid ) function, `queryID` can return different results on different shards (see the example).
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**Syntax**
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```sql
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queryID()
```
**Returned value**
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- The ID of the current query. [String ](../data-types/string.md )
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**Example**
Query:
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```sql
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CREATE TABLE tmp (str String) ENGINE = Log;
INSERT INTO tmp (*) VALUES ('a');
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SELECT count(DISTINCT t) FROM (SELECT queryID() AS t FROM remote('127.0.0.{1..3}', currentDatabase(), 'tmp') GROUP BY queryID());
```
Result:
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```text
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┌─count()─┐
│ 3 │
└─────────┘
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```
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## initialQueryID
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Returns the ID of the initial current query. Other parameters of a query can be extracted from the [system.query_log ](../../operations/system-tables/query_log.md ) table via `initial_query_id` .
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In contrast to [queryID ](#queryid ) function, `initialQueryID` returns the same results on different shards (see example).
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**Syntax**
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```sql
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initialQueryID()
```
**Returned value**
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- The ID of the initial current query. [String ](../data-types/string.md )
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**Example**
Query:
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```sql
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CREATE TABLE tmp (str String) ENGINE = Log;
INSERT INTO tmp (*) VALUES ('a');
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SELECT count(DISTINCT t) FROM (SELECT initialQueryID() AS t FROM remote('127.0.0.{1..3}', currentDatabase(), 'tmp') GROUP BY queryID());
```
Result:
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```text
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┌─count()─┐
│ 1 │
└─────────┘
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```
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## partitionID
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Computes the [partition ID ](../../engines/table-engines/mergetree-family/custom-partitioning-key.md ).
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:::note
This function is slow and should not be called for large amount of rows.
:::
**Syntax**
```sql
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partitionID(x[, y, ...]);
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```
**Arguments**
- `x` — Column for which to return the partition ID.
- `y, ...` — Remaining N columns for which to return the partition ID (optional).
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**Returned Value**
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- Partition ID that the row would belong to. [String ](../data-types/string.md ).
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**Example**
Query:
```sql
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DROP TABLE IF EXISTS tab;
CREATE TABLE tab
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(
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i int,
j int
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)
ENGINE = MergeTree
PARTITION BY i
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ORDER BY tuple();
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INSERT INTO tab VALUES (1, 1), (1, 2), (1, 3), (2, 4), (2, 5), (2, 6);
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SELECT i, j, partitionID(i), _partition_id FROM tab ORDER BY i, j;
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```
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Result:
```response
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┌─i─┬─j─┬─partitionID(i)─┬─_partition_id─┐
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│ 1 │ 1 │ 1 │ 1 │
│ 1 │ 2 │ 1 │ 1 │
│ 1 │ 3 │ 1 │ 1 │
└───┴───┴────────────────┴───────────────┘
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┌─i─┬─j─┬─partitionID(i)─┬─_partition_id─┐
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│ 2 │ 4 │ 2 │ 2 │
│ 2 │ 5 │ 2 │ 2 │
│ 2 │ 6 │ 2 │ 2 │
└───┴───┴────────────────┴───────────────┘
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```
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## shardNum
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Returns the index of a shard which processes a part of data in a distributed query. Indices are started from `1` .
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If a query is not distributed then constant value `0` is returned.
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**Syntax**
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```sql
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shardNum()
```
**Returned value**
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- Shard index or constant `0` . [UInt32 ](../data-types/int-uint.md ).
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**Example**
In the following example a configuration with two shards is used. The query is executed on the [system.one ](../../operations/system-tables/one.md ) table on every shard.
Query:
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```sql
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CREATE TABLE shard_num_example (dummy UInt8)
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ENGINE=Distributed(test_cluster_two_shards_localhost, system, one, dummy);
SELECT dummy, shardNum(), shardCount() FROM shard_num_example;
```
Result:
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```text
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┌─dummy─┬─shardNum()─┬─shardCount()─┐
│ 0 │ 2 │ 2 │
│ 0 │ 1 │ 2 │
└───────┴────────────┴──────────────┘
```
**See Also**
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- [Distributed Table Engine ](../../engines/table-engines/special/distributed.md )
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## shardCount
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Returns the total number of shards for a distributed query.
If a query is not distributed then constant value `0` is returned.
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**Syntax**
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```sql
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shardCount()
```
**Returned value**
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- Total number of shards or `0` . [UInt32 ](../data-types/int-uint.md ).
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**See Also**
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- [shardNum() ](#shardnum ) function example also contains `shardCount()` function call.
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## getOSKernelVersion
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Returns a string with the current OS kernel version.
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**Syntax**
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```sql
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getOSKernelVersion()
```
**Arguments**
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- None.
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**Returned value**
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- The current OS kernel version. [String ](../data-types/string.md ).
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**Example**
Query:
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```sql
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SELECT getOSKernelVersion();
```
Result:
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```text
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┌─getOSKernelVersion()────┐
│ Linux 4.15.0-55-generic │
└─────────────────────────┘
```
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## zookeeperSessionUptime
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Returns the uptime of the current ZooKeeper session in seconds.
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**Syntax**
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```sql
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zookeeperSessionUptime()
```
**Arguments**
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- None.
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**Returned value**
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- Uptime of the current ZooKeeper session in seconds. [UInt32 ](../data-types/int-uint.md ).
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**Example**
Query:
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```sql
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SELECT zookeeperSessionUptime();
```
Result:
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```text
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┌─zookeeperSessionUptime()─┐
│ 286 │
└──────────────────────────┘
```
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## generateRandomStructure
Generates random table structure in a format `column1_name column1_type, column2_name column2_type, ...` .
**Syntax**
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```sql
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generateRandomStructure([number_of_columns, seed])
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```
**Arguments**
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- `number_of_columns` — The desired number of columns in the result table structure. If set to 0 or `Null` , the number of columns will be random from 1 to 128. Default value: `Null` .
- `seed` - Random seed to produce stable results. If seed is not specified or set to `Null` , it is randomly generated.
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All arguments must be constant.
**Returned value**
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- Randomly generated table structure. [String ](../data-types/string.md ).
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**Examples**
Query:
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```sql
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SELECT generateRandomStructure()
```
Result:
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```text
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┌─generateRandomStructure()─────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────┐
│ c1 Decimal32(5), c2 Date, c3 Tuple(LowCardinality(String), Int128, UInt64, UInt16, UInt8, IPv6), c4 Array(UInt128), c5 UInt32, c6 IPv4, c7 Decimal256(64), c8 Decimal128(3), c9 UInt256, c10 UInt64, c11 DateTime │
└───────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────┘
```
Query:
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```sql
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SELECT generateRandomStructure(1)
```
Result:
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```text
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┌─generateRandomStructure(1)─┐
│ c1 Map(UInt256, UInt16) │
└────────────────────────────┘
```
Query:
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```sql
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SELECT generateRandomStructure(NULL, 33)
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```
Result:
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```text
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┌─generateRandomStructure(NULL, 33)─────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────┐
│ c1 DateTime, c2 Enum8('c2V0' = 0, 'c2V1' = 1, 'c2V2' = 2, 'c2V3' = 3), c3 LowCardinality(Nullable(FixedString(30))), c4 Int16, c5 Enum8('c5V0' = 0, 'c5V1' = 1, 'c5V2' = 2, 'c5V3' = 3), c6 Nullable(UInt8), c7 String, c8 Nested(e1 IPv4, e2 UInt8, e3 UInt16, e4 UInt16, e5 Int32, e6 Map(Date, Decimal256(70))) │
└────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────┘
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```
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**Note**: the maximum nesting depth of complex types (Array, Tuple, Map, Nested) is limited to 16.
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This function can be used together with [generateRandom ](../../sql-reference/table-functions/generate.md ) to generate completely random tables.
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## structureToCapnProtoSchema {#structure_to_capn_proto_schema}
Converts ClickHouse table structure to CapnProto schema.
**Syntax**
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```sql
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structureToCapnProtoSchema(structure)
```
**Arguments**
- `structure` — Table structure in a format `column1_name column1_type, column2_name column2_type, ...` .
- `root_struct_name` — Name for root struct in CapnProto schema. Default value - `Message` ;
**Returned value**
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- CapnProto schema. [String ](../data-types/string.md ).
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**Examples**
Query:
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```sql
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SELECT structureToCapnProtoSchema('column1 String, column2 UInt32, column3 Array(String)') FORMAT RawBLOB
```
Result:
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```text
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@0xf96402dd754d0eb7 ;
struct Message
{
column1 @0 : Data;
column2 @1 : UInt32;
column3 @2 : List(Data);
}
```
Query:
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```sql
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SELECT structureToCapnProtoSchema('column1 Nullable(String), column2 Tuple(element1 UInt32, element2 Array(String)), column3 Map(String, String)') FORMAT RawBLOB
```
Result:
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```text
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@0xd1c8320fecad2b7f ;
struct Message
{
struct Column1
{
union
{
value @0 : Data;
null @1 : Void;
}
}
column1 @0 : Column1;
struct Column2
{
element1 @0 : UInt32;
element2 @1 : List(Data);
}
column2 @1 : Column2;
struct Column3
{
struct Entry
{
key @0 : Data;
value @1 : Data;
}
entries @0 : List(Entry);
}
column3 @2 : Column3;
}
```
Query:
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```sql
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SELECT structureToCapnProtoSchema('column1 String, column2 UInt32', 'Root') FORMAT RawBLOB
```
Result:
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```text
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@0x96ab2d4ab133c6e1 ;
struct Root
{
column1 @0 : Data;
column2 @1 : UInt32;
}
```
## structureToProtobufSchema {#structure_to_protobuf_schema}
Converts ClickHouse table structure to Protobuf schema.
**Syntax**
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```sql
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structureToProtobufSchema(structure)
```
**Arguments**
- `structure` — Table structure in a format `column1_name column1_type, column2_name column2_type, ...` .
- `root_message_name` — Name for root message in Protobuf schema. Default value - `Message` ;
**Returned value**
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- Protobuf schema. [String ](../data-types/string.md ).
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**Examples**
Query:
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```sql
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SELECT structureToProtobufSchema('column1 String, column2 UInt32, column3 Array(String)') FORMAT RawBLOB
```
Result:
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```text
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syntax = "proto3";
message Message
{
bytes column1 = 1;
uint32 column2 = 2;
repeated bytes column3 = 3;
}
```
Query:
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```sql
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SELECT structureToProtobufSchema('column1 Nullable(String), column2 Tuple(element1 UInt32, element2 Array(String)), column3 Map(String, String)') FORMAT RawBLOB
```
Result:
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```text
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syntax = "proto3";
message Message
{
bytes column1 = 1;
message Column2
{
uint32 element1 = 1;
repeated bytes element2 = 2;
}
Column2 column2 = 2;
map< string , bytes > column3 = 3;
}
```
Query:
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```sql
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SELECT structureToProtobufSchema('column1 String, column2 UInt32', 'Root') FORMAT RawBLOB
```
Result:
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```text
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syntax = "proto3";
message Root
{
bytes column1 = 1;
uint32 column2 = 2;
}
```
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## formatQuery
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Returns a formatted, possibly multi-line, version of the given SQL query.
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Throws an exception if the query is not well-formed. To return `NULL` instead, function `formatQueryOrNull()` may be used.
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**Syntax**
```sql
formatQuery(query)
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formatQueryOrNull(query)
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```
**Arguments**
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- `query` - The SQL query to be formatted. [String ](../data-types/string.md )
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**Returned value**
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- The formatted query. [String ](../data-types/string.md ).
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**Example**
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```sql
SELECT formatQuery('select a, b FRom tab WHERE a > 3 and b < 3 ' ) ;
```
Result:
```result
┌─formatQuery('select a, b FRom tab WHERE a > 3 and b < 3 ' ) ─ ┐
│ SELECT
a,
b
FROM tab
WHERE (a > 3) AND (b < 3 ) │
└───────────────────────────────────────────────────────────────┘
```
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## formatQuerySingleLine
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Like formatQuery() but the returned formatted string contains no line breaks.
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Throws an exception if the query is not well-formed. To return `NULL` instead, function `formatQuerySingleLineOrNull()` may be used.
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**Syntax**
```sql
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formatQuerySingleLine(query)
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formatQuerySingleLineOrNull(query)
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```
**Arguments**
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- `query` - The SQL query to be formatted. [String ](../data-types/string.md )
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**Returned value**
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- The formatted query. [String ](../data-types/string.md ).
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**Example**
```sql
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SELECT formatQuerySingleLine('select a, b FRom tab WHERE a > 3 and b < 3 ' ) ;
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```
Result:
```result
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┌─formatQuerySingleLine('select a, b FRom tab WHERE a > 3 and b < 3 ' ) ─ ┐
│ SELECT a, b FROM tab WHERE (a > 3) AND (b < 3 ) │
└─────────────────────────────────────────────────────────────────────────┘
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```
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## variantElement
Extracts a column with specified type from a `Variant` column.
**Syntax**
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```sql
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variantElement(variant, type_name, [, default_value])
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```
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**Arguments**
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- `variant` — Variant column. [Variant ](../data-types/variant.md ).
- `type_name` — The name of the variant type to extract. [String ](../data-types/string.md ).
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- `default_value` - The default value that will be used if variant doesn't have variant with specified type. Can be any type. Optional.
**Returned value**
- Subcolumn of a `Variant` column with specified type.
**Example**
```sql
CREATE TABLE test (v Variant(UInt64, String, Array(UInt64))) ENGINE = Memory;
INSERT INTO test VALUES (NULL), (42), ('Hello, World!'), ([1, 2, 3]);
SELECT v, variantElement(v, 'String'), variantElement(v, 'UInt64'), variantElement(v, 'Array(UInt64)') FROM test;
```
```text
┌─v─────────────┬─variantElement(v, 'String')─┬─variantElement(v, 'UInt64')─┬─variantElement(v, 'Array(UInt64)')─┐
│ ᴺᵁᴸᴸ │ ᴺᵁᴸᴸ │ ᴺᵁᴸᴸ │ [] │
│ 42 │ ᴺᵁᴸᴸ │ 42 │ [] │
│ Hello, World! │ Hello, World! │ ᴺᵁᴸᴸ │ [] │
│ [1,2,3] │ ᴺᵁᴸᴸ │ ᴺᵁᴸᴸ │ [1,2,3] │
└───────────────┴─────────────────────────────┴─────────────────────────────┴────────────────────────────────────┘
```
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## variantType
Returns the variant type name for each row of `Variant` column. If row contains NULL, it returns `'None'` for it.
**Syntax**
```sql
variantType(variant)
```
**Arguments**
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- `variant` — Variant column. [Variant ](../data-types/variant.md ).
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**Returned value**
- Enum8 column with variant type name for each row.
**Example**
```sql
CREATE TABLE test (v Variant(UInt64, String, Array(UInt64))) ENGINE = Memory;
INSERT INTO test VALUES (NULL), (42), ('Hello, World!'), ([1, 2, 3]);
SELECT variantType(v) FROM test;
```
```text
┌─variantType(v)─┐
│ None │
│ UInt64 │
│ String │
│ Array(UInt64) │
└────────────────┘
```
```sql
SELECT toTypeName(variantType(v)) FROM test LIMIT 1;
```
```text
┌─toTypeName(variantType(v))──────────────────────────────────────────┐
│ Enum8('None' = -1, 'Array(UInt64)' = 0, 'String' = 1, 'UInt64' = 2) │
└─────────────────────────────────────────────────────────────────────┘
```
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## minSampleSizeConversion
Calculates minimum required sample size for an A/B test comparing conversions (proportions) in two samples.
**Syntax**
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```sql
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minSampleSizeConversion(baseline, mde, power, alpha)
```
Uses the formula described in [this article ](https://towardsdatascience.com/required-sample-size-for-a-b-testing-6f6608dd330a ). Assumes equal sizes of treatment and control groups. Returns the sample size required for one group (i.e. the sample size required for the whole experiment is twice the returned value).
**Arguments**
- `baseline` — Baseline conversion. [Float ](../data-types/float.md ).
- `mde` — Minimum detectable effect (MDE) as percentage points (e.g. for a baseline conversion 0.25 the MDE 0.03 means an expected change to 0.25 ± 0.03). [Float ](../data-types/float.md ).
- `power` — Required statistical power of a test (1 - probability of Type II error). [Float ](../data-types/float.md ).
- `alpha` — Required significance level of a test (probability of Type I error). [Float ](../data-types/float.md ).
**Returned value**
A named [Tuple ](../data-types/tuple.md ) with 3 elements:
- `"minimum_sample_size"` — Required sample size. [Float64 ](../data-types/float.md ).
- `"detect_range_lower"` — Lower bound of the range of values not detectable with the returned required sample size (i.e. all values less than or equal to `"detect_range_lower"` are detectable with the provided `alpha` and `power` ). Calculated as `baseline - mde` . [Float64 ](../data-types/float.md ).
- `"detect_range_upper"` — Upper bound of the range of values not detectable with the returned required sample size (i.e. all values greater than or equal to `"detect_range_upper"` are detectable with the provided `alpha` and `power` ). Calculated as `baseline + mde` . [Float64 ](../data-types/float.md ).
**Example**
The following query calculates the required sample size for an A/B test with baseline conversion of 25%, MDE of 3%, significance level of 5%, and the desired statistical power of 80%:
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```sql
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SELECT minSampleSizeConversion(0.25, 0.03, 0.80, 0.05) AS sample_size;
```
Result:
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```text
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┌─sample_size───────────────────┐
│ (3396.077603219163,0.22,0.28) │
└───────────────────────────────┘
```
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## minSampleSizeContinuous
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Calculates minimum required sample size for an A/B test comparing means of a continuous metric in two samples.
**Syntax**
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```sql
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minSampleSizeContinous(baseline, sigma, mde, power, alpha)
```
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Alias: `minSampleSizeContinous`
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Uses the formula described in [this article ](https://towardsdatascience.com/required-sample-size-for-a-b-testing-6f6608dd330a ). Assumes equal sizes of treatment and control groups. Returns the required sample size for one group (i.e. the sample size required for the whole experiment is twice the returned value). Also assumes equal variance of the test metric in treatment and control groups.
**Arguments**
- `baseline` — Baseline value of a metric. [Integer ](../data-types/int-uint.md ) or [Float ](../data-types/float.md ).
- `sigma` — Baseline standard deviation of a metric. [Integer ](../data-types/int-uint.md ) or [Float ](../data-types/float.md ).
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- `mde` — Minimum detectable effect (MDE) as percentage of the baseline value (e.g. for a baseline value 112.25 the MDE 0.03 means an expected change to 112.25 ± 112.25\*0.03). [Integer ](../data-types/int-uint.md ) or [Float ](../data-types/float.md ).
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- `power` — Required statistical power of a test (1 - probability of Type II error). [Integer ](../data-types/int-uint.md ) or [Float ](../data-types/float.md ).
- `alpha` — Required significance level of a test (probability of Type I error). [Integer ](../data-types/int-uint.md ) or [Float ](../data-types/float.md ).
**Returned value**
A named [Tuple ](../data-types/tuple.md ) with 3 elements:
- `"minimum_sample_size"` — Required sample size. [Float64 ](../data-types/float.md ).
- `"detect_range_lower"` — Lower bound of the range of values not detectable with the returned required sample size (i.e. all values less than or equal to `"detect_range_lower"` are detectable with the provided `alpha` and `power` ). Calculated as `baseline * (1 - mde)` . [Float64 ](../data-types/float.md ).
- `"detect_range_upper"` — Upper bound of the range of values not detectable with the returned required sample size (i.e. all values greater than or equal to `"detect_range_upper"` are detectable with the provided `alpha` and `power` ). Calculated as `baseline * (1 + mde)` . [Float64 ](../data-types/float.md ).
**Example**
The following query calculates the required sample size for an A/B test on a metric with baseline value of 112.25, standard deviation of 21.1, MDE of 3%, significance level of 5%, and the desired statistical power of 80%:
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```sql
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SELECT minSampleSizeContinous(112.25, 21.1, 0.03, 0.80, 0.05) AS sample_size;
```
Result:
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```text
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┌─sample_size───────────────────────────┐
│ (616.2931945826209,108.8825,115.6175) │
└───────────────────────────────────────┘
```
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## connectionId
Retrieves the connection ID of the client that submitted the current query and returns it as a UInt64 integer.
**Syntax**
```sql
connectionId()
```
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Alias: `connection_id` .
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**Parameters**
None.
**Returned value**
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The current connection ID. [UInt64 ](../data-types/int-uint.md ).
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**Implementation details**
This function is most useful in debugging scenarios or for internal purposes within the MySQL handler. It was created for compatibility with [MySQL's `CONNECTION_ID` function ](https://dev.mysql.com/doc/refman/8.0/en/information-functions.html#function_connection-id ) It is not typically used in production queries.
**Example**
Query:
```sql
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SELECT connectionId();
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```
```response
0
```
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## getClientHTTPHeader
Get the value of an HTTP header.
If there is no such header or the current request is not performed via the HTTP interface, the function returns an empty string.
Certain HTTP headers (e.g., `Authentication` and `X-ClickHouse-*` ) are restricted.
The function requires the setting `allow_get_client_http_header` to be enabled.
The setting is not enabled by default for security reasons, because some headers, such as `Cookie` , could contain sensitive info.
HTTP headers are case sensitive for this function.
If the function is used in the context of a distributed query, it returns non-empty result only on the initiator node.
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## showCertificate
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Shows information about the current server's Secure Sockets Layer (SSL) certificate if it has been configured. See [Configuring SSL-TLS ](https://clickhouse.com/docs/en/guides/sre/configuring-ssl ) for more information on how to configure ClickHouse to use OpenSSL certificates to validate connections.
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**Syntax**
```sql
showCertificate()
```
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**Returned value**
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- Map of key-value pairs relating to the configured SSL certificate. [Map ](../data-types/map.md )([String](../data-types/string.md), [String ](../data-types/string.md )).
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**Example**
Query:
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```sql
SELECT showCertificate() FORMAT LineAsString;
```
Result:
```response
{'version':'1','serial_number':'2D9071D64530052D48308473922C7ADAFA85D6C5','signature_algo':'sha256WithRSAEncryption','issuer':'/CN=marsnet.local CA','not_before':'May 7 17:01:21 2024 GMT','not_after':'May 7 17:01:21 2025 GMT','subject':'/CN=chnode1','pkey_algo':'rsaEncryption'}
```
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## lowCardinalityIndices
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Returns the position of a value in the dictionary of a [LowCardinality ](../data-types/lowcardinality.md ) column. Positions start at 1. Since LowCardinality have per-part dictionaries, this function may return different positions for the same value in different parts.
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**Syntax**
```sql
lowCardinalityIndices(col)
```
**Arguments**
- `col` — a low cardinality column. [LowCardinality ](../data-types/lowcardinality.md ).
**Returned value**
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- The position of the value in the dictionary of the current part. [UInt64 ](../data-types/int-uint.md ).
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**Example**
Query:
```sql
DROP TABLE IF EXISTS test;
CREATE TABLE test (s LowCardinality(String)) ENGINE = Memory;
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-- create two parts:
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INSERT INTO test VALUES ('ab'), ('cd'), ('ab'), ('ab'), ('df');
INSERT INTO test VALUES ('ef'), ('cd'), ('ab'), ('cd'), ('ef');
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SELECT s, lowCardinalityIndices(s) FROM test;
```
Result:
```response
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┌─s──┬─lowCardinalityIndices(s)─┐
1. │ ab │ 1 │
2. │ cd │ 2 │
3. │ ab │ 1 │
4. │ ab │ 1 │
5. │ df │ 3 │
└────┴──────────────────────────┘
┌─s──┬─lowCardinalityIndices(s)─┐
6. │ ef │ 1 │
7. │ cd │ 2 │
8. │ ab │ 3 │
9. │ cd │ 2 │
10. │ ef │ 1 │
└────┴──────────────────────────┘
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```
## lowCardinalityKeys
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Returns the dictionary values of a [LowCardinality ](../data-types/lowcardinality.md ) column. If the block is smaller or larger than the dictionary size, the result will be truncated or extended with default values. Since LowCardinality have per-part dictionaries, this function may return different dictionary values in different parts.
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**Syntax**
```sql
lowCardinalityIndices(col)
```
**Arguments**
- `col` — a low cardinality column. [LowCardinality ](../data-types/lowcardinality.md ).
**Returned value**
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- The dictionary keys. [UInt64 ](../data-types/int-uint.md ).
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**Example**
Query:
```sql
DROP TABLE IF EXISTS test;
CREATE TABLE test (s LowCardinality(String)) ENGINE = Memory;
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-- create two parts:
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INSERT INTO test VALUES ('ab'), ('cd'), ('ab'), ('ab'), ('df');
INSERT INTO test VALUES ('ef'), ('cd'), ('ab'), ('cd'), ('ef');
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SELECT s, lowCardinalityKeys(s) FROM test;
```
Result:
```response
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┌─s──┬─lowCardinalityKeys(s)─┐
1. │ ef │ │
2. │ cd │ ef │
3. │ ab │ cd │
4. │ cd │ ab │
5. │ ef │ │
└────┴───────────────────────┘
┌─s──┬─lowCardinalityKeys(s)─┐
6. │ ab │ │
7. │ cd │ ab │
8. │ ab │ cd │
9. │ ab │ df │
10. │ df │ │
└────┴───────────────────────┘
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```
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## displayName
Returns the value of `display_name` from [config ](../../operations/configuration-files.md/#configuration-files ) or server Fully Qualified Domain Name (FQDN) if not set.
**Syntax**
```sql
displayName()
```
**Returned value**
- Value of `display_name` from config or server FQDN if not set. [String ](../data-types/string.md ).
**Example**
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The `display_name` can be set in `config.xml` . Taking for example a server with `display_name` configured to 'production':
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```xml
<!-- It is the name that will be shown in the clickhouse - client.
By default, anything with "production" will be highlighted in red in query prompt.
-->
< display_name > production< / display_name >
```
Query:
```sql
SELECT displayName();
```
Result:
```response
┌─displayName()─┐
│ production │
└───────────────┘
```
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## transactionID
Returns the ID of a [transaction ](https://clickhouse.com/docs/en/guides/developer/transactional#transactions-commit-and-rollback ).
:::note
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This function is part of an experimental feature set. Enable experimental transaction support by adding this setting to your configuration:
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```
< clickhouse >
< allow_experimental_transactions > 1< / allow_experimental_transactions >
< / clickhouse >
```
For more information see the page [Transactional (ACID) support ](https://clickhouse.com/docs/en/guides/developer/transactional#transactions-commit-and-rollback ).
:::
**Syntax**
```sql
transactionID()
```
**Returned value**
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- Returns a tuple consisting of `start_csn` , `local_tid` and `host_id` . [Tuple ](../data-types/tuple.md ).
- `start_csn` : Global sequential number, the newest commit timestamp that was seen when this transaction began. [UInt64 ](../data-types/int-uint.md ).
- `local_tid` : Local sequential number that is unique for each transaction started by this host within a specific start_csn. [UInt64 ](../data-types/int-uint.md ).
- `host_id` : UUID of the host that has started this transaction. [UUID ](../data-types/uuid.md ).
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**Example**
Query:
```sql
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BEGIN TRANSACTION;
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SELECT transactionID();
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ROLLBACK;
```
Result:
```response
┌─transactionID()────────────────────────────────┐
│ (32,34,'0ee8b069-f2bb-4748-9eae-069c85b5252b') │
└────────────────────────────────────────────────┘
```
## transactionLatestSnapshot
Returns the newest snapshot (Commit Sequence Number) of a [transaction ](https://clickhouse.com/docs/en/guides/developer/transactional#transactions-commit-and-rollback ) that is available for reading.
:::note
This function is part of an experimental feature set. Enable experimental transaction support by adding this setting to your configuration:
```
< clickhouse >
< allow_experimental_transactions > 1< / allow_experimental_transactions >
< / clickhouse >
```
For more information see the page [Transactional (ACID) support ](https://clickhouse.com/docs/en/guides/developer/transactional#transactions-commit-and-rollback ).
:::
**Syntax**
```sql
transactionLatestSnapshot()
```
**Returned value**
- Returns the latest snapshot (CSN) of a transaction. [UInt64 ](../data-types/int-uint.md )
**Example**
Query:
```sql
BEGIN TRANSACTION;
SELECT transactionLatestSnapshot();
ROLLBACK;
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```
Result:
```response
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┌─transactionLatestSnapshot()─┐
│ 32 │
└─────────────────────────────┘
```
## transactionOldestSnapshot
Returns the oldest snapshot (Commit Sequence Number) that is visible for some running [transaction ](https://clickhouse.com/docs/en/guides/developer/transactional#transactions-commit-and-rollback ).
:::note
This function is part of an experimental feature set. Enable experimental transaction support by adding this setting to your configuration:
```
< clickhouse >
< allow_experimental_transactions > 1< / allow_experimental_transactions >
< / clickhouse >
```
For more information see the page [Transactional (ACID) support ](https://clickhouse.com/docs/en/guides/developer/transactional#transactions-commit-and-rollback ).
:::
**Syntax**
```sql
transactionOldestSnapshot()
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```
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**Returned value**
- Returns the oldest snapshot (CSN) of a transaction. [UInt64 ](../data-types/int-uint.md )
**Example**
Query:
```sql
BEGIN TRANSACTION;
SELECT transactionLatestSnapshot();
ROLLBACK;
```
Result:
```response
┌─transactionOldestSnapshot()─┐
│ 32 │
└─────────────────────────────┘
```
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## getSubcolumn
Takes a table expression or identifier and constant string with the name of the sub-column, and returns the requested sub-column extracted from the expression.
**Syntax**
```sql
getSubcolumn(col_name, subcol_name)
```
**Arguments**
- `col_name` — Table expression or identifier. [Expression ](../syntax.md/#expressions ), [Identifier ](../syntax.md/#identifiers ).
- `subcol_name` — The name of the sub-column. [String ](../data-types/string.md ).
**Returned value**
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- Returns the extracted sub-column.
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**Example**
Query:
```sql
CREATE TABLE t_arr (arr Array(Tuple(subcolumn1 UInt32, subcolumn2 String))) ENGINE = MergeTree ORDER BY tuple();
INSERT INTO t_arr VALUES ([(1, 'Hello'), (2, 'World')]), ([(3, 'This'), (4, 'is'), (5, 'subcolumn')]);
SELECT getSubcolumn(arr, 'subcolumn1'), getSubcolumn(arr, 'subcolumn2') FROM t_arr;
```
Result:
```response
┌─getSubcolumn(arr, 'subcolumn1')─┬─getSubcolumn(arr, 'subcolumn2')─┐
1. │ [1,2] │ ['Hello','World'] │
2. │ [3,4,5] │ ['This','is','subcolumn'] │
└─────────────────────────────────┴─────────────────────────────────┘
```
## getTypeSerializationStreams
Enumerates stream paths of a data type.
:::note
This function is intended for use by developers.
:::
**Syntax**
```sql
getTypeSerializationStreams(col)
```
**Arguments**
- `col` — Column or string representation of a data-type from which the data type will be detected.
**Returned value**
- Returns an array with all the serialization sub-stream paths.[Array](../data-types/array.md)([String](../data-types/string.md)).
**Examples**
Query:
```sql
SELECT getTypeSerializationStreams(tuple('a', 1, 'b', 2));
```
Result:
```response
┌─getTypeSerializationStreams(('a', 1, 'b', 2))─────────────────────────────────────────────────────────────────────────┐
1. │ ['{TupleElement(1), Regular}','{TupleElement(2), Regular}','{TupleElement(3), Regular}','{TupleElement(4), Regular}'] │
└───────────────────────────────────────────────────────────────────────────────────────────────────────────────────────┘
```
Query:
```sql
SELECT getTypeSerializationStreams('Map(String, Int64)');
```
Result:
```response
┌─getTypeSerializationStreams('Map(String, Int64)')────────────────────────────────────────────────────────────────┐
1. │ ['{ArraySizes}','{ArrayElements, TupleElement(keys), Regular}','{ArrayElements, TupleElement(values), Regular}'] │
└──────────────────────────────────────────────────────────────────────────────────────────────────────────────────┘
```
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## globalVariable
Takes constant string argument and returns the value of global variable with that name. It is intended for compatibility with MySQL.
**Syntax**
```sql
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globalVariable(name)
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```
**Arguments**
- `name` — Global variable name. [String ](../data-types/string.md ).
**Returned value**
- Returns the value of variable `name` .
**Example**
Query:
```sql
SELECT globalVariable('max_allowed_packet');
```
Result:
```response
┌─globalVariable('max_allowed_packet')─┐
│ 67108864 │
└──────────────────────────────────────┘
```