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![decimal.js ](https://raw.githubusercontent.com/MikeMcl/decimal.js/gh-pages/decimaljs.png )
An arbitrary-precision Decimal type for JavaScript.
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[![npm version ](https://img.shields.io/npm/v/decimal.js.svg )](https://www.npmjs.com/package/decimal.js)
[![npm downloads ](https://img.shields.io/npm/dw/decimal.js )](https://www.npmjs.com/package/decimal.js)
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[![Build Status ](https://travis-ci.org/MikeMcl/decimal.js.svg )](https://travis-ci.org/MikeMcl/decimal.js)
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[![CDNJS ](https://img.shields.io/cdnjs/v/decimal.js.svg )](https://cdnjs.com/libraries/decimal.js)
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< br >
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## Features
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- Integers and floats
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- 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
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- Faster, smaller, and perhaps easier to use than JavaScript versions of Java's BigDecimal
- No dependencies
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- Wide platform compatibility: uses JavaScript 1.5 (ECMAScript 3) features only
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- Comprehensive [documentation ](https://mikemcl.github.io/decimal.js/ ) and test set
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- Used under the hood by [math.js ](https://github.com/josdejong/mathjs )
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- Includes a TypeScript declaration file: *decimal.d.ts*
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![API ](https://raw.githubusercontent.com/MikeMcl/decimal.js/gh-pages/API.png )
The library is similar to [bignumber.js ](https://github.com/MikeMcl/bignumber.js/ ), but here
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precision is specified in terms of significant digits rather than decimal places, and all
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calculations are rounded to the precision (similar to Python's decimal module) rather than just
those involving division.
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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 ](https://github.com/MikeMcl/big.js/ ).
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For a lighter version of this library without the trigonometric functions see
[decimal.js-light ](https://github.com/MikeMcl/decimal.js-light/ ).
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## Load
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The library is the single JavaScript file *decimal.js* or ES module *decimal.mjs* .
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Browser:
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```html
< script src = 'path/to/decimal.js' > < / script >
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< script type = "module" >
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import Decimal from './path/to/decimal.mjs';
...
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< / script >
```
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[Node.js ](https://nodejs.org ):
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```bash
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npm install decimal.js
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```
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```js
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const Decimal = require('decimal.js');
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import Decimal from 'decimal.js';
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import {Decimal} from 'decimal.js';
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```
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## Use
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*In all examples below, semicolons and `toString` calls are not shown.
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If a commented-out value is in quotes it means `toString` has been called on the preceding expression.*
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The library exports a single constructor function, `Decimal` , which expects a single argument that is a number, string or Decimal instance.
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```js
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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
```
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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.
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```js
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x = new Decimal('0xff.f') // '255.9375'
y = new Decimal('0b10101100') // '172'
z = x.plus(y) // '427.9375'
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z.toBinary() // '0b110101011.1111'
z.toBinary(13) // '0b1.101010111111p+8'
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// Using binary exponential notation to create a Decimal with the value of `Number.MAX_VALUE` .
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x = new Decimal('0b1.1111111111111111111111111111111111111111111111111111p+1023')
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// '1.7976931348623157081e+308'
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```
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Decimal instances are immutable in the sense that they are not changed by their methods.
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```js
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0.3 - 0.1 // 0.19999999999999998
x = new Decimal(0.3)
x.minus(0.1) // '0.2'
x // '0.3'
```
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The methods that return a Decimal can be chained.
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```js
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x.dividedBy(y).plus(z).times(9).floor()
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x.times('1.23456780123456789e+9').plus(9876.5432321).dividedBy('4444562598.111772').ceil()
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```
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Many method names have a shorter alias.
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```js
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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
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```
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Most of the methods of JavaScript's `Number.prototype` and `Math` objects are replicated.
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```js
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x = new Decimal(255.5)
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x.toExponential(5) // '2.55500e+2'
x.toFixed(5) // '255.50000'
x.toPrecision(5) // '255.50'
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Decimal.sqrt('6.98372465832e+9823') // '8.3568682281821340204e+4911'
Decimal.pow(2, 0.0979843) // '1.0702770511687781839'
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// Using `toFixed()` to avoid exponential notation:
x = new Decimal('0.0000001')
x.toString() // '1e-7'
x.toFixed() // ''0.0000001'
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```
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And there are `isNaN` and `isFinite` methods, as `NaN` and `Infinity` are valid `Decimal` values.
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```js
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x = new Decimal(NaN) // 'NaN'
y = new Decimal(Infinity) // 'Infinity'
x.isNaN() & & !y.isNaN() & & !x.isFinite() & & !y.isFinite() // true
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```
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There is also a `toFraction` method with an optional *maximum denominator* argument.
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```js
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z = new Decimal(355)
pi = z.dividedBy(113) // '3.1415929204'
pi.toFraction() // [ '7853982301', '2500000000' ]
pi.toFraction(1000) // [ '355', '113' ]
```
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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.
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For advanced usage, multiple Decimal constructors can be created, each with their own independent
configuration which applies to all Decimal numbers created from it.
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```js
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// Set the precision and rounding of the default Decimal constructor
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Decimal.set({ precision: 5, rounding: 4 })
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// Create another Decimal constructor, optionally passing in a configuration object
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Dec = Decimal.clone({ precision: 9, rounding: 1 })
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x = new Decimal(5)
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y = new Dec(5)
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x.div(3) // '1.6667'
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y.div(3) // '1.66666666'
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```
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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.
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```js
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x = new Decimal(-12345.67);
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x.d // [ 12345, 6700000 ] digits (base 10000000)
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x.e // 4 exponent (base 10)
x.s // -1 sign
```
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For further information see the [API ](http://mikemcl.github.io/decimal.js/ ) reference in the *doc* directory.
## Test
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To run the tests using Node.js from the root directory:
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```bash
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npm test
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```
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Each separate test module can also be executed individually, for example:
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```bash
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node test/modules/toFraction
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```
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To run the tests in a browser, open *test/test.html* .
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## Minify
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Two minification examples:
Using [uglify-js ](https://github.com/mishoo/UglifyJS ) to minify the *decimal.js* file:
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```bash
npm install uglify-js -g
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uglifyjs decimal.js --source-map url=decimal.min.js.map -c -m -o decimal.min.js
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```
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Using [terser ](https://github.com/terser/terser ) to minify the ES module version, *decimal.mjs* :
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```bash
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npm install terser -g
terser decimal.mjs --source-map url=decimal.min.mjs.map -c -m --toplevel -o decimal.min.mjs
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```
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```js
import Decimal from './decimal.min.mjs';
```
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## Licence
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[The MIT Licence (Expat). ](LICENCE.md )