decimal.js

!decimal.js

An arbitrary-precision Decimal type for JavaScript.

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![npm downloads](https://www.npmjs.com/package/decimal.js)
![CDNJS](https://cdnjs.com/libraries/decimal.js)
![](https://www.jsdelivr.com/package/npm/decimal.js)

Features

- Integers and floats
- Simple but full-featured API
- Replicates many of the methods of JavaScript's Number.prototype and Math objects
- Also handles hexadecimal, binary and octal values
- Faster, smaller, and perhaps easier to use than JavaScript versions of Java's BigDecimal
- No dependencies
- Wide platform compatibility: uses JavaScript 1.5 (ECMAScript 3) features only
- Comprehensive documentation and test set
- Used under the hood by math.js
- Includes a TypeScript declaration file: decimal.d.ts

!API

The library is similar to bignumber.js, but here
precision is specified in terms of significant digits rather than decimal places, and all
calculations are rounded to the precision (similar to Python's decimal module) rather than just
those involving division.

This library also adds the trigonometric functions, among others, and supports non-integer powers,
which makes it a significantly larger library than bignumber.js and the even smaller
big.js.

For a lighter version of this library without the trigonometric functions see
decimal.js-light.

Load

The library is the single JavaScript file decimal.js or ES module decimal.mjs.

Browser:

``

html





Node.js:

bash

npm install decimal.js

js

const Decimal = require('decimal.js');



import Decimal from 'decimal.js';



import {Decimal} from 'decimal.js';





Use



*In all examples below, semicolons and

toString

 calls are not shown.

If a commented-out value is in quotes it means

toString

 has been called on the preceding expression.*



The library exports a single constructor function,

Decimal

, which expects a single argument that is a number, string or Decimal instance.

js

x = new Decimal(123.4567)

y = new Decimal('123456.7e-3')

z = new Decimal(x)

x.equals(y) && y.equals(z) && x.equals(z)        // true





If using values with more than a few digits, it is recommended to pass strings rather than numbers to avoid a potential loss of precision.

js

// Precision loss from using numeric literals with more than 15 significant digits.

new Decimal(1.0000000000000001)         // '1'

new Decimal(88259496234518.57)          // '88259496234518.56'

new Decimal(99999999999999999999)       // '100000000000000000000'



// Precision loss from using numeric literals outside the range of Number values.

new Decimal(2e+308)                     // 'Infinity'

new Decimal(1e-324)                     // '0'



// Precision loss from the unexpected result of arithmetic with Number values.

new Decimal(0.7 + 0.1)                  // '0.7999999999999999'





As with JavaScript numbers, strings can contain underscores as separators to improve readability.

js

x = new Decimal('2_147_483_647')





String values in binary, hexadecimal or octal notation are also accepted if the appropriate prefix is included.

js

x = new Decimal('0xff.f')            // '255.9375'

y = new Decimal('0b10101100')        // '172'

z = x.plus(y)                        // '427.9375'



z.toBinary()                         // '0b110101011.1111'

z.toBinary(13)                       // '0b1.101010111111p+8'



// Using binary exponential notation to create a Decimal with the value of

Number.MAX_VALUE

.

x = new Decimal('0b1.1111111111111111111111111111111111111111111111111111p+1023')

// '1.7976931348623157081e+308'





Decimal instances are immutable in the sense that they are not changed by their methods.

js

0.3 - 0.1                     // 0.19999999999999998

x = new Decimal(0.3)

x.minus(0.1)                  // '0.2'

x                             // '0.3'





The methods that return a Decimal can be chained.

js

x.dividedBy(y).plus(z).times(9).floor()

x.times('1.23456780123456789e+9').plus(9876.5432321).dividedBy('4444562598.111772').ceil()





Many method names have a shorter alias.

js

x.squareRoot().dividedBy(y).toPower(3).equals(x.sqrt().div(y).pow(3))     // true

x.comparedTo(y.modulo(z).negated() === x.cmp(y.mod(z).neg())              // true





Most of the methods of JavaScript's

Number.prototype and Math

 objects are replicated.

js

x = new Decimal(255.5)

x.toExponential(5)                       // '2.55500e+2'

x.toFixed(5)                             // '255.50000'

x.toPrecision(5)                         // '255.50'



Decimal.sqrt('6.98372465832e+9823')      // '8.3568682281821340204e+4911'

Decimal.pow(2, 0.0979843)                // '1.0702770511687781839'



// Using

toFixed()

 to avoid exponential notation:

x = new Decimal('0.0000001')

x.toString()                             // '1e-7'

x.toFixed()                              // '0.0000001'





And there are

isNaN and isFinite methods, as NaN and Infinity are valid Decimal

 values.

js

x = new Decimal(NaN)                                           // 'NaN'

y = new Decimal(Infinity)                                      // 'Infinity'

x.isNaN() && !y.isNaN() && !x.isFinite() && !y.isFinite()      // true





There is also a

toFraction

 method with an optional maximum denominator argument.

js

z = new Decimal(355)

pi = z.dividedBy(113)        // '3.1415929204'

pi.toFraction()              // [ '7853982301', '2500000000' ]

pi.toFraction(1000)          // [ '355', '113' ]





All calculations are rounded according to the number of significant digits and rounding mode specified

by the

precision and rounding

 properties of the Decimal constructor.



For advanced usage, multiple Decimal constructors can be created, each with their own independent

configuration which applies to all Decimal numbers created from it.

js

// Set the precision and rounding of the default Decimal constructor

Decimal.set({ precision: 5, rounding: 4 })



// Create another Decimal constructor, optionally passing in a configuration object

Dec = Decimal.clone({ precision: 9, rounding: 1 })



x = new Decimal(5)

y = new Dec(5)



x.div(3)                           // '1.6667'

y.div(3)                           // '1.66666666'





The value of a Decimal is stored in a floating point format in terms of its digits, exponent and sign, but these properties should be considered read-only.

js

x = new Decimal(-12345.67);

x.d                            // [ 12345, 6700000 ]    digits (base 10000000)

x.e                            // 4                     exponent (base 10)

x.s                            // -1                    sign





For further information see the API reference in the doc directory.



Test



To run the tests using Node.js from the root directory:

bash

npm test





Each separate test module can also be executed individually, for example:

bash

node test/modules/toFraction





To run the tests in a browser, open test/test.html.



Minify



Two minification examples:



Using uglify-js to minify the decimal.js file:

bash

npm install uglify-js -g

uglifyjs decimal.js --source-map url=decimal.min.js.map -c -m -o decimal.min.js





Using terser to minify the ES module version, decimal.mjs:

bash

npm install terser -g

terser decimal.mjs --source-map url=decimal.min.mjs.map -c -m --toplevel -o decimal.min.mjs

js

import Decimal from './decimal.min.mjs';

Licence

The MIT Licence

Features

Load

The library is the single JavaScript file decimal.js or ES module decimal.mjs.

Browser:

``

html





Node.js:

bash

npm install decimal.js

js

const Decimal = require('decimal.js');



import Decimal from 'decimal.js';



import {Decimal} from 'decimal.js';





Use



*In all examples below, semicolons and

toString

 calls are not shown.

If a commented-out value is in quotes it means

toString

 has been called on the preceding expression.*



The library exports a single constructor function,

Decimal

, which expects a single argument that is a number, string or Decimal instance.

js

x = new Decimal(123.4567)

y = new Decimal('123456.7e-3')

z = new Decimal(x)

x.equals(y) && y.equals(z) && x.equals(z)        // true





If using values with more than a few digits, it is recommended to pass strings rather than numbers to avoid a potential loss of precision.

js

// Precision loss from using numeric literals with more than 15 significant digits.

new Decimal(1.0000000000000001)         // '1'

new Decimal(88259496234518.57)          // '88259496234518.56'

new Decimal(99999999999999999999)       // '100000000000000000000'



// Precision loss from using numeric literals outside the range of Number values.

new Decimal(2e+308)                     // 'Infinity'

new Decimal(1e-324)                     // '0'



// Precision loss from the unexpected result of arithmetic with Number values.

new Decimal(0.7 + 0.1)                  // '0.7999999999999999'





As with JavaScript numbers, strings can contain underscores as separators to improve readability.

js

x = new Decimal('2_147_483_647')





String values in binary, hexadecimal or octal notation are also accepted if the appropriate prefix is included.

js

x = new Decimal('0xff.f')            // '255.9375'

y = new Decimal('0b10101100')        // '172'

z = x.plus(y)                        // '427.9375'



z.toBinary()                         // '0b110101011.1111'

z.toBinary(13)                       // '0b1.101010111111p+8'



// Using binary exponential notation to create a Decimal with the value of

Number.MAX_VALUE

.

x = new Decimal('0b1.1111111111111111111111111111111111111111111111111111p+1023')

// '1.7976931348623157081e+308'





Decimal instances are immutable in the sense that they are not changed by their methods.

js

0.3 - 0.1                     // 0.19999999999999998

x = new Decimal(0.3)

x.minus(0.1)                  // '0.2'

x                             // '0.3'





The methods that return a Decimal can be chained.

js

x.dividedBy(y).plus(z).times(9).floor()

x.times('1.23456780123456789e+9').plus(9876.5432321).dividedBy('4444562598.111772').ceil()





Many method names have a shorter alias.

js

x.squareRoot().dividedBy(y).toPower(3).equals(x.sqrt().div(y).pow(3))     // true

x.comparedTo(y.modulo(z).negated() === x.cmp(y.mod(z).neg())              // true





Most of the methods of JavaScript's

Number.prototype and Math

 objects are replicated.

js

x = new Decimal(255.5)

x.toExponential(5)                       // '2.55500e+2'

x.toFixed(5)                             // '255.50000'

x.toPrecision(5)                         // '255.50'



Decimal.sqrt('6.98372465832e+9823')      // '8.3568682281821340204e+4911'

Decimal.pow(2, 0.0979843)                // '1.0702770511687781839'



// Using

toFixed()

 to avoid exponential notation:

x = new Decimal('0.0000001')

x.toString()                             // '1e-7'

x.toFixed()                              // '0.0000001'





And there are

isNaN and isFinite methods, as NaN and Infinity are valid Decimal

 values.

js

x = new Decimal(NaN)                                           // 'NaN'

y = new Decimal(Infinity)                                      // 'Infinity'

x.isNaN() && !y.isNaN() && !x.isFinite() && !y.isFinite()      // true





There is also a

toFraction

 method with an optional maximum denominator argument.

js

z = new Decimal(355)

pi = z.dividedBy(113)        // '3.1415929204'

pi.toFraction()              // [ '7853982301', '2500000000' ]

pi.toFraction(1000)          // [ '355', '113' ]





All calculations are rounded according to the number of significant digits and rounding mode specified

by the

precision and rounding

 properties of the Decimal constructor.



For advanced usage, multiple Decimal constructors can be created, each with their own independent

configuration which applies to all Decimal numbers created from it.

js

// Set the precision and rounding of the default Decimal constructor

Decimal.set({ precision: 5, rounding: 4 })



// Create another Decimal constructor, optionally passing in a configuration object

Dec = Decimal.clone({ precision: 9, rounding: 1 })



x = new Decimal(5)

y = new Dec(5)



x.div(3)                           // '1.6667'

y.div(3)                           // '1.66666666'





The value of a Decimal is stored in a floating point format in terms of its digits, exponent and sign, but these properties should be considered read-only.

js

x = new Decimal(-12345.67);

x.d                            // [ 12345, 6700000 ]    digits (base 10000000)

x.e                            // 4                     exponent (base 10)

x.s                            // -1                    sign





For further information see the API reference in the doc directory.



Test



To run the tests using Node.js from the root directory:

bash

npm test





Each separate test module can also be executed individually, for example:

bash

node test/modules/toFraction





To run the tests in a browser, open test/test.html.



Minify



Two minification examples:



Using uglify-js to minify the decimal.js file:

bash

npm install uglify-js -g

uglifyjs decimal.js --source-map url=decimal.min.js.map -c -m -o decimal.min.js





Using terser to minify the ES module version, decimal.mjs:

bash

npm install terser -g

terser decimal.mjs --source-map url=decimal.min.mjs.map -c -m --toplevel -o decimal.min.mjs

js

import Decimal from './decimal.min.mjs';

Licence

The MIT Licence

Features

Load

Use

Test

Minify

Licence

decimal.js

Features

Load

Use

Test

Minify

Licence

Dist Tags