[role="xpack"] [testenv="basic"] [[sql-functions-math]] === Math Functions beta[] All math and trigonometric functions require their input (where applicable) to be numeric. ==== Generic [[sql-functions-math-abs]] ===== `ABS` .Synopsis: [source, sql] -------------------------------------------------- ABS(numeric_exp<1>) -------------------------------------------------- *Input*: <1> numeric expression *Output*: numeric .Description: Returns the https://en.wikipedia.org/wiki/Absolute_value[absolute value] of `numeric_exp`. The return type is the same as the input type. ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[abs] -------------------------------------------------- [[sql-functions-math-cbrt]] ===== `CBRT` .Synopsis: [source, sql] -------------------------------------------------- CBRT(numeric_exp<1>) -------------------------------------------------- *Input*: <1> numeric expression *Output*: double numeric value .Description: Returns the https://en.wikipedia.org/wiki/Cube_root[cube root] of `numeric_exp`. ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathInlineCbrtWithNegativeValue] -------------------------------------------------- [[sql-functions-math-ceil]] ===== `CEIL/CEILING` .Synopsis: [source, sql] -------------------------------------------------- CEIL(numeric_exp<1>) CEILING(numeric_exp<2>) -------------------------------------------------- *Input*: <1> numeric expression <2> numeric expression *Output*: integer or long numeric value .Description: Returns the smallest integer greater than or equal to `numeric_exp`. ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathInlineCeiling] -------------------------------------------------- [[sql-functions-math-e]] ===== `E` .Synopsis: [source, sql] -------------------------------------------------- E() -------------------------------------------------- *Input*: _none_ *Output*: `2.718281828459045` .Description: Returns https://en.wikipedia.org/wiki/E_%28mathematical_constant%29[Euler's number]. ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathEulersNumber] -------------------------------------------------- [[sql-functions-math-exp]] ===== `EXP` .Synopsis: [source, sql] -------------------------------------------------- EXP(numeric_exp<1>) -------------------------------------------------- *Input*: <1> float numeric expression *Output*: double numeric value .Description: Returns https://en.wikipedia.org/wiki/Exponential_function[Euler's number at the power] of `numeric_exp` e^numeric_exp^. ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathExpInline] -------------------------------------------------- [[sql-functions-math-expm1]] ===== `EXPM1` .Synopsis: [source, sql] -------------------------------------------------- EXPM1(numeric_exp<1>) -------------------------------------------------- *Input*: <1> float numeric expression *Output*: double numeric value .Description: Returns https://docs.oracle.com/javase/8/docs/api/java/lang/Math.html#expm1-double-[Euler's number at the power] of `numeric_exp` minus 1 (e^numeric_exp^ - 1). ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathExpm1Inline] -------------------------------------------------- [[sql-functions-math-floor]] ===== `FLOOR` .Synopsis: [source, sql] -------------------------------------------------- FLOOR(numeric_exp<1>) -------------------------------------------------- *Input*: <1> numeric expression *Output*: integer or long numeric value .Description: Returns the largest integer less than or equal to `numeric_exp`. ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathInlineFloor] -------------------------------------------------- [[sql-functions-math-log]] ===== `LOG` .Synopsis: [source, sql] -------------------------------------------------- LOG(numeric_exp<1>) -------------------------------------------------- *Input*: <1> numeric expression *Output*: double numeric value .Description: Returns the https://en.wikipedia.org/wiki/Natural_logarithm[natural logarithm] of `numeric_exp`. ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathInlineLog] -------------------------------------------------- [[sql-functions-math-log10]] ===== `LOG10` .Synopsis: [source, sql] -------------------------------------------------- LOG10(numeric_exp<1>) -------------------------------------------------- *Input*: <1> numeric expression *Output*: double numeric value .Description: Returns the https://en.wikipedia.org/wiki/Common_logarithm[base 10 logarithm] of `numeric_exp`. ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathInlineLog10] -------------------------------------------------- [[sql-functions-math-pi]] ===== `PI` .Synopsis: [source, sql] -------------------------------------------------- PI() -------------------------------------------------- *Input*: _none_ *Output*: `3.141592653589793` .Description: Returns https://en.wikipedia.org/wiki/Pi[PI number]. ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathPINumber] -------------------------------------------------- [[sql-functions-math-power]] ===== `POWER` .Synopsis: [source, sql] -------------------------------------------------- POWER(numeric_exp<1>, integer_exp<2>) -------------------------------------------------- *Input*: <1> numeric expression <2> integer expression *Output*: double numeric value .Description: Returns the value of `numeric_exp` to the power of `integer_exp`. ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathInlinePowerPositive] -------------------------------------------------- ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathInlinePowerNegative] -------------------------------------------------- [[sql-functions-math-random]] ===== `RANDOM` .Synopsis: [source, sql] -------------------------------------------------- RANDOM(seed<1>) -------------------------------------------------- *Input*: <1> numeric expression *Output*: double numeric value .Description: Returns a random double using the given seed. ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathRandom] -------------------------------------------------- [[sql-functions-math-round]] ===== `ROUND` .Synopsis: [source, sql] ---- ROUND(numeric_exp<1>[, integer_exp<2>]) ---- *Input*: <1> numeric expression <2> integer expression; optional *Output*: numeric .Description: Returns `numeric_exp` rounded to `integer_exp` places right of the decimal point. If `integer_exp` is negative, `numeric_exp` is rounded to |`integer_exp`| places to the left of the decimal point. If `integer_exp` is omitted, the function will perform as if `integer_exp` would be 0. The returned numeric data type is the same as the data type of `numeric_exp`. ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathRoundWithPositiveParameter] -------------------------------------------------- ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathRoundWithNegativeParameter] -------------------------------------------------- [[sql-functions-math-sign]] ===== `SIGN` .Synopsis: [source, sql] -------------------------------------------------- SIGN(numeric_exp<1>) -------------------------------------------------- *Input*: <1> numeric expression *Output*: [-1, 0, 1] .Description: Returns an indicator of the sign of `numeric_exp`. If `numeric_exp` is less than zero, –1 is returned. If `numeric_exp` equals zero, 0 is returned. If `numeric_exp` is greater than zero, 1 is returned. ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathInlineSign] -------------------------------------------------- [[sql-functions-math-sqrt]] ===== `SQRT` .Synopsis: [source, sql] -------------------------------------------------- SQRT(numeric_exp<1>) -------------------------------------------------- *Input*: <1> numeric expression *Output*: double numeric value .Description: Returns https://en.wikipedia.org/wiki/Square_root[square root] of `numeric_exp`. ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathInlineSqrt] -------------------------------------------------- [[sql-functions-math-truncate]] ===== `TRUNCATE` .Synopsis: [source, sql] ---- TRUNCATE(numeric_exp<1>[, integer_exp<2>]) ---- *Input*: <1> numeric expression <2> integer expression; optional *Output*: numeric .Description: Returns `numeric_exp` truncated to `integer_exp` places right of the decimal point. If `integer_exp` is negative, `numeric_exp` is truncated to |`integer_exp`| places to the left of the decimal point. If `integer_exp` is omitted, the function will perform as if `integer_exp` would be 0. The returned numeric data type is the same as the data type of `numeric_exp`. ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathTruncateWithPositiveParameter] -------------------------------------------------- ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathTruncateWithNegativeParameter] -------------------------------------------------- ==== Trigonometric [[sql-functions-math-acos]] ===== `ACOS` .Synopsis: [source, sql] -------------------------------------------------- ACOS(numeric_exp<1>) -------------------------------------------------- *Input*: <1> numeric expression *Output*: double numeric value .Description: Returns the https://en.wikipedia.org/wiki/Inverse_trigonometric_functions[arccosine] of `numeric_exp` as an angle, expressed in radians. ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathInlineAcos] -------------------------------------------------- [[sql-functions-math-asin]] ===== `ASIN` .Synopsis: [source, sql] -------------------------------------------------- ASIN(numeric_exp<1>) -------------------------------------------------- *Input*: <1> numeric expression *Output*: double numeric value .Description: Returns the https://en.wikipedia.org/wiki/Inverse_trigonometric_functions[arcsine] of `numeric_exp` as an angle, expressed in radians. ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathInlineAsin] -------------------------------------------------- [[sql-functions-math-atan]] ===== `ATAN` .Synopsis: [source, sql] -------------------------------------------------- ATAN(numeric_exp<1>) -------------------------------------------------- *Input*: <1> numeric expression *Output*: double numeric value .Description: Returns the https://en.wikipedia.org/wiki/Inverse_trigonometric_functions[arctangent] of `numeric_exp` as an angle, expressed in radians. ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathInlineAtan] -------------------------------------------------- [[sql-functions-math-atan2]] ===== `ATAN2` .Synopsis: [source, sql] -------------------------------------------------- ATAN2(ordinate<1>, abscisa<2>) -------------------------------------------------- *Input*: <1> numeric expression <2> numeric expression *Output*: double numeric value .Description: Returns the https://en.wikipedia.org/wiki/Atan2[arctangent of the `ordinate` and `abscisa` coordinates] specified as an angle, expressed in radians. ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathInlineAtan2] -------------------------------------------------- [[sql-functions-math-cos]] ===== `COS` .Synopsis: [source, sql] -------------------------------------------------- COS(numeric_exp<1>) -------------------------------------------------- *Input*: <1> numeric expression *Output*: double numeric value .Description: Returns the https://en.wikipedia.org/wiki/Trigonometric_functions#cosine[cosine] of `numeric_exp`, where `numeric_exp` is an angle expressed in radians. ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathInlineCosine] -------------------------------------------------- [[sql-functions-math-cosh]] ===== `COSH` .Synopsis: [source, sql] -------------------------------------------------- COSH(numeric_exp<1>) -------------------------------------------------- *Input*: <1> numeric expression *Output*: double numeric value .Description: Returns the https://en.wikipedia.org/wiki/Hyperbolic_function[hyperbolic cosine] of `numeric_exp`. ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathInlineCosh] -------------------------------------------------- [[sql-functions-math-cot]] ===== `COT` .Synopsis: [source, sql] -------------------------------------------------- COT(numeric_exp<1>) -------------------------------------------------- *Input*: <1> numeric expression *Output*: double numeric value .Description: Returns the https://en.wikipedia.org/wiki/Trigonometric_functions#Cosecant,_secant,_and_cotangent[cotangent] of `numeric_exp`, where `numeric_exp` is an angle expressed in radians. ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathInlineCotangent] -------------------------------------------------- [[sql-functions-math-degrees]] ===== `DEGREES` .Synopsis: [source, sql] -------------------------------------------------- DEGREES(numeric_exp<1>) -------------------------------------------------- *Input*: <1> numeric expression *Output*: double numeric value .Description: Convert from https://en.wikipedia.org/wiki/Radian[radians] to https://en.wikipedia.org/wiki/Degree_(angle)[degrees]. ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathInlineDegrees] -------------------------------------------------- [[sql-functions-math-radians]] ===== `RADIANS` .Synopsis: [source, sql] -------------------------------------------------- RADIANS(numeric_exp<1>) -------------------------------------------------- *Input*: <1> numeric expression *Output*: double numeric value .Description: Convert from https://en.wikipedia.org/wiki/Degree_(angle)[degrees] to https://en.wikipedia.org/wiki/Radian[radians]. ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathInlineRadians] -------------------------------------------------- [[sql-functions-math-sin]] ===== `SIN` .Synopsis: [source, sql] -------------------------------------------------- SIN(numeric_exp<1>) -------------------------------------------------- *Input*: <1> numeric expression *Output*: double numeric value .Description: Returns the https://en.wikipedia.org/wiki/Trigonometric_functions#sine[sine] of `numeric_exp`, where `numeric_exp` is an angle expressed in radians. ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathInlineSine] -------------------------------------------------- [[sql-functions-math-sinh]] ===== `SINH` .Synopsis: [source, sql] -------------------------------------------------- SINH(numeric_exp<1>) -------------------------------------------------- *Input*: <1> numeric expression *Output*: double numeric value .Description: Returns the https://en.wikipedia.org/wiki/Hyperbolic_function[hyperbolic sine] of `numeric_exp`. ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathInlineSinh] -------------------------------------------------- [[sql-functions-math-tan]] ===== `TAN` .Synopsis: [source, sql] -------------------------------------------------- TAN(numeric_exp<1>) -------------------------------------------------- *Input*: <1> numeric expression *Output*: double numeric value .Description: Returns the https://en.wikipedia.org/wiki/Trigonometric_functions#tangent[tangent] of `numeric_exp`, where `numeric_exp` is an angle expressed in radians. ["source","sql",subs="attributes,macros"] -------------------------------------------------- include-tagged::{sql-specs}/docs.csv-spec[mathInlineTanget] --------------------------------------------------