Math
abs
let abs: float => float
abs(v)
returns absolute value of v
.
See Math.abs
on MDN.
Examples
RESCRIPTMath.abs(-2.0) // 2.0
Math.abs(3.0) // 3.0
acos
let acos: float => float
acos(v)
returns arccosine (in radians) of argument v
, returns NaN
if the
argument is outside the range [-1.0, 1.0].
See Math.acos
on MDN.
Examples
RESCRIPTMath.acos(-1) // 3.141592653589793
Math.acos(-3)->Float.isNaN // true
acosh
let acosh: float => float
acosh(v)
returns the inverse hyperbolic arccosine (in radians) of argument v
,
returns NaN
if the argument is less than 1.0
.
See Math.acosh
on MDN.
Examples
RESCRIPTMath.acosh(1) // 0.0
Math.acosh(0.5)->Float.isNaN // true
asin
let asin: float => float
asin(v)
returns the inverse sine (in radians) of argument v
, returns NaN
if the argument v
is outside the range [-1.0, 1.0].
See Math.asin
on MDN.
Examples
RESCRIPTMath.asin(-1.0) // -1.5707963267948966
Math.asin(-2.0)->Float.isNaN // true
asinh
let asinh: float => float
asinh(v)
returns the inverse hyperbolic sine of argument v
.
See Math.asinh
on MDN.
Examples
RESCRIPTMath.asinh(-1) // -0.881373587019543
Math.asinh(-0) // -0.0
atan
let atan: float => float
atan(v)
returns the inverse tangent (in radians) of argument v
.
See Math.atan
on MDN.
Examples
RESCRIPTMath.atan(-0.0) // -0.0
Math.atan(0.0) // 0.0
Math.atan(1) // 0.7853981633974483
atanh
let atanh: float => float
atanh(v)
returns the invert hyperbolic tangent of argument v
. Returns NaN
if the argument v
is is outside the range [-1.0, 1.0] and Infinity
if v
is -1.0
or 1.0
.
See Math.atanh
on MDN.
Examples
RESCRIPTMath.atanh(-2.0)->Float.isNaN // true
Math.atanh(-1.0)->Float.isFinite // false
Math.atanh(-0.0) // -0.0
Math.atanh(0.0) // 0.0
Math.atanh(0.5) // 0.5493061443340548
atan2
let atan2: (~y: float, ~x: float) => float
atan2(~y, ~x)
returns the angle (in radians) of the quotient y /. x
. It is
also the angle between the x-axis and point (x, y).
See Math.atan2
on MDN.
Examples
RESCRIPTMath.atan2(~y=0.0, ~x=10.0) == 0.0
Math.atan2(~x=5.0, ~y=5.0) == Math.Constants.pi /. 4.0
Math.atan2(~x=90.0, ~y=15.0) // 1.4056476493802699
Math.atan2(~x=15.0, ~y=90.0) // 0.16514867741462683
cbrt
let cbrt: float => float
cbrt(v)
returns the cube root of argument v
.
See Math.cbrt
on MDN.
Examples
RESCRIPTMath.cbrt(-1.0) // -1.0
Math.cbrt(-0.0) // -0.0
Math.cbrt(0.0) // 0.0
ceil
let ceil: float => float
ceil(v)
returns the smallest integral value greater than or equal to the
argument v
. The result is a float
and is not restricted to the int
data
type range.
See Math.ceil
on MDN.
Examples
RESCRIPTMath.ceil(3.1) == 4.0
Math.ceil(3.0) == 3.0
Math.ceil(-3.1) == -3.0
Math.ceil(2_150_000_000.3) == 2_150_000_001.0
cos
let cos: float => float
cos(v)
returns the cosine of argument v
, which must be specified in radians.
See Math.cos
on MDN.
Examples
RESCRIPTMath.cos(-0.0) // 1.0
Math.cos(0.0) // 1.0
Math.cos(1.0) // 0.5403023058681398
cosh
let cosh: float => float
cosh(v)
returns the hyperbolic cosine of argument v
, which must be specified
in radians.
See Math.cosh
on MDN.
Examples
RESCRIPTMath.cosh(-1.0) // 1.5430806348152437
Math.cosh(-0.0) // 1.0
Math.cosh(0.0) // 1.0
exp
let exp: float => float
exp(v)
returns natural exponentional, returns e (the base of natural logarithms)
to the power of the given argument v
.
See Math.exp
on MDN.
Examples
RESCRIPTMath.exp(-1.0) // 0.36787944117144233
Math.exp(0.0) // 1.0
expm1
let expm1: float => float
expm1(v)
returns e (the base of natural logarithms) to the power of the given
argument v
minus 1.
See Math.expm1
on MDN.
Examples
RESCRIPTMath.expm1(-1.0) // -0.6321205588285577
Math.expm1(-0.0) // -0
floor
let floor: float => float
floor(v)
returns the largest integral value less than or equal to the argument
v
. The result is a float
and is not restricted to the int
data type range.
See Math.floor
on MDN.
Examples
RESCRIPTMath.floor(-45.95) // -46.0
Math.floor(-45.05) // -46.0
Math.floor(-0.0) // -0.0
fround
let fround: float => float
fround(v)
returns the nearest single precision float.
See Math.fround
on MDN.
Examples
RESCRIPTMath.fround(5.5) == 5.5
Math.fround(5.05) == 5.050000190734863
hypot
let hypot: (float, float) => float
hypot(a, b)
returns the square root of the sum of squares of its two arguments
(the Pythagorean formula).
See Math.hypot
on MDN.
Examples
RESCRIPTMath.hypot(3.0, 4.0) // 5.0
Math.hypot(3.0, 5.0) // 5.8309518948453
hypotMany
let hypotMany: array<float> => float
hypotMany(arr)
returns the square root of the sum of squares of the numbers in
the array argument (generalized Pythagorean equation). Using an array allows you
to have more than two items. If arr
is an empty array then returns 0.0
.
See Math.hypot
on MDN.
Examples
RESCRIPTMath.hypot([3.0, 4.0, 5.0]) // 7.0710678118654755
Math.hypot([]) // 0.0
log
let log: float => float
log(v)
returns the natural logarithm of argument v
, this is the number x
such that e^x
equals the argument. Returns NaN
for negative arguments and
Infinity
for 0.0
or -0.0
.
See Math.log
on MDN.
Examples
RESCRIPTMath.log(-1.0)->Float.isNaN // true
Math.log(-0.0)->Float.isFinite // false
Math.log(0.0)->Float.isFinite // false
Math.log(1.0) // 0
log1p
let log1p: float => float
log1p(v)
returns the natural logarithm of one plus the argument v
.
Returns NaN
for arguments less than -1
and Infinity
if v
is -1.0
.
See Math.log1p
on MDN.
Examples
RESCRIPTMath.log1p(-2.0)->Float.isNaN // true
Math.log1p(-1.0)->Float.isFinite // false
Math.log1p(-0.0) // -0
log10
let log10: float => float
log10(v)
returns the base 10 logarithm of argument v
. Returns NaN
for
negative v
. If v
is -0.0
or 0.0
returns Infinity
.
See Math.log10
on MDN.
Examples
RESCRIPTMath.log10(-2.0)->Float.isNaN // true
Math.log10(-0.0)->Float.isFinite // false
Math.log10(0.0)->Float.isFinite // false
Math.log10(1.0) // 0
log2
let log2: float => float
log2(v)
returns the base 2 logarithm of argument v
. Returns NaN
for
negative v
and Infinity
if v
is -0.0
or 0.0
.
See Math.log2
on MDN.
Examples
RESCRIPTMath.log2(-2.0)->Float.isNaN // true
Math.log2(-0.0)->Float.isFinite // false
Math.log2(0.0)->Float.isFinite // false
Math.log2(1.0) // 0.0
min
let min: (float, float) => float
min(a, b)
returns the minimum of its two float arguments.
See Math.min
on MDN.
Examples
RESCRIPTMath.min(1.0, 2.0) // 1.0
Math.min(-1.0, -2.0) // -2.0
minMany
let minMany: array<float> => float
minMany(arr)
returns the minimum of the float in the given array arr
.
Returns Infinity
if arr
is empty.
See Math.min
on MDN.
Examples
RESCRIPTMath.minMany([1.0, 2.0]) // 1.0
Math.minMany([-1.0, -2.0]) // -2.0
Math.minMany([])->Float.isFinite // false
max
let max: (float, float) => float
max(a, b)
returns the maximum of its two float arguments.
See Math.max
on MDN.
Examples
RESCRIPTMath.max(1.0, 2.0) // 2.0
Math.max(-1.0, -2.0) // -1.0
maxMany
let maxMany: array<float> => float
maxMany(arr)
returns the maximum of the float in the given array arr
.
Returns Infinity
if arr
is empty.
See Math.max
on MDN.
Examples
RESCRIPTMath.maxMany([1.0, 2.0]) // 2.0
Math.maxMany([-1.0, -2.0]) // -1.0
Math.maxMany([])->Float.isFinite // false
pow
let pow: (float, ~exp: float) => float
pow(a, ~exp)
raises the given base a
to the given exponent exp
.
See Math.pow
on MDN.
Examples
RESCRIPTMath.pow(2.0, ~exp=4.0) // 16.0
Math.pow(3.0, ~exp=4.0) // 81.0
random
let random: unit => float
random()
returns a random number in the half-closed interval [0,1].
See Math.random
on MDN.
Examples
RESCRIPTMath.random()
round
let round: float => float
round(v)
returns then value of v
rounded to nearest integral value
(expressed as a float). If the fractional portion of the argument v
is greater
than 0.5
, the argument v
is rounded to the float with the next higher
absolute value.
See Math.round
on MDN.
Examples
RESCRIPTMath.round(-20.5) // -20.0
Math.round(-0.1) // -0.0
Math.round(0.0) // 0.0
Math.round(-0.0) // -0.0
sign
let sign: float => float
sign(v)
returns the sign of its foat argument: -1
if negative, 0
if
zero, 1
if positive.
See Math.sign
on MDN.
Examples
RESCRIPTMath.sign(3.0) // 1.0
Math.sign(-3.0) // 1.0
Math.sign(0.0) // 0.0
sin
let sin: float => float
sin(v)
returns the sine of argument v
, which must be specified in radians.
See Math.sin
on MDN.
Examples
RESCRIPTMath.sin(-0.0) // -0.0
Math.sin(0.0) // 0.0
Math.sin(1.0) // 0.8414709848078965
sinh
let sinh: float => float
sinh(v)
returns then hyperbolic sine of argument v
, which must be specified
in radians.
See Math.sinh
on MDN.
Examples
RESCRIPTMath.sinh(-0.0) // -0.0
Math.sinh(0.0) // 0.0
Math.sinh(1.0) // 1.1752011936438014
sqrt
let sqrt: float => float
sqrt(v)
returns the square root of v
. If v
is negative returns NaN
.
See Math.sqrt
on MDN.
Examples
RESCRIPTMath.sqrt(-1.0)->Float.isNaN // true
Math.sqrt(-0.0) // -0.0
Math.sqrt(0.0) // 0.0
Math.sqrt(1.0) // 1.0
Math.sqrt(9.0) // 3.0
tan
let tan: float => float
tan(v)
returns the tangent of argument v
, which must be specified in
radians. Returns NaN
if v
is positive Infinity
or negative Infinity
.
See Math.tan
on MDN.
Examples
RESCRIPTMath.tan(-0.0) // -0.0
Math.tan(0.0) // 0.0
Math.tan(1.0) // 1.5574077246549023
tanh
let tanh: float => float
tanh(v)
returns the hyperbolic tangent of argument v
, which must be
specified in radians.
See Math.tanh
on MDN.
Examples
RESCRIPTMath.tanh(-0.0) // -0.0
Math.tanh(0.0) // 0.0
Math.tanh(1.0) // 0.7615941559557649
trunc
let trunc: float => float
trunc(v)
truncates the argument v
, i.e., removes fractional digits.
See Math.trunc
on MDN.
Examples
RESCRIPTMath.trunc(0.123) // 0.0
Math.trunc(1.999) // 1.0
Math.trunc(13.37) // 13.0
Math.trunc(42.84) // 42.0