--- slug: /en/sql-reference/functions/random-functions sidebar_position: 145 sidebar_label: Random Numbers --- # Functions for Generating Random Numbers All functions in this section accept zero or one arguments. The only use of the argument (if provided) is to prevent [common subexpression elimination](../../sql-reference/functions/index.md#common-subexpression-elimination) such that two different executions within a row of the same random function return different random values. Related content - Blog: [Generating random data in ClickHouse](https://clickhouse.com/blog/generating-random-test-distribution-data-for-clickhouse) :::note The random numbers are generated by non-cryptographic algorithms. ::: ## rand Returns a random UInt32 number with uniform distribution. Uses a linear congruential generator with an initial state obtained from the system, which means that while it appears random, it's not truly random and can be predictable if the initial state is known. For scenarios where true randomness is crucial, consider using alternative methods like system-level calls or integrating with external libraries. **Syntax** ```sql rand() ``` Alias: `rand32` **Arguments** None. **Returned value** Returns a number of type UInt32. **Example** ```sql SELECT rand(); ``` ```response 1569354847 -- Note: The actual output will be a random number, not the specific number shown in the example ``` ## rand64 Returns a random UInt64 integer (UInt64) number **Syntax** ```sql rand64() ``` **Arguments** None. **Arguments** Returns a number UInt64 number with uniform distribution. Uses a linear congruential generator with an initial state obtained from the system, which means that while it appears random, it's not truly random and can be predictable if the initial state is known. For scenarios where true randomness is crucial, consider using alternative methods like system-level calls or integrating with external libraries. **Example** ```sql SELECT rand64(); ``` ```response 15030268859237645412 -- Note: The actual output will be a random number, not the specific number shown in the example. ``` ## randCanonical Returns a random Float64 number. **Syntax** ```sql randCanonical() ``` **Arguments** None. **Arguments** Returns a Float64 value between 0 (inclusive) and 1 (exclusive). **Example** ```sql SELECT randCanonical(); ``` ```response 0.3452178901234567 - Note: The actual output will be a random Float64 number between 0 and 1, not the specific number shown in the example. ``` ## randConstant Generates a single constant column filled with a random value. Unlike `rand`, this function ensures the same random value appears in every row of the generated column, making it useful for scenarios requiring a consistent random seed across rows in a single query. **Syntax** ```sql randConstant([x]); ``` **Arguments** - **[x] (Optional):** An optional expression that influences the generated random value. Even if provided, the resulting value will still be constant within the same query execution. Different queries using the same expression will likely generate different constant values. **Arguments** Returns a column of type UInt32 containing the same random value in each row. **Implementation details** The actual output will be different for each query execution, even with the same optional expression. The optional parameter may not significantly change the generated value compared to using `randConstant` alone. **Example** ```sql SELECT randConstant() AS random_value; ``` ```response | random_value | |--------------| | 1234567890 | ``` ```sql SELECT randConstant(10) AS random_value; ``` ```response | random_value | |--------------| | 9876543210 | ``` ## randUniform Returns a random Float64 drawn uniformly from interval [`min`, `max`]. **Syntax** ```sql randUniform(min, max) ``` **Arguments** - `min` - `Float64` - left boundary of the range, - `max` - `Float64` - right boundary of the range. **Arguments** A random number of type [Float64](../data-types/float.md). **Example** ```sql SELECT randUniform(5.5, 10) FROM numbers(5) ``` ```response ┌─randUniform(5.5, 10)─┐ │ 8.094978491443102 │ │ 7.3181248914450885 │ │ 7.177741903868262 │ │ 6.483347380953762 │ │ 6.122286382885112 │ └──────────────────────┘ ``` ## randNormal Returns a random Float64 drawn from a [normal distribution](https://en.wikipedia.org/wiki/Normal_distribution). **Syntax** ```sql randNormal(mean, variance) ``` **Arguments** - `mean` - `Float64` - mean value of distribution, - `variance` - `Float64` - [variance](https://en.wikipedia.org/wiki/Variance) of the distribution. **Returned value** - Random number. [Float64](../data-types/float.md). **Example** ```sql SELECT randNormal(10, 2) FROM numbers(5) ``` Result: ```result ┌──randNormal(10, 2)─┐ │ 13.389228911709653 │ │ 8.622949707401295 │ │ 10.801887062682981 │ │ 4.5220192605895315 │ │ 10.901239123982567 │ └────────────────────┘ ``` ## randLogNormal Returns a random Float64 drawn from a [log-normal distribution](https://en.wikipedia.org/wiki/Log-normal_distribution). **Syntax** ```sql randLogNormal(mean, variance) ``` **Arguments** - `mean` - `Float64` - mean value of distribution, - `variance` - `Float64` - [variance](https://en.wikipedia.org/wiki/Variance) of the distribution. **Returned value** - Random number. [Float64](../data-types/float.md). **Example** ```sql SELECT randLogNormal(100, 5) FROM numbers(5) ``` Result: ```result ┌─randLogNormal(100, 5)─┐ │ 1.295699673937363e48 │ │ 9.719869109186684e39 │ │ 6.110868203189557e42 │ │ 9.912675872925529e39 │ │ 2.3564708490552458e42 │ └───────────────────────┘ ``` ## randBinomial Returns a random UInt64 drawn from a [binomial distribution](https://en.wikipedia.org/wiki/Binomial_distribution). **Syntax** ```sql randBinomial(experiments, probability) ``` **Arguments** - `experiments` - `UInt64` - number of experiments, - `probability` - `Float64` - probability of success in each experiment, a value between 0 and 1. **Returned value** - Random number. [UInt64](../data-types/int-uint.md). **Example** ```sql SELECT randBinomial(100, .75) FROM numbers(5) ``` Result: ```result ┌─randBinomial(100, 0.75)─┐ │ 74 │ │ 78 │ │ 76 │ │ 77 │ │ 80 │ └─────────────────────────┘ ``` ## randNegativeBinomial Returns a random UInt64 drawn from a [negative binomial distribution](https://en.wikipedia.org/wiki/Negative_binomial_distribution). **Syntax** ```sql randNegativeBinomial(experiments, probability) ``` **Arguments** - `experiments` - `UInt64` - number of experiments, - `probability` - `Float64` - probability of failure in each experiment, a value between 0 and 1. **Returned value** - Random number. [UInt64](../data-types/int-uint.md). **Example** ```sql SELECT randNegativeBinomial(100, .75) FROM numbers(5) ``` Result: ```result ┌─randNegativeBinomial(100, 0.75)─┐ │ 33 │ │ 32 │ │ 39 │ │ 40 │ │ 50 │ └─────────────────────────────────┘ ``` ## randPoisson Returns a random UInt64 drawn from a [Poisson distribution](https://en.wikipedia.org/wiki/Poisson_distribution). **Syntax** ```sql randPoisson(n) ``` **Arguments** - `n` - `UInt64` - mean number of occurrences. **Returned value** - Random number. [UInt64](../data-types/int-uint.md). **Example** ```sql SELECT randPoisson(10) FROM numbers(5) ``` Result: ```result ┌─randPoisson(10)─┐ │ 8 │ │ 8 │ │ 7 │ │ 10 │ │ 6 │ └─────────────────┘ ``` ## randBernoulli Returns a random UInt64 drawn from a [Bernoulli distribution](https://en.wikipedia.org/wiki/Bernoulli_distribution). **Syntax** ```sql randBernoulli(probability) ``` **Arguments** - `probability` - `Float64` - probability of success, a value between 0 and 1. **Returned value** - Random number. [UInt64](../data-types/int-uint.md). **Example** ```sql SELECT randBernoulli(.75) FROM numbers(5) ``` Result: ```result ┌─randBernoulli(0.75)─┐ │ 1 │ │ 1 │ │ 0 │ │ 1 │ │ 1 │ └─────────────────────┘ ``` ## randExponential Returns a random Float64 drawn from a [exponential distribution](https://en.wikipedia.org/wiki/Exponential_distribution). **Syntax** ```sql randExponential(lambda) ``` **Arguments** - `lambda` - `Float64` - lambda value. **Returned value** - Random number. [Float64](../data-types/float.md). **Example** ```sql SELECT randExponential(1/10) FROM numbers(5) ``` Result: ```result ┌─randExponential(divide(1, 10))─┐ │ 44.71628934340778 │ │ 4.211013337903262 │ │ 10.809402553207766 │ │ 15.63959406553284 │ │ 1.8148392319860158 │ └────────────────────────────────┘ ``` ## randChiSquared Returns a random Float64 drawn from a [Chi-square distribution](https://en.wikipedia.org/wiki/Chi-squared_distribution) - a distribution of a sum of the squares of k independent standard normal random variables. **Syntax** ```sql randChiSquared(degree_of_freedom) ``` **Arguments** - `degree_of_freedom` - `Float64` - degree of freedom. **Returned value** - Random number. [Float64](../data-types/float.md). **Example** ```sql SELECT randChiSquared(10) FROM numbers(5) ``` Result: ```result ┌─randChiSquared(10)─┐ │ 10.015463656521543 │ │ 9.621799919882768 │ │ 2.71785015634699 │ │ 11.128188665931908 │ │ 4.902063104425469 │ └────────────────────┘ ``` ## randStudentT Returns a random Float64 drawn from a [Student's t-distribution](https://en.wikipedia.org/wiki/Student%27s_t-distribution). **Syntax** ```sql randStudentT(degree_of_freedom) ``` **Arguments** - `degree_of_freedom` - `Float64` - degree of freedom. **Returned value** - Random number. [Float64](../data-types/float.md). **Example** ```sql SELECT randStudentT(10) FROM numbers(5) ``` Result: ```result ┌─────randStudentT(10)─┐ │ 1.2217309938538725 │ │ 1.7941971681200541 │ │ -0.28192176076784664 │ │ 0.2508897721303792 │ │ -2.7858432909761186 │ └──────────────────────┘ ``` ## randFisherF Returns a random Float64 drawn from a [F-distribution](https://en.wikipedia.org/wiki/F-distribution). **Syntax** ```sql randFisherF(d1, d2) ``` **Arguments** - `d1` - `Float64` - d1 degree of freedom in `X = (S1 / d1) / (S2 / d2)`, - `d2` - `Float64` - d2 degree of freedom in `X = (S1 / d1) / (S2 / d2)`, **Returned value** - Random number. [Float64](../data-types/float.md). **Example** ```sql SELECT randFisherF(10, 3) FROM numbers(5) ``` Result: ```result ┌──randFisherF(10, 3)─┐ │ 7.286287504216609 │ │ 0.26590779413050386 │ │ 0.22207610901168987 │ │ 0.7953362728449572 │ │ 0.19278885985221572 │ └─────────────────────┘ ``` ## randomString {#randomString} Generates a string of the specified length filled with random bytes (including zero bytes). Not all characters may be printable. **Syntax** ```sql randomString(length) ``` **Arguments** - `length` — String length in bytes. Positive integer. **Returned value** - String filled with random bytes. [String](../data-types/string.md). **Example** Query: ```sql SELECT randomString(30) AS str, length(str) AS len FROM numbers(2) FORMAT Vertical; ``` Result: ```text Row 1: ────── str: 3 G : pT ?w тi k aV f6 len: 30 Row 2: ────── str: 9 ,] ^ ) ]?? 8 len: 30 ``` ## randomFixedString Generates a binary string of the specified length filled with random bytes (including zero bytes). Not all characters may be printable. **Syntax** ```sql randomFixedString(length); ``` **Arguments** - `length` — String length in bytes. [UInt64](../data-types/int-uint.md). **Returned value(s)** - String filled with random bytes. [FixedString](../data-types/fixedstring.md). **Example** Query: ```sql SELECT randomFixedString(13) as rnd, toTypeName(rnd) ``` Result: ```text ┌─rnd──────┬─toTypeName(randomFixedString(13))─┐ │ j▒h㋖HɨZ'▒ │ FixedString(13) │ └──────────┴───────────────────────────────────┘ ``` ## randomPrintableASCII Generates a string with a random set of [ASCII](https://en.wikipedia.org/wiki/ASCII#Printable_characters) characters. All characters are printable. If you pass `length < 0`, the behavior of the function is undefined. **Syntax** ```sql randomPrintableASCII(length) ``` **Arguments** - `length` — String length in bytes. Positive integer. **Returned value** - String with a random set of [ASCII](https://en.wikipedia.org/wiki/ASCII#Printable_characters) printable characters. [String](../data-types/string.md) **Example** ```sql SELECT number, randomPrintableASCII(30) as str, length(str) FROM system.numbers LIMIT 3 ``` ```text ┌─number─┬─str────────────────────────────┬─length(randomPrintableASCII(30))─┐ │ 0 │ SuiCOSTvC0csfABSw=UcSzp2.`rv8x │ 30 │ │ 1 │ 1Ag NlJ &RCN:*>HVPG;PE-nO"SUFD │ 30 │ │ 2 │ /"+<"wUTh:=LjJ Vm!c&hI*m#XTfzz │ 30 │ └────────┴────────────────────────────────┴──────────────────────────────────┘ ``` ## randomStringUTF8 Generates a random string of a specified length. Result string contains valid UTF-8 code points. The value of code points may be outside of the range of assigned Unicode. **Syntax** ```sql randomStringUTF8(length); ``` **Arguments** - `length` — Length of the string in code points. [UInt64](../data-types/int-uint.md). **Returned value(s)** - UTF-8 random string. [String](../data-types/string.md). **Example** Query: ```sql SELECT randomStringUTF8(13) ``` Result: ```text ┌─randomStringUTF8(13)─┐ │ 𘤗𙉝д兠庇󡅴󱱎󦐪􂕌𔊹𓰛 │ └──────────────────────┘ ``` ## fuzzBits {#fuzzBits} **Syntax** Flips the bits of String or FixedString `s`, each with probability `prob`. **Syntax** ```sql fuzzBits(s, prob) ``` **Arguments** - `s` - `String` or `FixedString`, - `prob` - constant `Float32/64` between 0.0 and 1.0. **Returned value** Fuzzed string with same type as `s`. **Example** ```sql SELECT fuzzBits(materialize('abacaba'), 0.1) FROM numbers(3) ``` Result: ```result ┌─fuzzBits(materialize('abacaba'), 0.1)─┐ │ abaaaja │ │ a*cjab+ │ │ aeca2A │ └───────────────────────────────────────┘ ```