--- slug: /en/sql-reference/functions/math-functions sidebar_position: 125 sidebar_label: Mathematical --- # Mathematical Functions All the functions return a Float64 number. Results are generally as close to the actual result as possible, but in some cases less precise than the machine-representable number. ## e Returns e. **Syntax** ```sql e() ``` ## pi Returns π. **Syntax** ```sql pi() ``` ## exp Returns e to the power of the given argument. **Syntax** ```sql exp(x) ``` ## log Returns the natural logarithm of the argument. **Syntax** ```sql log(x) ``` Alias: `ln(x)` ## exp2 Returns 2 to the power of the given argument **Syntax** ```sql exp2(x) ``` ## intExp2 Like `exp` but returns a UInt64. **Syntax** ```sql intExp2(x) ``` ## log2 Returns the binary logarithm of the argument. **Syntax** ```sql log2(x) ``` ## exp10 Returns 10 to the power of the given argument. **Syntax** ```sql exp10(x) ``` ## intExp10 Like `exp10` but returns a UInt64. **Syntax** ```sql intExp10(x) ``` ## log10 Returns the decimal logarithm of the argument. **Syntax** ```sql log10(x) ``` ## sqrt Returns the square root of the argument. ```sql sqrt(x) ``` ## cbrt Returns the cubic root of the argument. ```sql cbrt(x) ``` ## erf If `x` is non-negative, then `erf(x / σ√2)` is the probability that a random variable having a normal distribution with standard deviation `σ` takes the value that is separated from the expected value by more than `x`. **Syntax** ```sql erf(x) ``` **Example** (three sigma rule) ``` sql SELECT erf(3 / sqrt(2)); ``` ```result ┌─erf(divide(3, sqrt(2)))─┐ │ 0.9973002039367398 │ └─────────────────────────┘ ``` ## erfc Returns a number close to `1 - erf(x)` without loss of precision for large ‘x’ values. **Syntax** ```sql erfc(x) ``` ## lgamma Returns the logarithm of the gamma function. **Syntax** ```sql lgamma(x) ``` ## tgamma Returns the gamma function. **Syntax** ```sql gamma(x) ``` ## sin Returns the sine of the argument **Syntax** ```sql sin(x) ``` ## cos Returns the cosine of the argument. **Syntax** ```sql cos(x) ``` ## tan Returns the tangent of the argument. **Syntax** ```sql tan(x) ``` ## asin Returns the arc sine of the argument. **Syntax** ```sql asin(x) ``` ## acos Returns the arc cosine of the argument. **Syntax** ```sql acos(x) ``` ## atan Returns the arc tangent of the argument. **Syntax** ```sql atan(x) ``` ## pow Returns `x` to the power of `y`. **Syntax** ```sql pow(x, y) ``` Alias: `power(x, y)` ## cosh Returns the [hyperbolic cosine](https://in.mathworks.com/help/matlab/ref/cosh.html) of the argument. **Syntax** ``` sql cosh(x) ``` **Arguments** - `x` — The angle, in radians. Values from the interval: `-∞ < x < +∞`. [Float64](../../sql-reference/data-types/float.md#float32-float64). **Returned value** - Values from the interval: `1 <= cosh(x) < +∞`. Type: [Float64](../../sql-reference/data-types/float.md#float32-float64). **Example** ``` sql SELECT cosh(0); ``` Result: ```result ┌─cosh(0)──┐ │ 1 │ └──────────┘ ``` ## acosh Returns the [inverse hyperbolic cosine](https://www.mathworks.com/help/matlab/ref/acosh.html). **Syntax** ``` sql acosh(x) ``` **Arguments** - `x` — Hyperbolic cosine of angle. Values from the interval: `1 <= x < +∞`. [Float64](../../sql-reference/data-types/float.md#float32-float64). **Returned value** - The angle, in radians. Values from the interval: `0 <= acosh(x) < +∞`. Type: [Float64](../../sql-reference/data-types/float.md#float32-float64). **Example** ``` sql SELECT acosh(1); ``` Result: ```result ┌─acosh(1)─┐ │ 0 │ └──────────┘ ``` ## sinh Returns the [hyperbolic sine](https://www.mathworks.com/help/matlab/ref/sinh.html). **Syntax** ``` sql sinh(x) ``` **Arguments** - `x` — The angle, in radians. Values from the interval: `-∞ < x < +∞`. [Float64](../../sql-reference/data-types/float.md#float32-float64). **Returned value** - Values from the interval: `-∞ < sinh(x) < +∞`. Type: [Float64](../../sql-reference/data-types/float.md#float32-float64). **Example** ``` sql SELECT sinh(0); ``` Result: ```result ┌─sinh(0)──┐ │ 0 │ └──────────┘ ``` ## asinh Returns the [inverse hyperbolic sine](https://www.mathworks.com/help/matlab/ref/asinh.html). **Syntax** ``` sql asinh(x) ``` **Arguments** - `x` — Hyperbolic sine of angle. Values from the interval: `-∞ < x < +∞`. [Float64](../../sql-reference/data-types/float.md#float32-float64). **Returned value** - The angle, in radians. Values from the interval: `-∞ < asinh(x) < +∞`. Type: [Float64](../../sql-reference/data-types/float.md#float32-float64). **Example** ``` sql SELECT asinh(0); ``` Result: ```result ┌─asinh(0)─┐ │ 0 │ └──────────┘ ``` ## atanh Returns the [inverse hyperbolic tangent](https://www.mathworks.com/help/matlab/ref/atanh.html). **Syntax** ``` sql atanh(x) ``` **Arguments** - `x` — Hyperbolic tangent of angle. Values from the interval: `–1 < x < 1`. [Float64](../../sql-reference/data-types/float.md#float32-float64). **Returned value** - The angle, in radians. Values from the interval: `-∞ < atanh(x) < +∞`. Type: [Float64](../../sql-reference/data-types/float.md#float32-float64). **Example** ``` sql SELECT atanh(0); ``` Result: ```result ┌─atanh(0)─┐ │ 0 │ └──────────┘ ``` ## atan2 Returns the [atan2](https://en.wikipedia.org/wiki/Atan2) as the angle in the Euclidean plane, given in radians, between the positive x axis and the ray to the point `(x, y) ≠ (0, 0)`. **Syntax** ``` sql atan2(y, x) ``` **Arguments** - `y` — y-coordinate of the point through which the ray passes. [Float64](../../sql-reference/data-types/float.md#float32-float64). - `x` — x-coordinate of the point through which the ray passes. [Float64](../../sql-reference/data-types/float.md#float32-float64). **Returned value** - The angle `θ` such that `−π < θ ≤ π`, in radians. Type: [Float64](../../sql-reference/data-types/float.md#float32-float64). **Example** ``` sql SELECT atan2(1, 1); ``` Result: ```result ┌────────atan2(1, 1)─┐ │ 0.7853981633974483 │ └────────────────────┘ ``` ## hypot Returns the length of the hypotenuse of a right-angle triangle. [Hypot](https://en.wikipedia.org/wiki/Hypot) avoids problems that occur when squaring very large or very small numbers. **Syntax** ``` sql hypot(x, y) ``` **Arguments** - `x` — The first cathetus of a right-angle triangle. [Float64](../../sql-reference/data-types/float.md#float32-float64). - `y` — The second cathetus of a right-angle triangle. [Float64](../../sql-reference/data-types/float.md#float32-float64). **Returned value** - The length of the hypotenuse of a right-angle triangle. Type: [Float64](../../sql-reference/data-types/float.md#float32-float64). **Example** ``` sql SELECT hypot(1, 1); ``` Result: ```result ┌────────hypot(1, 1)─┐ │ 1.4142135623730951 │ └────────────────────┘ ``` ## log1p Calculates `log(1+x)`. The [calculation](https://en.wikipedia.org/wiki/Natural_logarithm#lnp1) `log1p(x)` is more accurate than `log(1+x)` for small values of x. **Syntax** ``` sql log1p(x) ``` **Arguments** - `x` — Values from the interval: `-1 < x < +∞`. [Float64](../../sql-reference/data-types/float.md#float32-float64). **Returned value** - Values from the interval: `-∞ < log1p(x) < +∞`. Type: [Float64](../../sql-reference/data-types/float.md#float32-float64). **Example** ``` sql SELECT log1p(0); ``` Result: ```result ┌─log1p(0)─┐ │ 0 │ └──────────┘ ``` ## sign Returns the sign of a real number. **Syntax** ``` sql sign(x) ``` **Arguments** - `x` — Values from `-∞` to `+∞`. Support all numeric types in ClickHouse. **Returned value** - -1 for `x < 0` - 0 for `x = 0` - 1 for `x > 0` **Examples** Sign for the zero value: ``` sql SELECT sign(0); ``` Result: ```result ┌─sign(0)─┐ │ 0 │ └─────────┘ ``` Sign for the positive value: ``` sql SELECT sign(1); ``` Result: ```result ┌─sign(1)─┐ │ 1 │ └─────────┘ ``` Sign for the negative value: ``` sql SELECT sign(-1); ``` Result: ```result ┌─sign(-1)─┐ │ -1 │ └──────────┘ ``` ## degrees Converts radians to degrees. **Syntax** ``` sql degrees(x) ``` **Arguments** - `x` — Input in radians. [Float64](../../sql-reference/data-types/float.md#float32-float64). **Returned value** - Value in degrees. Type: [Float64](../../sql-reference/data-types/float.md#float32-float64). **Example** ``` sql SELECT degrees(3.141592653589793); ``` Result: ```result ┌─degrees(3.141592653589793)─┐ │ 180 │ └────────────────────────────┘ ``` ## radians Converts degrees to radians. **Syntax** ``` sql radians(x) ``` **Arguments** - `x` — Input in degrees. [Float64](../../sql-reference/data-types/float.md#float32-float64). **Returned value** - Value in radians. Type: [Float64](../../sql-reference/data-types/float.md#float32-float64). **Example** ``` sql SELECT radians(180); ``` Result: ```result ┌──────radians(180)─┐ │ 3.141592653589793 │ └───────────────────┘ ``` ## factorial Computes the factorial of an integer value. Works with any native integer type including UInt(8|16|32|64) and Int(8|16|32|64). The return type is UInt64. The factorial of 0 is 1. Likewise, the factorial() function returns 1 for any negative value. The maximum positive value for the input argument is 20, a value of 21 or greater will cause exception throw. **Syntax** ``` sql factorial(n) ``` **Example** ``` sql SELECT factorial(10); ``` Result: ```result ┌─factorial(10)─┐ │ 3628800 │ └───────────────┘ ``` ## width_bucket Returns the number of the bucket in which `operand` falls in a histogram having `count` equal-width buckets spanning the range `low` to `high`. Returns `0` if `operand < low`, and returns `count+1` if `operand >= high`. `operand`, `low`, `high` can be any native number type. `count` can only be unsigned native integer and its value cannot be zero. **Syntax** ```sql widthBucket(operand, low, high, count) ``` Alias: `WIDTH_BUCKET` **Example** ``` sql SELECT widthBucket(10.15, -8.6, 23, 18); ``` Result: ```result ┌─widthBucket(10.15, -8.6, 23, 18)─┐ │ 11 │ └──────────────────────────────────┘ ```