JSPM

The minimum base 10 exponent for a normal double-precision floating-point number.

The minimum biased base 2 exponent for a normal double-precision floating-point number.

Maximum safe nth factorial when stored in double-precision floating-point format.

Returns an integer corresponding to the unbiased exponent of a double-precision floating-point number.

Enforce finance-safe calculations using BigNumber instead of native JavaScript arithmetic and Math functions.

Returns a 32-bit integer corresponding to the more significant 32 bits of a double-precision floating-point number.

A module to encode and decode IEEE 754 floating point numbers.

Read/write IEEE754 floating point numbers from/to a Buffer or array-like object

Smallest positive double-precision floating-point number.

Sets the less significant 32 bits of a double-precision floating-point number.

Multiplies a double-precision floating-point number by an integer power of two.

Creates a double-precision floating-point number from a higher order word and a lower order word.

Returns a normal number `y` and exponent `exp` satisfying `x = y * 2^exp`.

Natural logarithm of 1/2.

Test if a double-precision floating-point numeric value is finite.

Natural logarithm of 2π.

Create a filled array according to a provided callback function.

Enforce finance-safe calculations using BigNumber instead of native JavaScript arithmetic and Math functions.

Create a zero-filled array having a specified length.

Test if a single-precision floating-point numeric value is NaN.

Single-precision floating-point positive infinity.

Single-precision floating-point negative infinity.

Smallest positive single-precision floating-point subnormal number.

Maximum safe single-precision floating-point integer.

The bias of a single-precision floating-point number's exponent.

Minimum safe single-precision floating-point integer.

Return a boolean indicating if the sign bit for a double-precision floating-point number is on (true) or off (false).

Difference between one and the smallest value greater than one that can be represented as a single-precision floating-point number.

Create an uninitialized array having a specified length.

Create a typed array.

Cube root of single-precision floating-point epsilon.

Mask for excluding the sign bit of a single-precision floating-point number.

Size (in bytes) of a single-precision floating-point number.

Test if a single-precision floating-point numeric value is positive zero.

Effective number of bits in the significand of a single-precision floating-point number.

Square root of single-precision floating-point epsilon.

Single-precision floating-point mathematical constants.

Test if a single-precision floating-point numeric value is negative zero.

Natural logarithm of π.

Generate a linearly spaced numeric array whose elements increment by 1 starting from one.

Create a single-precision floating-point number from an unsigned integer corresponding to an IEEE 754 binary representation.

Square root of π.

Create a filled array.

Mask for the sign bit of a single-precision floating-point number.

Create a filled array having a specified length.

Mask for the exponent of a single-precision floating-point number.

Split a double-precision floating-point number into a normalized fraction and an integer power of two.

Create an array filled with ones and having a specified length.

Mask for the significand of a single-precision floating-point number.

π².

π.

Test if a single-precision floating-point numeric value is infinite.

1/4 times π.

Test if a value is a Complex128Array.

Test if a value is a Complex64Array.

Returns the next representable double-precision floating-point number after x toward y.

Square root of 3.

Golden ratio.

1/2 times π.

Return a boolean indicating if the sign bit for a single-precision floating-point number is on (true) or off (false).

Golden ratio.

Maximum safe nth Fibonacci number when stored in double-precision floating-point format.

Maximum safe nth Lucas number when stored in double-precision floating-point format.

Square root of 0.5π.

Generate a linearly spaced numeric array whose elements increment by 1 starting from zero.

Return a single-precision floating-point number with the magnitude of x and the sign of y.

Minimum safe double-precision floating-point integer.

Test if a value is a 64-bit complex number.

Create an array filled with NaNs and having a specified length.

Half-precision floating-point negative infinity.

Maximum safe Lucas number when stored in double-precision floating-point format.

Square root of the golden ratio.

Square root of half-precision floating-point epsilon.

Test if a value is a 128-bit complex number.

Maximum safe half-precision floating-point integer.

Return an integer corresponding to the unbiased exponent of a single-precision floating-point number.

Return a normal number `y` and exponent `exp` satisfying `x = y * 2^exp`.

Single-precision floating-point NaN.

Apéry's constant.

Double-precision floating-point NaN.

Cube root of half-precision floating-point epsilon.

Return an integer corresponding to the significand of a single-precision floating-point number.

Create a single-precision floating-point number from a literal bit representation.

Half-precision floating-point positive infinity.

Catalan's constant.

Maximum safe double-precision floating-point integer.

Size (in bytes) of a half-precision floating-point number.

Smallest positive normalized half-precision floating-point number.

Difference between one and the smallest value greater than one that can be represented as a half-precision floating-point number.

Cube root of double-precision floating-point epsilon.

Maximum safe Fibonacci number when stored in double-precision floating-point format.

Size (in bytes) of a double-precision floating-point number.

Maximum half-precision floating-point number.

Base 10 logarithm of Euler's number.

Glaisher-Kinkelin constant.

Base 2 logarithm of Euler's number.

Square root of 1/2.

Fourth root of double-precision floating-point epsilon.

Effective number of bits in the significand of a double-precision floating-point number.

Half-precision floating-point mathematical constants.

Smallest positive half-precision floating-point subnormal number.

Double-precision floating-point mathematical constants.

The bias of a half-precision floating-point number's exponent.

Minimum safe half-precision floating-point integer.

Effective number of bits in the significand of a half-precision floating-point number.

Test if a single-precision floating-point numeric value is finite.

The maximum base 10 exponent for a subnormal double-precision floating-point number.

Natural logarithm of 10.

Return the smallest positive normal value capable of being represented by a numeric real type.

Type-based calculation does right.

Creates a single-precision floating-point number from a literal bit representation.

Return the minimum safe integer capable of being represented by a numeric real type.

Test if two floating point numbers overlap

Base utilities for single-precision floating-point numbers.

Create an uninitialized array having the same length and data type as a provided array.

Decompose a double-precision floating-point number into integral and fractional parts.

Returns an integer corresponding to the significand of a single-precision floating-point number.

Returns the next representable single-precision floating-point number after x toward y.

Implementation of BigBit standard for numeric data type and character encoding

Base utilities for double-precision floating-point numbers.

Converts raw modbus integer to IEEE-754 Binary16 Floating Point format

2π.

Returns a 32-bit integer corresponding to the less significant 32 bits of a double-precision floating-point number.

Get the “exact value” of the number

Test if a value is a 64-bit or 128-bit complex number.

Maximum double-precision floating-point number.

Create an array filled with ones and having the same length and data type as a provided array.

Return a double-precision floating-point number with the magnitude of x and the sign of x*y.

Square root of double-precision floating-point epsilon.

Maximum safe double-precision floating-point integer.

Maximum single-precision floating-point number.

Effective number of bits in the significand of a double-precision floating-point number.

Maximum single-precision floating-point number.

Create a zero-filled array having the same length and data type as a provided array.

Return the maximum safe integer capable of being represented by a numeric real type.

Utilities for double-precision floating-point numbers.

Returns an unsigned 32-bit integer corresponding to the IEEE 754 binary representation of a single-precision floating-point number.

Return the maximum finite value capable of being represented by a numeric real type.

Utilities for single-precision floating-point numbers.

Return a single-precision floating-point number with the magnitude of x and the sign of x*y.

Returns a double-precision floating-point number with the magnitude of x and the sign of x*y.

Generate a linearly spaced numeric array whose elements increment by 1 starting from zero and having the same length and data type as a provided input array.

Sets the more significant 32 bits of a double-precision floating-point number.

Returns a boolean indicating if the sign bit for a double-precision floating-point number is on (true) or off (false).

Return the minimum safe integer capable of being represented by a numeric real type.

Effective number of bits in the significand of a half-precision floating-point number.

Difference between one and the smallest value greater than one that can be represented as a double-precision floating-point number.

Create a typed array.

Create a complex number typed array.

Difference between one and the smallest value greater than one that can be represented as a half-precision floating-point number.

Cube root of double-precision floating-point epsilon.

num7 - SUPREME PRECISION GENERAL PURPOSE ARITHMETIC-LOGIC DECIMAL LIBRARY PACKAGE FOR JAVASCRIPT LANGUAGE

Difference between one and the smallest value greater than one that can be represented as a single-precision floating-point number.

Returns a boolean indicating if the sign bit for a single-precision floating-point number is on (true) or off (false).

Return the maximum finite value capable of being represented by a numeric real type.

Returns an integer corresponding to the unbiased exponent of a single-precision floating-point number.

Creates a single-precision floating-point number from an unsigned integer corresponding to an IEEE 754 binary representation.

Effective number of bits in the significand of a single-precision floating-point number.

Return the smallest positive normal value capable of being represented by a numeric real type.

use numeral automatically

Computes the relative difference of two real numbers in units of double-precision floating-point epsilon.

num7 - SUPREME PRECISION GENERAL PURPOSE ARITHMETIC-LOGIC DECIMAL LIBRARY PACKAGE FOR JAVASCRIPT LANGUAGE

Returns a normal number `y` and exponent `exp` satisfying `x = y * 2^exp`.

```typescript import { hexIeee754_32ToNum, numToIeee754_32Hex } from "ieee754-hex";

float value encode/decode two's complement and single precision floating point format(ieee754)

Create a filled array having the same length and data type as a provided array.

Compute the relative difference of two real numbers in units of double-precision floating-point epsilon.

Read/write IEEE754 floating point numbers from/to a Buffer or array-like object

Read/write IEEE754 floating point numbers from/to a Buffer or array-like object

Create an array filled with NaNs and having the same length and data type as a provided array.

Typed array pool.

Return the maximum safe integer capable of being represented by a numeric real type.

Generate a linearly spaced numeric array whose elements increment by 1 starting from one and having the same length and data type as a provided input array.