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Hash functions can be used for the deterministic pseudo-random shuffling of elements. Simhash is a hash function, which returns close hash values for close (similar) arguments. Most hash functions accept any number of arguments of any types.
Hash of NULL is NULL. To get a non-NULL hash of a Nullable column, wrap it in a tuple:
To calculate hash of the whole contents of a table, use sum(cityHash64(tuple(*))) (or other hash function). tuple ensures that rows with NULL values are not skipped. sum ensures that the order of rows doesn’t matter.

BLAKE3

Introduced in: v22.10.0 Calculates BLAKE3 hash string and returns the resulting set of bytes as FixedString. This cryptographic hash-function is integrated into ClickHouse with BLAKE3 Rust library. The function is rather fast and shows approximately two times faster performance compared to SHA-2, while generating hashes of the same length as SHA-256. It returns a BLAKE3 hash as a byte array with type FixedString(32). Syntax
Arguments
  • message — The input string to hash. String
Returned value Returns the 32-byte BLAKE3 hash of the input string as a fixed-length string. FixedString(32) Examples hash
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MD4

Introduced in: v21.11.0 Calculates the MD4 hash of the given string. Syntax
Arguments
  • s — The input string to hash. String
Returned value Returns the MD4 hash of the given input string as a fixed-length string. FixedString(16) Examples Usage example
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MD5

Introduced in: v1.1.0 Calculates the MD5 hash of the given string. Syntax
Arguments
  • s — The input string to hash. String
Returned value Returns the MD5 hash of the given input string as a fixed-length string. FixedString(16) Examples Usage example
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RIPEMD160

Introduced in: v24.10.0 Calculates the RIPEMD-160 hash of the given string. Syntax
Arguments
  • s — The input string to hash. String
Returned value Returns the RIPEMD160 hash of the given input string as a fixed-length string. FixedString(20) Examples Usage example
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SHA1

Introduced in: v1.1.0 Calculates the SHA1 hash of the given string. Syntax
Arguments
  • s — The input string to hash String
Returned value Returns the SHA1 hash of the given input string as a fixed-length string. FixedString(20) Examples Usage example
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SHA224

Introduced in: v1.1.0 Calculates the SHA224 hash of the given string. Syntax
Arguments
  • s — The input value to hash. String
Returned value Returns the SHA224 hash of the given input string as a fixed-length string. FixedString(28) Examples Usage example
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SHA256

Introduced in: v1.1.0 Calculates the SHA256 hash of the given string. Syntax
Arguments
  • s — The input string to hash. String
Returned value Returns the SHA256 hash of the given input string as a fixed-length string. FixedString(32) Examples Usage example
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SHA384

Introduced in: v1.1.0 Calculates the SHA384 hash of the given string. Syntax
Arguments
  • s — The input string to hash. String
Returned value Returns the SHA384 hash of the given input string as a fixed-length string. FixedString(48) Examples Usage example
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SHA512

Introduced in: v1.1.0 Calculates the SHA512 hash of the given string. Syntax
Arguments
  • s — The input string to hash String
Returned value Returns the SHA512 hash of the given input string as a fixed-length string. FixedString(64) Examples Usage example
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SHA512_256

Introduced in: v1.1.0 Calculates the SHA512_256 hash of the given string. Syntax
Arguments
  • s — The input string to hash. String
Returned value Returns the SHA512_256 hash of the given input string as a fixed-length string. FixedString(32) Examples Usage example
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URLHash

Introduced in: v1.1.0 A fast, decent-quality non-cryptographic hash function for a string obtained from a URL using some type of normalization. This hash function has two modes: Syntax
Arguments
  • url — URL string to hash. String
  • N — Optional. Level in the URL hierarchy. (U)Int*
Returned value Returns the computed hash value of url. UInt64 Examples Usage example
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Hash of url with specified level
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cityHash64

Introduced in: v1.1.0 Produces a 64-bit CityHash hash value. This is a fast non-cryptographic hash function. It uses the CityHash algorithm for string parameters and implementation-specific fast non-cryptographic hash function for parameters with other data types. The function uses the CityHash combinator to get the final results.
Google changed the algorithm of CityHash after it was added to ClickHouse. In other words, ClickHouse’s cityHash64 and Google’s upstream CityHash now produce different results. ClickHouse cityHash64 corresponds to CityHash v1.0.2.
The calculated hash values may be equal for the same input values of different argument types. This affects for example integer types of different size, named and unnamed Tuple with the same data, Map and the corresponding Array(Tuple(key, value)) type with the same data.
Syntax
Arguments
  • arg1[, arg2, ...] — A variable number of input arguments for which to compute the hash. Any
Returned value Returns the computed hash of the input arguments. UInt64 Examples Call example
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Computing the checksum of the entire table with accuracy up to the row order
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farmFingerprint64

Introduced in: v20.12.0 Produces a 64-bit FarmHash value using the Fingerprint64 method.
farmFingerprint64 is preferred for a stable and portable value over farmHash64.
The calculated hash values may be equal for the same input values of different argument types. This affects for example integer types of different size, named and unnamed Tuple with the same data, Map and the corresponding Array(Tuple(key, value)) type with the same data.
Syntax
Arguments
  • arg1[, arg2, ...] — A variable number of input arguments for which to compute the hash. Any
Returned value Returns the computed hash value of the input arguments. UInt64 Examples Usage example
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farmHash64

Introduced in: v1.1.0 Produces a 64-bit FarmHash using the Hash64 method.
farmFingerprint64 is preferred for a stable and portable value.
The calculated hash values may be equal for the same input values of different argument types. This affects for example integer types of different size, named and unnamed Tuple with the same data, Map and the corresponding Array(Tuple(key, value)) type with the same data.
Syntax
Arguments
  • arg1[, arg2, ...] — A variable number of input arguments for which to compute the hash. Any
Returned value Returns the computed hash value of the input arguments. UInt64 Examples Usage example
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gccMurmurHash

Introduced in: v20.1.0 Computes the 64-bit MurmurHash2 hash of the input value using the same seed as used by GCC. It is portable between Clang and GCC builds. Syntax
Arguments
  • arg1[, arg2, ...] — A variable number of arguments for which to compute the hash. Any
Returned value Returns the calculated hash value of the input arguments. UInt64 Examples Usage example
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halfMD5

Introduced in: v1.1.0 Interprets all the input parameters as strings and calculates the MD5 hash value for each of them. Then combines hashes, takes the first 8 bytes of the hash of the resulting string, and interprets them as UInt64 in big-endian byte order. The function is relatively slow (5 million short strings per second per processor core). Consider using the sipHash64 function instead. The function takes a variable number of input parameters. Arguments can be any of the supported data types. For some data types calculated value of hash function may be the same for the same values even if types of arguments differ (integers of different size, named and unnamed Tuple with the same data, Map and the corresponding Array(Tuple(key, value)) type with the same data). Syntax
Arguments
  • arg1[, arg2, ..., argN] — Variable number of arguments for which to compute the hash. Any
Returned value Returns the computed half MD5 hash of the given input params returned as a UInt64 in big-endian byte order. UInt64 Examples Usage example
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hiveHash

Introduced in: v20.1.0 Calculates a “HiveHash” from a string. This is just JavaHash with zeroed out sign bits. This function is used in Apache Hive for versions before 3.0.
This hash function is unperformant. Use it only when this algorithm is already used in another system and you need to calculate the same result.
Syntax
Arguments
  • arg — Input string to hash. String
Returned value Returns the computed “hive hash” of the input string. Int32 Examples Usage example
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icebergHash

Introduced in: v25.5.0 Implements the logic of the iceberg hashing transform Syntax
Arguments Returned value Returns a 32-bit Murmur3 hash, x86 variant, seeded with 0 Int32 Examples Example
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intHash32

Introduced in: v1.1.0 Calculates a 32-bit hash of an integer. The hash function is relatively fast but not cryptographic hash function. Syntax
Arguments Returned value Returns the computed 32-bit hash code of the input integer UInt32 Examples Usage example
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intHash64

Introduced in: v1.1.0 Calculates a 64-bit hash of an integer. The hash function is relatively fast (even faster than intHash32) but not a cryptographic hash function. Syntax
Arguments Returned value 64-bit hash code. UInt64 Examples Usage example
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javaHash

Introduced in: v20.1.0 Calculates JavaHash from:
This hash function is unperformant. Use it only when this algorithm is already in use in another system and you need to calculate the same result.
Java only supports calculating the hash of signed integers, so if you want to calculate a hash of unsigned integers you must cast them to the proper signed ClickHouse types.
Syntax
Arguments
  • arg — Input value to hash. Any
Returned value Returns the computed hash of arg Int32 Examples Usage example 1
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Usage example 2
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javaHashUTF16LE

Introduced in: v20.1.0 Calculates JavaHash from a string, assuming it contains bytes representing a string in UTF-16LE encoding. Syntax
Arguments
  • arg — A string in UTF-16LE encoding. String
Returned value Returns the computed hash of the UTF-16LE encoded string. Int32 Examples Usage example
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jumpConsistentHash

Introduced in: v1.1.0 Calculates the jump consistent hash for an integer. Syntax
Arguments
  • key — The input key. UInt64
  • buckets — The number of buckets. Int32
Returned value Returns the computed hash value. Int32 Examples Usage example
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kafkaMurmurHash

Introduced in: v23.4.0 Calculates the 32-bit MurmurHash2 hash of the input value using the same seed as used by Kafka and without the highest bit to be compatible with Default Partitioner. Syntax
Arguments
  • arg1[, arg2, ...] — A variable number of parameters for which to compute the hash. Any
Returned value Returns the calculated hash value of the input arguments. UInt32 Examples Usage example
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keccak256

Introduced in: v25.4.0 Calculates the Keccak-256 cryptographic hash of the given string. This hash function is widely used in blockchain applications, particularly Ethereum. Syntax
Arguments
  • message — The input string to hash. String
Returned value Returns the 32-byte Keccak-256 hash of the input string as a fixed-length string. FixedString(32) Examples Usage example
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kostikConsistentHash

Introduced in: v22.6.0 An O(1) time and space consistent hash algorithm by Konstantin ‘Kostik’ Oblakov. Only efficient with n <= 32768. Syntax
Aliases: yandexConsistentHash Arguments
  • input — An integer key. UInt64
  • n — The number of buckets. UInt16
Returned value Returns the computed hash value. UInt16 Examples Usage example
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metroHash64

Introduced in: v1.1.0 Produces a 64-bit MetroHash hash value.
The calculated hash values may be equal for the same input values of different argument types. This affects for example integer types of different size, named and unnamed Tuple with the same data, Map and the corresponding Array(Tuple(key, value)) type with the same data.
Syntax
Arguments
  • arg1[, arg2, ...] — A variable number of input arguments for which to compute the hash. Any
Returned value Returns the computed hash of the input arguments. UInt64 Examples Usage example
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murmurHash2_32

Introduced in: v18.5.0 Computes the MurmurHash2 hash of the input value.
The calculated hash values may be equal for the same input values of different argument types. This affects for example integer types of different size, named and unnamed Tuple with the same data, Map and the corresponding Array(Tuple(key, value)) type with the same data.
Syntax
Arguments
  • arg1[, arg2, ...] — A variable number of input arguments for which to compute the hash. Any
Returned value Returns the computed hash value of the input arguments. UInt32 Examples Usage example
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murmurHash2_64

Introduced in: v18.10.0 Computes the MurmurHash2 hash of the input value.
The calculated hash values may be equal for the same input values of different argument types. This affects for example integer types of different size, named and unnamed Tuple with the same data, Map and the corresponding Array(Tuple(key, value)) type with the same data.
Syntax
Arguments
  • arg1[, arg2, ...] — A variable number of input arguments for which to compute the hash. Any
Returned value Returns the computed hash of the input arguments. UInt64 Examples Usage example
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murmurHash3_128

Introduced in: v18.10.0 Computes the 128-bit MurmurHash3 hash of the input value. Syntax
Arguments
  • arg1[, arg2, ...] — A variable number of input arguments for which to compute the hash. Any
Returned value Returns the computed 128-bit MurmurHash3 hash value of the input arguments. FixedString(16) Examples Usage example
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murmurHash3_32

Introduced in: v18.10.0 Produces a MurmurHash3 hash value.
The calculated hash values may be equal for the same input values of different argument types. This affects for example integer types of different size, named and unnamed Tuple with the same data, Map and the corresponding Array(Tuple(key, value)) type with the same data.
Syntax
Arguments
  • arg1[, arg2, ...] — A variable number of input arguments for which to compute the hash. Any
Returned value Returns the computed hash value of the input arguments. UInt32 Examples Usage example
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murmurHash3_64

Introduced in: v18.10.0 Computes the MurmurHash3 hash of the input value.
The calculated hash values may be equal for the same input values of different argument types. This affects for example integer types of different size, named and unnamed Tuple with the same data, Map and the corresponding Array(Tuple(key, value)) type with the same data.
Syntax
Arguments
  • arg1[, arg2, ...] — A variable number of input arguments for which to compute the hash. Any
Returned value Returns the computed hash value of the input arguments. UInt64 Examples Usage example
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ngramMinHash

Introduced in: v21.1.0 Splits a ASCII string into n-grams of ngramsize symbols and calculates hash values for each n-gram and returns a tuple with these hashes. Uses hashnum minimum hashes to calculate the minimum hash and hashnum maximum hashes to calculate the maximum hash. It is case sensitive. Can be used to detect semi-duplicate strings with tupleHammingDistance. For two strings, if the returned hashes are the same for both strings, then those strings are the same. Syntax
Arguments
  • string — String for which to compute the hash. String
  • ngramsize — Optional. The size of an n-gram, any number from 1 to 25. The default value is 3. UInt8
  • hashnum — Optional. The number of minimum and maximum hashes used to calculate the result, any number from 1 to 25. The default value is 6. UInt8
Returned value Returns a tuple with two hashes — the minimum and the maximum. Tuple Examples Usage example
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ngramMinHashArg

Introduced in: v21.1.0 Splits a ASCII string into n-grams of ngramsize symbols and returns the n-grams with minimum and maximum hashes, calculated by the ngramMinHash function with the same input. It is case sensitive. Syntax
Arguments
  • string — String for which to compute the hash. String
  • ngramsize — Optional. The size of an n-gram, any number from 1 to 25. The default value is 3. UInt8
  • hashnum — Optional. The number of minimum and maximum hashes used to calculate the result, any number from 1 to 25. The default value is 6. UInt8
Returned value Returns a tuple with two tuples with hashnum n-grams each. Tuple(String) Examples Usage example
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ngramMinHashArgCaseInsensitive

Introduced in: v21.1.0 Splits a ASCII string into n-grams of ngramsize symbols and returns the n-grams with minimum and maximum hashes, calculated by the ngramMinHashCaseInsensitive function with the same input. It is case insensitive. Syntax
Arguments
  • string — String for which to compute the hash. String
  • ngramsize — Optional. The size of an n-gram, any number from 1 to 25. The default value is 3. UInt8
  • hashnum — Optional. The number of minimum and maximum hashes used to calculate the result, any number from 1 to 25. The default value is 6. UInt8
Returned value Returns a tuple with two tuples with hashnum n-grams each. Tuple(Tuple(String)) Examples Usage example
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ngramMinHashArgCaseInsensitiveUTF8

Introduced in: v21.1.0 Splits a UTF-8 string into n-grams of ngramsize symbols and returns the n-grams with minimum and maximum hashes, calculated by the ngramMinHashCaseInsensitiveUTF8 function with the same input. It is case insensitive. Syntax
Arguments
  • string — String for which to compute the hash. String
  • ngramsize — Optional. The size of an n-gram, any number from 1 to 25. The default value is 3. UInt8
  • hashnum — Optional. The number of minimum and maximum hashes used to calculate the result, any number from 1 to 25. The default value is 6. UInt8
Returned value Returns a tuple with two tuples with hashnum n-grams each. Tuple(Tuple(String)) Examples Usage example
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ngramMinHashArgUTF8

Introduced in: v21.1.0 Splits a UTF-8 string into n-grams of ngramsize symbols and returns the n-grams with minimum and maximum hashes, calculated by the ngramMinHashUTF8 function with the same input. It is case sensitive. Syntax
Arguments
  • string — String for which to compute the hash. String
  • ngramsize — Optional. The size of an n-gram, any number from 1 to 25. The default value is 3. UInt8
  • hashnum — Optional. The number of minimum and maximum hashes used to calculate the result, any number from 1 to 25. The default value is 6. UInt8
Returned value Returns a tuple with two tuples with hashnum n-grams each. Tuple(Tuple(String)) Examples Usage example
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ngramMinHashCaseInsensitive

Introduced in: v21.1.0 Splits a ASCII string into n-grams of ngramsize symbols and calculates hash values for each n-gram and returns a tuple with these hashes Uses hashnum minimum hashes to calculate the minimum hash and hashnum maximum hashes to calculate the maximum hash. It is case insensitive. Can be used to detect semi-duplicate strings with tupleHammingDistance. For two strings, if the returned hashes are the same for both strings, then those strings are the same. Syntax
Arguments
  • string — String. String. - ngramsize — The size of an n-gram. Optional. Possible values: any number from 1 to 25. Default value: 3. UInt8. - hashnum — The number of minimum and maximum hashes used to calculate the result. Optional. Possible values: any number from 1 to 25. Default value: 6. UInt8.
Returned value Tuple with two hashes — the minimum and the maximum. Tuple(UInt64, UInt64). Tuple Examples Usage example
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ngramMinHashCaseInsensitiveUTF8

Introduced in: v21.1.0 Splits a UTF-8 string into n-grams of ngramsize symbols and calculates hash values for each n-gram and returns a tuple with these hashes.. Uses hashnum minimum hashes to calculate the minimum hash and hashnum maximum hashes to calculate the maximum hash. It is case insensitive. Can be used to detect semi-duplicate strings with tupleHammingDistance. For two strings, if the returned hashes are the same for both strings, then those strings are the same. Syntax
Arguments
  • string — String for which to compute the hash. String
  • ngramsize — Optional. The size of an n-gram, any number from 1 to 25. The default value is 3. UInt8
  • hashnum — Optional. The number of minimum and maximum hashes used to calculate the result, any number from 1 to 25. The default value is 6. UInt8
Returned value Returns a tuple with two hashes — the minimum and the maximum. Tuple Examples Usage example
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ngramMinHashUTF8

Introduced in: v21.1.0 Splits a UTF-8 string into n-grams of ngramsize symbols and calculates hash values for each n-gram and returns a tuple with these hashes. Uses hashnum minimum hashes to calculate the minimum hash and hashnum maximum hashes to calculate the maximum hash. It is case sensitive. Can be used to detect semi-duplicate strings with tupleHammingDistance. For two strings, if the returned hashes are the same for both strings, then those strings are the same. Syntax
Arguments
  • string — String for which to compute the hash. String
  • ngramsize — Optional. The size of an n-gram, any number from 1 to 25. The default value is 3. UInt8
  • hashnum — Optional. The number of minimum and maximum hashes used to calculate the result, any number from 1 to 25. The default value is 6. UInt8
Returned value Returns a tuple with two hashes — the minimum and the maximum. Tuple Examples Usage example
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ngramSimHash

Introduced in: v21.1.0 Splits a ASCII string into n-grams of ngramsize symbols and returns the n-gram simhash. Can be used for detection of semi-duplicate strings with bitHammingDistance. The smaller the Hamming distance of the calculated simhashes of two strings, the more likely these strings are the same. Syntax
Arguments
  • string — String for which to compute the case sensitive simhash. String
  • ngramsize — Optional. The size of an n-gram, any number from 1 to 25. The default value is3. UInt8
Returned value Returns the computed hash of the input string. UInt64 Examples Usage example
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ngramSimHashCaseInsensitive

Introduced in: v21.1.0 Splits a ASCII string into n-grams of ngramsize symbols and returns the n-gram simhash. It is case insensitive. Can be used for detection of semi-duplicate strings with bitHammingDistance. The smaller the Hamming distance of the calculated simhashes of two strings, the more likely these strings are the same. Syntax
Arguments
  • string — String for which to compute the case insensitive simhash. String
  • ngramsize — Optional. The size of an n-gram, any number from 1 to 25. The default value is 3. UInt8
Returned value Hash value. UInt64. UInt64 Examples Usage example
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ngramSimHashCaseInsensitiveUTF8

Introduced in: v21.1.0 Splits a UTF-8 string into n-grams of ngramsize symbols and returns the n-gram simhash. It is case insensitive. Can be used for detection of semi-duplicate strings with bitHammingDistance. The smaller is the Hamming Distance of the calculated simhashes of two strings, the more likely these strings are the same. Syntax
Arguments
  • string — String for which to compute the hash. String
  • ngramsize — Optional. The size of an n-gram, any number from 1 to 25. The default value is 3. UInt8
Returned value Returns the computed hash value. UInt64 Examples Usage example
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ngramSimHashUTF8

Introduced in: v21.1.0 Splits a UTF-8 encoded string into n-grams of ngramsize symbols and returns the n-gram simhash. It is case sensitive. Can be used for detection of semi-duplicate strings with bitHammingDistance. The smaller the Hamming distance of the calculated simhashes of two strings, the more likely these strings are the same. Syntax
Arguments
  • string — String for which to compute the hash. String
  • ngramsize — Optional. The size of an n-gram, any number from 1 to 25. The default value is 3. UInt8
Returned value Returns the computed hash value. UInt64 Examples Usage example
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sipHash128

Introduced in: v1.1.0 Like sipHash64 but produces a 128-bit hash value, i.e. the final xor-folding state is done up to 128 bits.
use sipHash128Reference for new projectsThis 128-bit variant differs from the reference implementation and is weaker. This version exists because, when it was written, there was no official 128-bit extension for SipHash. New projects are advised to use sipHash128Reference.
Syntax
Arguments
  • arg1[, arg2, ...] — A variable number of input arguments for which to compute the hash. Any
Returned value Returns a 128-bit SipHash hash value. FixedString(16) Examples Usage example
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sipHash128Keyed

Introduced in: v23.2.0 Same as sipHash128 but additionally takes an explicit key argument instead of using a fixed key.
use sipHash128ReferenceKeyed for new projectsThis 128-bit variant differs from the reference implementation and it’s weaker. This version exists because, when it was written, there was no official 128-bit extension for SipHash. New projects should probably use sipHash128ReferenceKeyed.
Syntax
Arguments
  • (k0, k1) — A tuple of two UInt64 values representing the key. Tuple(UInt64, UInt64)
  • arg1[, arg2, ...] — A variable number of input arguments for which to compute the hash. Any
Returned value A 128-bit SipHash hash value of type FixedString(16). FixedString(16) Examples Usage example
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sipHash128Reference

Introduced in: v23.2.0 Like sipHash128 but implements the 128-bit algorithm from the original authors of SipHash. Syntax
Arguments
  • arg1[, arg2, ...] — A variable number of input arguments for which to compute the hash. Any
Returned value Returns the computed 128-bit SipHash hash value of the input arguments. FixedString(16) Examples Usage example
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sipHash128ReferenceKeyed

Introduced in: v23.2.0 Same as sipHash128Reference but additionally takes an explicit key argument instead of using a fixed key. Syntax
Arguments
  • (k0, k1) — Tuple of two values representing the key Tuple(UInt64, UInt64)
  • arg1[, arg2, ...] — A variable number of input arguments for which to compute the hash. Any
Returned value Returns the computed 128-bit SipHash hash value of the input arguments. FixedString(16) Examples Usage example
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sipHash64

Introduced in: v1.1.0 Produces a 64-bit SipHash hash value. This is a cryptographic hash function. It works at least three times faster than the MD5 hash function. The function interprets all the input parameters as strings and calculates the hash value for each of them. It then combines the hashes using the following algorithm:
  1. The first and the second hash value are concatenated to an array which is hashed.
  2. The previously calculated hash value and the hash of the third input parameter are hashed in a similar way.
  3. This calculation is repeated for all remaining hash values of the original input.
the calculated hash values may be equal for the same input values of different argument types. This affects for example integer types of different size, named and unnamed Tuple with the same data, Map and the corresponding Array(Tuple(key, value)) type with the same data.
Syntax
Arguments
  • arg1[, arg2, ...] — A variable number of input arguments. Any
Returned value Returns a computed hash value of the input arguments. UInt64 Examples Usage example
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sipHash64Keyed

Introduced in: v23.2.0 Like sipHash64 but additionally takes an explicit key argument instead of using a fixed key. Syntax
Arguments
  • (k0, k1) — A tuple of two values representing the key. Tuple(UInt64, UInt64)
  • arg1[,arg2, ...] — A variable number of input arguments. Any
Returned value Returns the computed hash of the input values. UInt64 Examples Usage example
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wordShingleMinHash

Introduced in: v21.1.0 Splits a ASCII string into parts (shingles) of shinglesize words, calculates hash values for each word shingle and returns a tuple with these hashes. Uses hashnum minimum hashes to calculate the minimum hash and hashnum maximum hashes to calculate the maximum hash. It is case sensitive. Can be used to detect semi-duplicate strings with tupleHammingDistance. For two strings, if the returned hashes are the same for both strings, then those strings are the same. Syntax
Arguments
  • string — String for which to compute the hash. String
  • shinglesize — Optional. The size of a word shingle, any number from 1 to 25. The default value is 3. UInt8
  • hashnum — Optional. The number of minimum and maximum hashes used to calculate the result, any number from 1 to 25. The default value is 6. UInt8
Returned value Returns a tuple with two hashes — the minimum and the maximum. Tuple(UInt64, UInt64) Examples Usage example
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wordShingleMinHashArg

Introduced in: v1.1.0 Splits a ASCII string into parts (shingles) of shinglesize words each and returns the shingles with minimum and maximum word hashes, calculated by the wordShingleMinHash function with the same input. It is case sensitive. Syntax
Arguments
  • string — String for which to compute the hash. String
  • shinglesize — Optional. The size of a word shingle, any number from 1 to 25. The default value is 3. UInt8
  • hashnum — Optional. The number of minimum and maximum hashes used to calculate the result, any number from 1 to 25. The default value is 6. UInt8
Returned value Returns a tuple with two tuples with hashnum word shingles each. Tuple(Tuple(String)) Examples Usage example
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wordShingleMinHashArgCaseInsensitive

Introduced in: v21.1.0 Splits a ASCII string into parts (shingles) of shinglesize words each and returns the shingles with minimum and maximum word hashes, calculated by the wordShingleMinHashCaseInsensitive function with the same input. It is case insensitive. Syntax
Arguments
  • string — String for which to compute the hash. String
  • shinglesize — Optional. The size of a word shingle, any number from 1 to 25. The default value is 3. UInt8
  • hashnum — Optional. The number of minimum and maximum hashes used to calculate the result, any number from 1 to 25. The default value is 6. UInt8
Returned value Returns a tuple with two tuples with hashnum word shingles each. Tuple(Tuple(String)) Examples Usage example
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wordShingleMinHashArgCaseInsensitiveUTF8

Introduced in: v21.1.0 Splits a UTF-8 string into parts (shingles) of shinglesize words each and returns the shingles with minimum and maximum word hashes, calculated by the wordShingleMinHashCaseInsensitiveUTF8 function with the same input. It is case insensitive. Syntax
Arguments
  • string — String for which to compute the hash. String
  • shinglesize — Optional. The size of a word shingle, any number from 1 to 25. The default value is 3. UInt8
  • hashnum — Optional. The number of minimum and maximum hashes used to calculate the result, any number from 1 to 25. The default value is 6. UInt8
Returned value Returns a tuple with two tuples with hashnum word shingles each. Tuple(Tuple(String)) Examples Usage example
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wordShingleMinHashArgUTF8

Introduced in: v21.1.0 Splits a UTF-8 string into parts (shingles) of shinglesize words each and returns the shingles with minimum and maximum word hashes, calculated by the wordShingleMinHashUTF8 function with the same input. It is case sensitive. Syntax
Arguments
  • string — String for which to compute the hash. String
  • shinglesize — Optional. The size of a word shingle, any number from 1 to 25. The default value is 3. UInt8
  • hashnum — Optional. The number of minimum and maximum hashes used to calculate the result, any number from 1 to 25. The default value is 6. UInt8
Returned value Returns a tuple with two tuples with hashnum word shingles each. Tuple(Tuple(String)) Examples Usage example
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wordShingleMinHashCaseInsensitive

Introduced in: v21.1.0 Splits a ASCII string into parts (shingles) of shinglesize words, calculates hash values for each word shingle and returns a tuple with these hashes. Uses hashnum minimum hashes to calculate the minimum hash and hashnum maximum hashes to calculate the maximum hash. It is case insensitive. Can be used to detect semi-duplicate strings with tupleHammingDistance. For two strings, if the returned hashes are the same for both strings, then those strings are the same. Syntax
Arguments
  • string — String for which to compute the hash. String
  • shinglesize — Optional. The size of a word shingle, any number from 1 to 25. The default value is 3. UInt8
  • hashnum — Optional. The number of minimum and maximum hashes used to calculate the result, any number from 1 to 25. The default value is 6. UInt8
Returned value Returns a tuple with two hashes — the minimum and the maximum. Tuple(UInt64, UInt64) Examples Usage example
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wordShingleMinHashCaseInsensitiveUTF8

Introduced in: v21.1.0 Splits a UTF-8 string into parts (shingles) of shinglesize words, calculates hash values for each word shingle and returns a tuple with these hashes. Uses hashnum minimum hashes to calculate the minimum hash and hashnum maximum hashes to calculate the maximum hash. It is case insensitive. Can be used to detect semi-duplicate strings with tupleHammingDistance. For two strings, if the returned hashes are the same for both strings, then those strings are the same. Syntax
Arguments
  • string — String for which to compute the hash. String
  • shinglesize — Optional. The size of a word shingle, any number from 1 to 25. The default value is 3. UInt8
  • hashnum — Optional. The number of minimum and maximum hashes used to calculate the result, any number from 1 to 25. The default value is 6. UInt8
Returned value Returns a tuple with two hashes — the minimum and the maximum. Tuple(UInt64, UInt64) Examples Usage example
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wordShingleMinHashUTF8

Introduced in: v21.1.0 Splits a UTF-8 string into parts (shingles) of shinglesize words, calculates hash values for each word shingle and returns a tuple with these hashes. Uses hashnum minimum hashes to calculate the minimum hash and hashnum maximum hashes to calculate the maximum hash. It is case sensitive. Can be used to detect semi-duplicate strings with tupleHammingDistance. For two strings, if the returned hashes are the same for both strings, then those strings are the same. Syntax
Arguments
  • string — String for which to compute the hash. String
  • shinglesize — Optional. The size of a word shingle, any number from 1 to 25. The default value is 3. UInt8
  • hashnum — Optional. The number of minimum and maximum hashes used to calculate the result, any number from 1 to 25. The default value is 6. UInt8
Returned value Returns a tuple with two hashes — the minimum and the maximum. Tuple(UInt64, UInt64) Examples Usage example
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wordShingleSimHash

Introduced in: v21.1.0 Splits a ASCII string into parts (shingles) of shinglesize words and returns the word shingle simhash. Is is case sensitive. Can be used for detection of semi-duplicate strings with bitHammingDistance. The smaller the Hamming distance of the calculated simhashes of two strings, the more likely these strings are the same. Syntax
Arguments
  • string — String for which to compute the hash. String
  • shinglesize — Optional. The size of a word shingle, any number from 1 to 25. The default value is 3. UInt8
Returned value Returns the computed hash value. UInt64 Examples Usage example
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wordShingleSimHashCaseInsensitive

Introduced in: v21.1.0 Splits a ASCII string into parts (shingles) of shinglesize words and returns the word shingle simhash. It is case insensitive. Can be used for detection of semi-duplicate strings with bitHammingDistance. The smaller the Hamming distance of the calculated simhashes of two strings, the more likely these strings are the same. Syntax
Arguments
  • string — String for which to compute the hash. String
  • shinglesize — Optional. The size of a word shingle, any number from 1 to 25. The default value is 3. UInt8
Returned value Returns the computed hash value. UInt64 Examples Usage example
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wordShingleSimHashCaseInsensitiveUTF8

Introduced in: v1.1.0 Splits a UTF-8 encoded string into parts (shingles) of shinglesize words and returns the word shingle simhash. It is case insensitive. Can be used for detection of semi-duplicate strings with bitHammingDistance. The smaller the Hamming Distance of the calculated simhashes of two strings, the more likely these strings are the same. Syntax
Arguments
  • string — String for which to compute the hash. String
  • shinglesize — Optional. The size of a word shingle, any number from 1 to 25. The default value is 3. UInt8
Returned value Returns the computed hash value. UInt64 Examples Usage example
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wordShingleSimHashUTF8

Introduced in: v21.1.0 Splits a UTF-8 string into parts (shingles) of shinglesize words and returns the word shingle simhash. It is case sensitive. Can be used for detection of semi-duplicate strings with bitHammingDistance. The smaller the Hamming distance of the calculated simhashes of two strings, the more likely these strings are the same. Syntax
Arguments
  • string — String for which to compute the hash. String
  • shinglesize — Optional. The size of a word shingle, any number from 1 to 25. The default value is 3. UInt8
Returned value Returns the computed hash value. UInt64 Examples Usage example
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wyHash64

Introduced in: v22.7.0 Computes a 64-bit wyHash64 hash value. Syntax
Arguments
  • arg — String argument for which to compute the hash. String
Returned value Returns the computed 64-bit hash value UInt64 Examples Usage example
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xxHash32

Introduced in: v20.1.0 Calculates a xxHash from a string. For the 64-bit version see xxHash64 Syntax
Arguments
  • arg — Input string to hash. String
Returned value Returns the computed 32-bit hash of the input string. UInt32 Examples Usage example
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xxHash64

Introduced in: v20.1.0 Calculates a xxHash from a string. For the 32-bit version see xxHash32 Syntax
Arguments
  • arg — Input string to hash. String
Returned value Returns the computed 64-bit hash of the input string. UInt64 Examples Usage example
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xxh3

Introduced in: v22.12.0 Computes a XXH3 64-bit hash value. Syntax
Arguments
  • expr — A list of expressions of any data type. Any
Returned value Returns the computed 64-bit xxh3 hash value UInt64 Examples Usage example
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xxh3_128

Introduced in: v26.2.0 Computes a XXH3 128-bit hash value. Syntax
Arguments
  • expr — A list of expressions of any data type. Any
Returned value Returns the computed 128-bit xxh3 hash value UInt128 Examples Usage example
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Last modified on June 19, 2026