The Intl.getCanonicalLocales() method returns an array containing the canonical locale names. Duplicates will be omitted and elements will be validated as structurally valid language tags.
The Math.abs() function returns the absolute value of a number, that is
The Math.acos() function returns the arccosine (in radians) of a number, that is
The Math.acosh() function returns the hyperbolic arc-cosine of a number, that is
The Math.asin() function returns the arcsine (in radians) of a number, that is
The Math.asinh() function returns the hyperbolic arcsine of a number, that is
The Math.atan() function returns the arctangent (in radians) of a number, that is
The Math.atan2() function returns the arctangent of the quotient of its arguments.
The Math.atanh() function returns the hyperbolic arctangent of a number, that is
The Math.cbrt() function returns the cube root of a number, that is
The Math.ceil() function returns the smallest integer greater than or equal to a given number.
The Math.cos() function returns the cosine of a number.
The Math.cosh() function returns the hyperbolic cosine of a number, that can be expressed using the constant e:
The Math.exp() function returns ex, where x is the argument, and e is Euler's number (also known as Napier's constant), the base of the natural logarithms.
The Math.expm1() function returns ex - 1, where x is the argument, and e the base of the natural logarithms.
The Math.floor() function returns the largest integer less than or equal to a given number.
The Math.fround() function returns the nearest single precision float representation of a number.
The Math.hypot() function returns the square root of the sum of squares of its arguments, that is
The Math.imul() function returns the result of the C-like 32-bit multiplication of the two parameters.
The Math.log() function returns the natural logarithm (base e) of a number, that is