arquero

/** * Return a random floating point number between 0 (inclusive) and 1 * (exclusive). By default uses *Math.random*. Use the *seed* method * to instead use a seeded random number generator. * @return {number} A pseudorandom number between 0 and 1. */ export function random(): number; /** * Tests if the input *value* is not a number (`NaN`); equivalent * to *Number.isNaN*. * @param {*} value The value to test. * @return {boolean} True if the value is not a number, false otherwise. */ export function is_nan(value: any): boolean; /** * Tests if the input *value* is finite; equivalent to *Number.isFinite*. * @param {*} value The value to test. * @return {boolean} True if the value is finite, false otherwise. */ export function is_finite(value: any): boolean; /** * Returns the absolute value of the input *value*; equivalent to *Math.abs*. * @param {number} value The input number value. * @return {number} The absolute value. */ export function abs(value: number): number; /** * Returns the cube root value of the input *value*; equivalent to * *Math.cbrt*. * @param {number} value The input number value. * @return {number} The cube root value. */ export function cbrt(value: number): number; /** * Returns the ceiling of the input *value*, the nearest integer equal to * or greater than the input; equivalent to *Math.ceil*. * @param {number} value The input number value. * @return {number} The ceiling value. */ export function ceil(value: number): number; /** * Returns the number of leading zero bits in the 32-bit binary * representation of a number *value*; equivalent to *Math.clz32*. * @param {number} value The input number value. * @return {number} The leading zero bits value. */ export function clz32(value: number): number; /** * Returns *evalue*, where *e* is Euler's number, the base of the * natural logarithm; equivalent to *Math.exp*. * @param {number} value The input number value. * @return {number} The base-e exponentiated value. */ export function exp(value: number): number; /** * Returns *evalue - 1*, where *e* is Euler's number, the base of * the natural logarithm; equivalent to *Math.expm1*. * @param {number} value The input number value. * @return {number} The base-e exponentiated value minus 1. */ export function expm1(value: number): number; /** * Returns the floor of the input *value*, the nearest integer equal to or * less than the input; equivalent to *Math.floor*. * @param {number} value The input number value. * @return {number} The floor value. */ export function floor(value: number): number; /** * Returns the nearest 32-bit single precision float representation of the * input number *value*; equivalent to *Math.fround*. Useful for translating * between 64-bit `Number` values and values from a `Float32Array`. * @param {number} value The input number value. * @return {number} The rounded value. */ export function fround(value: number): number; /** * Returns the greatest (maximum) value among the input *values*; equivalent * to *Math.max*. This is _not_ an aggregate function, see *op.max* to * compute a maximum value across multiple rows. * @param {...number} values The input number values. * @return {number} The greatest (maximum) value among the inputs. */ export function greatest(...values: number[]): number; /** * Returns the least (minimum) value among the input *values*; equivalent * to *Math.min*. This is _not_ an aggregate function, see *op.min* to * compute a minimum value across multiple rows. * @param {...number} values The input number values. * @return {number} The least (minimum) value among the inputs. */ export function least(...values: number[]): number; /** * Returns the natural logarithm (base *e*) of a number *value*; equivalent * to *Math.log*. * @param {number} value The input number value. * @return {number} The base-e log value. */ export function log(value: number): number; /** * Returns the base 10 logarithm of a number *value*; equivalent * to *Math.log10*. * @param {number} value The input number value. * @return {number} The base-10 log value. */ export function log10(value: number): number; /** * Returns the natural logarithm (base *e*) of 1 + a number *value*; * equivalent to *Math.log1p*. * @param {number} value The input number value. * @return {number} The base-e log of value + 1. */ export function log1p(value: number): number; /** * Returns the base 2 logarithm of a number *value*; equivalent * to *Math.log2*. * @param {number} value The input number value. * @return {number} The base-2 log value. */ export function log2(value: number): number; /** * Returns the *base* raised to the *exponent* power, that is, * *base**exponent*; equivalent to *Math.pow*. * @param {number} base The base number value. * @param {number} exponent The exponent number value. * @return {number} The exponentiated value. */ export function pow(base: number, exponent: number): number; /** * Returns the value of a number rounded to the nearest integer; * equivalent to *Math.round*. * @param {number} value The input number value. * @return {number} The rounded value. */ export function round(value: number): number; /** * Returns either a positive or negative +/- 1, indicating the sign of the * input *value*; equivalent to *Math.sign*. * @param {number} value The input number value. * @return {number} The sign of the value. */ export function sign(value: number): number; /** * Returns the square root of the input *value*; equivalent to *Math.sqrt*. * @param {number} value The input number value. * @return {number} The square root value. */ export function sqrt(value: number): number; /** * Returns the integer part of a number by removing any fractional digits; * equivalent to *Math.trunc*. * @param {number} value The input number value. * @return {number} The truncated value. */ export function trunc(value: number): number; /** * Converts the input *radians* value to degrees. * @param {number} radians The input radians value. * @return {number} The value in degrees */ export function degrees(radians: number): number; /** * Converts the input *degrees* value to radians. * @param {number} degrees The input degrees value. * @return {number} The value in radians. */ export function radians(degrees: number): number; /** * Returns the arc-cosine (in radians) of a number *value*; * equivalent to *Math.acos*. * @param {number} value The input number value. * @return {number} The arc-cosine value. */ export function acos(value: number): number; /** * Returns the hyperbolic arc-cosine of a number *value*; * equivalent to *Math.acosh*. * @param {number} value The input number value. * @return {number} The hyperbolic arc-cosine value. */ export function acosh(value: number): number; /** * Returns the arc-sine (in radians) of a number *value*; * equivalent to *Math.asin*. * @param {number} value The input number value. * @return {number} The arc-sine value. */ export function asin(value: number): number; /** * Returns the hyperbolic arc-sine of a number *value*; * equivalent to *Math.asinh*. * @param {number} value The input number value. * @return {number} The hyperbolic arc-sine value. */ export function asinh(value: number): number; /** * Returns the arc-tangent (in radians) of a number *value*; * equivalent to *Math.atan*. * @param {number} value The input number value. * @return {number} The arc-tangent value. */ export function atan(value: number): number; /** * Returns the angle in the plane (in radians) between the positive x-axis * and the ray from (0, 0) to the point (*x*, *y*); * equivalent to *Math.atan2*. * @param {number} y The y coordinate of the point. * @param {number} x The x coordinate of the point. * @return {number} The arc-tangent angle. */ export function atan2(y: number, x: number): number; /** * Returns the hyperbolic arc-tangent of a number *value*; * equivalent to *Math.atanh*. * @param {number} value The input number value. * @return {number} The hyperbolic arc-tangent value. */ export function atanh(value: number): number; /** * Returns the cosine (in radians) of a number *value*; * equivalent to *Math.cos*. * @param {number} value The input number value. * @return {number} The cosine value. */ export function cos(value: number): number; /** * Returns the hyperbolic cosine (in radians) of a number *value*; * equivalent to *Math.cosh*. * @param {number} value The input number value. * @return {number} The hyperbolic cosine value. */ export function cosh(value: number): number; /** * Returns the sine (in radians) of a number *value*; * equivalent to *Math.sin*. * @param {number} value The input number value. * @return {number} The sine value. */ export function sin(value: number): number; /** * Returns the hyperbolic sine (in radians) of a number *value*; * equivalent to *Math.sinh*. * @param {number} value The input number value. * @return {number} The hyperbolic sine value. */ export function sinh(value: number): number; /** * Returns the tangent (in radians) of a number *value*; * equivalent to *Math.tan*. * @param {number} value The input number value. * @return {number} The tangent value. */ export function tan(value: number): number; /** * Returns the hyperbolic tangent (in radians) of a number *value*; * equivalent to *Math.tanh*. * @param {number} value The input number value. * @return {number} The hyperbolic tangent value. */ export function tanh(value: number): number;