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50 | Hash |
Hash Functions
Hash functions can be used for the deterministic pseudo-random shuffling of elements.
halfMD5
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.
halfMD5(par1, ...)
The function is relatively slow (5 million short strings per second per processor core). Consider using the sipHash64 function instead.
Parameters
The function takes a variable number of input parameters. Parameters can be any of the supported data types.
Returned Value
A UInt64 data type hash value.
Example
SELECT halfMD5(array('e','x','a'), 'mple', 10, toDateTime('2019-06-15 23:00:00')) AS halfMD5hash, toTypeName(halfMD5hash) AS type
┌────────halfMD5hash─┬─type───┐
│ 186182704141653334 │ UInt64 │
└────────────────────┴────────┘
MD5
Calculates the MD5 from a string and returns the resulting set of bytes as FixedString(16). If you don’t need MD5 in particular, but you need a decent cryptographic 128-bit hash, use the ‘sipHash128’ function instead. If you want to get the same result as output by the md5sum utility, use lower(hex(MD5(s))).
sipHash64
Produces a 64-bit SipHash hash value.
sipHash64(par1,...)
This is a cryptographic hash function. It works at least three times faster than the MD5 function.
Function interprets all the input parameters as strings and calculates the hash value for each of them. Then combines hashes by the following algorithm:
- After hashing all the input parameters, the function gets the array of hashes.
- Function takes the first and the second elements and calculates a hash for the array of them.
- Then the function takes the hash value, calculated at the previous step, and the third element of the initial hash array, and calculates a hash for the array of them.
- The previous step is repeated for all the remaining elements of the initial hash array.
Parameters
The function takes a variable number of input parameters. Parameters can be any of the supported data types.
Returned Value
A UInt64 data type hash value.
Example
SELECT sipHash64(array('e','x','a'), 'mple', 10, toDateTime('2019-06-15 23:00:00')) AS SipHash, toTypeName(SipHash) AS type
┌──────────────SipHash─┬─type───┐
│ 13726873534472839665 │ UInt64 │
└──────────────────────┴────────┘
sipHash128
Calculates SipHash from a string. Accepts a String-type argument. Returns FixedString(16). Differs from sipHash64 in that the final xor-folding state is only done up to 128 bits.
cityHash64
Produces a 64-bit CityHash hash value.
cityHash64(par1,...)
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.
Parameters
The function takes a variable number of input parameters. Parameters can be any of the supported data types.
Returned Value
A UInt64 data type hash value.
Examples
Call example:
SELECT cityHash64(array('e','x','a'), 'mple', 10, toDateTime('2019-06-15 23:00:00')) AS CityHash, toTypeName(CityHash) AS type
┌─────────────CityHash─┬─type───┐
│ 12072650598913549138 │ UInt64 │
└──────────────────────┴────────┘
The following example shows how to compute the checksum of the entire table with accuracy up to the row order:
SELECT groupBitXor(cityHash64(*)) FROM table
intHash32
Calculates a 32-bit hash code from any type of integer. This is a relatively fast non-cryptographic hash function of average quality for numbers.
intHash64
Calculates a 64-bit hash code from any type of integer. It works faster than intHash32. Average quality.
SHA1
SHA224
SHA256
Calculates SHA-1, SHA-224, or SHA-256 from a string and returns the resulting set of bytes as FixedString(20), FixedString(28), or FixedString(32). The function works fairly slowly (SHA-1 processes about 5 million short strings per second per processor core, while SHA-224 and SHA-256 process about 2.2 million). We recommend using this function only in cases when you need a specific hash function and you can’t select it. Even in these cases, we recommend applying the function offline and pre-calculating values when inserting them into the table, instead of applying it in SELECTS.
URLHash(url[, N])
A fast, decent-quality non-cryptographic hash function for a string obtained from a URL using some type of normalization.
URLHash(s)
– Calculates a hash from a string without one of the trailing symbols /
,?
or #
at the end, if present.
URLHash(s, N)
– Calculates a hash from a string up to the N level in the URL hierarchy, without one of the trailing symbols /
,?
or #
at the end, if present.
Levels are the same as in URLHierarchy. This function is specific to Yandex.Metrica.
farmHash64
Produces a 64-bit FarmHash hash value.
farmHash64(par1, ...)
The function uses the Hash64
method from all available methods.
Parameters
The function takes a variable number of input parameters. Parameters can be any of the supported data types.
Returned Value
A UInt64 data type hash value.
Example
SELECT farmHash64(array('e','x','a'), 'mple', 10, toDateTime('2019-06-15 23:00:00')) AS FarmHash, toTypeName(FarmHash) AS type
┌─────────────FarmHash─┬─type───┐
│ 17790458267262532859 │ UInt64 │
└──────────────────────┴────────┘
javaHash
Calculates JavaHash from a string. This hash function is neither fast nor having a good quality. The only reason to use it is when this algorithm is already used in another system and you have to calculate exactly the same result.
Syntax
SELECT javaHash('');
Returned value
A Int32
data type hash value.
Example
Query:
SELECT javaHash('Hello, world!');
Result:
┌─javaHash('Hello, world!')─┐
│ -1880044555 │
└───────────────────────────┘
javaHashUTF16LE
Calculates JavaHash from a string, assuming it contains bytes representing a string in UTF-16LE encoding.
Syntax
javaHashUTF16LE(stringUtf16le)
Parameters
stringUtf16le
— a string in UTF-16LE encoding.
Returned value
A Int32
data type hash value.
Example
Correct query with UTF-16LE encoded string.
Query:
SELECT javaHashUTF16LE(convertCharset('test', 'utf-8', 'utf-16le'))
Result:
┌─javaHashUTF16LE(convertCharset('test', 'utf-8', 'utf-16le'))─┐
│ 3556498 │
└──────────────────────────────────────────────────────────────┘
hiveHash
Calculates HiveHash
from a string.
SELECT hiveHash('');
This is just JavaHash with zeroed out sign bit. This function is used in Apache Hive for versions before 3.0. This hash function is neither fast nor having a good quality. The only reason to use it is when this algorithm is already used in another system and you have to calculate exactly the same result.
Returned value
A Int32
data type hash value.
Type: hiveHash
.
Example
Query:
SELECT hiveHash('Hello, world!');
Result:
┌─hiveHash('Hello, world!')─┐
│ 267439093 │
└───────────────────────────┘
metroHash64
Produces a 64-bit MetroHash hash value.
metroHash64(par1, ...)
Parameters
The function takes a variable number of input parameters. Parameters can be any of the supported data types.
Returned Value
A UInt64 data type hash value.
Example
SELECT metroHash64(array('e','x','a'), 'mple', 10, toDateTime('2019-06-15 23:00:00')) AS MetroHash, toTypeName(MetroHash) AS type
┌────────────MetroHash─┬─type───┐
│ 14235658766382344533 │ UInt64 │
└──────────────────────┴────────┘
jumpConsistentHash
Calculates JumpConsistentHash form a UInt64. Accepts two arguments: a UInt64-type key and the number of buckets. Returns Int32. For more information, see the link: JumpConsistentHash
murmurHash2_32, murmurHash2_64
Produces a MurmurHash2 hash value.
murmurHash2_32(par1, ...)
murmurHash2_64(par1, ...)
Parameters
Both functions take a variable number of input parameters. Parameters can be any of the supported data types.
Returned Value
- The
murmurHash2_32
function returns hash value having the UInt32 data type. - The
murmurHash2_64
function returns hash value having the UInt64 data type.
Example
SELECT murmurHash2_64(array('e','x','a'), 'mple', 10, toDateTime('2019-06-15 23:00:00')) AS MurmurHash2, toTypeName(MurmurHash2) AS type
┌──────────MurmurHash2─┬─type───┐
│ 11832096901709403633 │ UInt64 │
└──────────────────────┴────────┘
gccMurmurHash
Calculates a 64-bit MurmurHash2 hash value using the same hash seed as gcc. It is portable between CLang and GCC builds.
Syntax
gccMurmurHash(par1, ...);
Parameters
par1, ...
— A variable number of parameters that can be any of the supported data types.
Returned value
- Calculated hash value.
Type: UInt64.
Example
Query:
SELECT
gccMurmurHash(1, 2, 3) AS res1,
gccMurmurHash(('a', [1, 2, 3], 4, (4, ['foo', 'bar'], 1, (1, 2)))) AS res2
Result:
┌─────────────────res1─┬────────────────res2─┐
│ 12384823029245979431 │ 1188926775431157506 │
└──────────────────────┴─────────────────────┘
murmurHash3_32, murmurHash3_64
Produces a MurmurHash3 hash value.
murmurHash3_32(par1, ...)
murmurHash3_64(par1, ...)
Parameters
Both functions take a variable number of input parameters. Parameters can be any of the supported data types.
Returned Value
- The
murmurHash3_32
function returns a UInt32 data type hash value. - The
murmurHash3_64
function returns a UInt64 data type hash value.
Example
SELECT murmurHash3_32(array('e','x','a'), 'mple', 10, toDateTime('2019-06-15 23:00:00')) AS MurmurHash3, toTypeName(MurmurHash3) AS type
┌─MurmurHash3─┬─type───┐
│ 2152717 │ UInt32 │
└─────────────┴────────┘
murmurHash3_128
Produces a 128-bit MurmurHash3 hash value.
murmurHash3_128( expr )
Parameters
expr
— Expressions returning a String-type value.
Returned Value
A FixedString(16) data type hash value.
Example
SELECT murmurHash3_128('example_string') AS MurmurHash3, toTypeName(MurmurHash3) AS type
┌─MurmurHash3──────┬─type────────────┐
│ 6<>1<1C>4"S5KT<4B>~~q │ FixedString(16) │
└──────────────────┴─────────────────┘
xxHash32, xxHash64
Calculates xxHash
from a string. It is proposed in two flavors, 32 and 64 bits.
SELECT xxHash32('');
OR
SELECT xxHash64('');
Returned value
A Uint32
or Uint64
data type hash value.
Type: xxHash
.
Example
Query:
SELECT xxHash32('Hello, world!');
Result:
┌─xxHash32('Hello, world!')─┐
│ 834093149 │
└───────────────────────────┘
See Also