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Arbitrary-precision decimals. Enables making math calculations with rational numbers, without precision loss.

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Daninet/exactnumber

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ExactNumber

npm package codecov Build status JSDelivr downloads

Arbitrary-precision decimals. Enables making math calculations with rational numbers, without precision loss.

Features

  • Works with arbitrary large numbers without precision loss
  • All fractions can be represented as repeating decimals like 1.23(45)
  • This repeating decimal format (1.23(45)) can also be parsed back
  • Works with all number bases between 2 and 16
  • No special values like NaN, Infinity or -0.
  • No silent errors: it throws errors immediatelly when a confusing parameter is received (e.g. 0/0)
  • Supports bitwise operators (and, or, xor, shiftLeft, shiftRight)
  • Includes approximation algorithms for irrational numbers like PI, sin(1).
  • Supports all modern browsers, web workers, Node.js and Deno
  • Includes TypeScript type definitions: documentation
  • Zero external dependencies
  • Under the hood, it relies on the BigInt type. It automatically switches back and forth between fixed-precision and fractional representations.
  • Tries to deliver the best possible performance
  • 100% open source + MIT license

Comparision with built-in numbers

import { ExactNumber as N } from 'exactnumber';

1 + 0.36 // 1.3599999999999999
N(1).add('0.36').toString() // 1.36

(1 / 49) * 49 // 0.9999999999999999
N(1).div(49).mul(49).toString() // 1

10e16 + 5 // 100000000000000000
N('10e16').add(5).toString() // 100000000000000005

1 / 3 // 0.3333333333333333
N(1).div(3).toString() // 0.(3)

2**32 >> 32 // 0
N(2).pow(32).shiftRight(32).toString() // 1

Installation

npm i exactnumber

It can also be used directly from HTML (via jsDelivr):

<!-- loads the full, minified library into the global `exactnumber` variable -->
<script src="https://cdn.jsdelivr.net/npm/exactnumber"></script>

<!-- or loads the non-minified library -->
<script src="https://cdn.jsdelivr.net/npm/exactnumber/dist/index.umd.js"></script>

Usage

import { ExactNumber as N } from 'exactnumber';

N(1).add('3').toString(); // 4

N('1/7').add('1/10').toFraction(); // 17/70

N('1/7').toString(); // 0.(142857)
N('1/7').toString(6); // 0.(05)
N('1/7').toFixed(3); // 0.142
N('1/7').trunc(3).toString(); // 0.142
N('0.(3)').add('0.(6)').toString(); // 1

N('0b1100').bitwiseAnd('0b1010').toString(2); // 1000

N.max('1/1', '10/2', 3).toString(); // 5
N.fromBase('123', 4).toString(); // 27

// approximations

import { PI, sin, pow } from 'exactnumber';
PI(10).toString(); // 3.1415926535

const PI_OVER_2 = PI(10).div(2);
sin(PI_OVER_2, 5).toString(); // 1.00000

// 0.1232323 raised to the power of 2.193333, approximated with 10 decimals
pow('0.1(23)', '2.19(3)', 10).toString(); // 0.0101310867

Functions

  • Addition / subtraction: add(), sub()
  • Multiplication / division: mul(), div(), divToInt()
  • Exponentiation: pow()
  • Modular arithmetic: mod(), powm()
  • Getting the sign / absolute value: sign(), abs()
  • Negation / inversion: neg(), inv()
  • Integer and fractional parts: intPart(), fracPart()
  • Comparisons: cmp(), eq(), lt(), lte(), gt(), gte()
  • Special comparisons: isZero(), isOne()
  • Type testing: isInteger()
  • Rounding: round(), roundToDigits(), floor(), ceil(), trunc()
  • Bitwise operators: bitwiseAnd(), bitwiseOr(), bitwiseXor(), shiftLeft(), shiftRight()
  • Clamping: clamp()
  • Fraction helper: getFractionParts()
  • Normalization / simplifying fractions: normalize()
  • String output: toFixed(), toExponential(), toPrecision(), toString(), toFraction()
  • Number output: toNumber()
  • GCD, LCM: ExactNumber.gcd(), ExactNumber.lcm()
  • Minimum, maximum: ExactNumber.min(), ExactNumber.max()
  • Parsing numbers in different bases: ExactNumber.fromBase()
  • Range generator: ExactNumber.range()

Rounding modes

  • NEAREST_TO_POSITIVE - Rounds to nearest number, with ties rounded towards +Infinity. Similar to Math.round().

  • NEAREST_TO_NEGATIVE - Rounds to nearest number, with ties rounded towards -Infinity.

  • NEAREST_TO_EVEN - Rounds to nearest number, with ties rounded towards the nearest even number.

  • NEAREST_TO_ZERO - Rounds to nearest number, with ties rounded towards zero.

  • NEAREST_AWAY_FROM_ZERO - Rounds to nearest number, with ties rounded away from zero.

  • TO_POSITIVE - Rounds towards +Infinity. Similar to Math.ceil().

  • TO_NEGATIVE - Rounds towards -Infinity. Similar to Math.floor().

  • TO_ZERO - Rounds towards zero. Similar to Math.trunc().

  • AWAY_FROM_ZERO - Rounds away from zero

Modulo variants

  • TRUNCATED
  • FLOORED
  • EUCLIDEAN

Read more about them here.

Approximation algorithms

These functions approximate irrational numbers with arbitrary number of decimals. The last parameter is always used to specify the number of correct decimals in the result.

  • Roots: sqrt(), cbrt(), nthroot()
  • Exponentials: pow(), exp()
  • Logarithms: log(), logn(), log10(), log2(),
  • Constants: PI()
  • Trigonometric functions: sin(), cos(), tan()
  • Inverse trigonometric functions: asin(), acos(), atan()
  • Hyperbolic functions: sinh(), cosh(), tanh()
  • Inverse hyperbolic functions: asinh(), acosh(), atanh()

Copyright

License: MIT

Copyright © 2022 Dani Biró