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---
toc_priority: 48
toc_title: Bit
---
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# Bit Functions {#bit-functions}
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Bit functions work for any pair of types from UInt8, UInt16, UInt32, UInt64, Int8, Int16, Int32, Int64, Float32, or Float64.
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The result type is an integer with bits equal to the maximum bits of its arguments. If at least one of the arguments is signed, the result is a signed number. If an argument is a floating-point number, it is cast to Int64.
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## bitAnd(a, b) {#bitanda-b}
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## bitOr(a, b) {#bitora-b}
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## bitXor(a, b) {#bitxora-b}
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## bitNot(a) {#bitnota}
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## bitShiftLeft(a, b) {#bitshiftlefta-b}
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## bitShiftRight(a, b) {#bitshiftrighta-b}
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## bitRotateLeft(a, b) {#bitrotatelefta-b}
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## bitRotateRight(a, b) {#bitrotaterighta-b}
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## bitTest {#bittest}
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Takes any integer and converts it into [binary form ](https://en.wikipedia.org/wiki/Binary_number ), returns the value of a bit at specified position. The countdown starts from 0 from the right to the left.
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**Syntax**
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``` sql
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SELECT bitTest(number, index)
```
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**Arguments**
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- `number` – Integer number.
- `index` – Position of bit.
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**Returned values**
Returns a value of bit at specified position.
Type: `UInt8` .
**Example**
For example, the number 43 in base-2 (binary) numeral system is 101011.
Query:
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``` sql
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SELECT bitTest(43, 1);
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```
Result:
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``` text
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┌─bitTest(43, 1)─┐
│ 1 │
└────────────────┘
```
Another example:
Query:
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``` sql
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SELECT bitTest(43, 2);
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```
Result:
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``` text
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┌─bitTest(43, 2)─┐
│ 0 │
└────────────────┘
```
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## bitTestAll {#bittestall}
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Returns result of [logical conjuction ](https://en.wikipedia.org/wiki/Logical_conjunction ) (AND operator) of all bits at given positions. The countdown starts from 0 from the right to the left.
The conjuction for bitwise operations:
0 AND 0 = 0
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0 AND 1 = 0
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1 AND 0 = 0
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1 AND 1 = 1
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**Syntax**
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``` sql
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SELECT bitTestAll(number, index1, index2, index3, index4, ...)
```
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**Arguments**
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- `number` – Integer number.
- `index1` , `index2` , `index3` , `index4` – Positions of bit. For example, for set of positions (`index1`, `index2` , `index3` , `index4` ) is true if and only if all of its positions are true (`index1` ⋀ `index2` , ⋀ `index3` ⋀ `index4` ).
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**Returned values**
Returns result of logical conjuction.
Type: `UInt8` .
**Example**
For example, the number 43 in base-2 (binary) numeral system is 101011.
Query:
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``` sql
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SELECT bitTestAll(43, 0, 1, 3, 5);
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```
Result:
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``` text
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┌─bitTestAll(43, 0, 1, 3, 5)─┐
│ 1 │
└────────────────────────────┘
```
Another example:
Query:
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``` sql
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SELECT bitTestAll(43, 0, 1, 3, 5, 2);
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```
Result:
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``` text
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┌─bitTestAll(43, 0, 1, 3, 5, 2)─┐
│ 0 │
└───────────────────────────────┘
```
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## bitTestAny {#bittestany}
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Returns result of [logical disjunction ](https://en.wikipedia.org/wiki/Logical_disjunction ) (OR operator) of all bits at given positions. The countdown starts from 0 from the right to the left.
The disjunction for bitwise operations:
0 OR 0 = 0
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0 OR 1 = 1
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1 OR 0 = 1
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1 OR 1 = 1
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**Syntax**
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``` sql
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SELECT bitTestAny(number, index1, index2, index3, index4, ...)
```
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**Arguments**
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- `number` – Integer number.
- `index1` , `index2` , `index3` , `index4` – Positions of bit.
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**Returned values**
Returns result of logical disjuction.
Type: `UInt8` .
**Example**
For example, the number 43 in base-2 (binary) numeral system is 101011.
Query:
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``` sql
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SELECT bitTestAny(43, 0, 2);
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```
Result:
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``` text
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┌─bitTestAny(43, 0, 2)─┐
│ 1 │
└──────────────────────┘
```
Another example:
Query:
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``` sql
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SELECT bitTestAny(43, 4, 2);
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```
Result:
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``` text
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┌─bitTestAny(43, 4, 2)─┐
│ 0 │
└──────────────────────┘
```
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## bitCount {#bitcount}
Calculates the number of bits set to one in the binary representation of a number.
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**Syntax**
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``` sql
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bitCount(x)
```
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**Arguments**
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- `x` — [Integer ](../../sql-reference/data-types/int-uint.md ) or [floating-point ](../../sql-reference/data-types/float.md ) number. The function uses the value representation in memory. It allows supporting floating-point numbers.
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**Returned value**
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- Number of bits set to one in the input number.
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The function does not convert input value to a larger type ([sign extension](https://en.wikipedia.org/wiki/Sign_extension)). So, for example, `bitCount(toUInt8(-1)) = 8` .
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Type: `UInt8` .
**Example**
Take for example the number 333. Its binary representation: 0000000101001101.
Query:
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``` sql
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SELECT bitCount(333);
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```
Result:
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``` text
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┌─bitCount(333)─┐
│ 5 │
└───────────────┘
```
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## bitHammingDistance {#bithammingdistance}
Returns the [Hamming Distance ](https://en.wikipedia.org/wiki/Hamming_distance ) between the bit representations of two integer values. Can be used with [SimHash ](../../sql-reference/functions/hash-functions.md#ngramsimhash ) functions for detection of semi-duplicate strings. The smaller is the distance, the more likely those strings are the same.
**Syntax**
``` sql
bitHammingDistance(int1, int2)
```
**Arguments**
- `int1` — First integer value. [Int64 ](../../sql-reference/data-types/int-uint.md ).
- `int2` — Second integer value. [Int64 ](../../sql-reference/data-types/int-uint.md ).
**Returned value**
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- The Hamming distance.
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Type: [UInt8 ](../../sql-reference/data-types/int-uint.md ).
**Examples**
Query:
``` sql
SELECT bitHammingDistance(111, 121);
```
Result:
``` text
┌─bitHammingDistance(111, 121)─┐
│ 3 │
└──────────────────────────────┘
```
With [SimHash ](../../sql-reference/functions/hash-functions.md#ngramsimhash ):
``` sql
SELECT bitHammingDistance(ngramSimHash('cat ate rat'), ngramSimHash('rat ate cat'));
```
Result:
``` text
┌─bitHammingDistance(ngramSimHash('cat ate rat'), ngramSimHash('rat ate cat'))─┐
│ 5 │
└──────────────────────────────────────────────────────────────────────────────┘
```