/BigInteger.js

An arbitrary length integer library for Javascript

Primary LanguageJavaScriptThe UnlicenseUnlicense

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BigInteger.js is an arbitrary-length integer library for Javascript, allowing arithmetic operations on integers of unlimited size, notwithstanding memory and time limitations.

Installation

If you are using a browser, you can download BigInteger.js from GitHub or just hotlink to it:

<script src="http://peterolson.github.com/BigInteger.js/BigInteger.min.js"></script>

If you are using node, you can install BigInteger with npm.

npm install big-integer

Then you can include it in your code:

var bigInt = require("big-integer");

Usage

bigInt(number, [base])

You can create a bigInt by calling the bigInt function. You can pass in

  • a string, which it will parse as an bigInt and throw an "Invalid integer" error if the parsing fails.
  • a Javascript number, which it will parse as an bigInt and throw an "Invalid integer" error if the parsing fails.
  • another bigInt.
  • nothing, and it will return bigInt.zero.

If you provide a second parameter, then it will parse number as a number in base base. Note that base can be any bigInt (even negative or zero). The letters "a-z" and "A-Z" will be interpreted as the numbers 10 to 35. Higher digits can be specified in angle brackets (< and >).

Examples:

var zero = bigInt();
var ninetyThree = bigInt(93);
var largeNumber = bigInt("75643564363473453456342378564387956906736546456235345");
var googol = bigInt("1e100");
var bigNumber = bigInt(largeNumber);
 
var maximumByte = bigInt("FF", 16);
var fiftyFiveGoogol = bigInt("<55>0", googol);

Note that Javascript numbers larger than 9007199254740992 and smaller than -9007199254740992 are not precisely represented numbers and will not produce exact results. If you are dealing with numbers outside that range, it is better to pass in strings.

Method Chaining

Note that bigInt operations return bigInts, which allows you to chain methods, for example:

var salary = bigInt(dollarsPerHour).times(hoursWorked).plus(randomBonuses)

Constants

There are three named constants already stored that you do not have to construct with the bigInt function yourself:

  • bigInt.one, equivalent to bigInt(1)
  • bigInt.zero, equivalent to bigInt(0)
  • bigInt.minusOne, equivalent to bigInt(-1)

The numbers from -999 to 999 are also already prestored and can be accessed using bigInt[index], for example:

  • bigInt[-999], equivalent to bigInt(-999)
  • bigInt[256], equivalent to bigInt(256)

Methods

abs()

Returns the absolute value of a bigInt.

  • bigInt(-45).abs() => 45
  • bigInt(45).abs() => 45

add(number)

Performs addition.

  • bigInt(5).add(7) => 12

View benchmarks for this method

and(number)

Performs the bitwise AND operation. The operands are treated as if they were represented using two's complement representation.

  • bigInt(6).and(3) => 2
  • bigInt(6).and(-3) => 4

compare(number)

Performs a comparison between two numbers. If the numbers are equal, it returns 0. If the first number is greater, it returns 1. If the first number is lesser, it returns -1.

  • bigInt(5).compare(5) => 0
  • bigInt(5).compare(4) => 1
  • bigInt(4).compare(5) => -1

compareAbs(number)

Performs a comparison between the absolute value of two numbers.

  • bigInt(5).compareAbs(-5) => 0
  • bigInt(5).compareAbs(4) => 1
  • bigInt(4).compareAbs(-5) => -1

compareTo(number)

Alias for the compare method.

divide(number)

Performs integer division, disregarding the remainder.

  • bigInt(59).divide(5) => 11

View benchmarks for this method

divmod(number)

Performs division and returns an object with two properties: quotient and remainder. The sign of the remainder will match the sign of the dividend.

  • bigInt(59).divmod(5) => {quotient: bigInt(11), remainder: bigInt(4) }
  • bigInt(-5).divmod(2) => {quotient: bigInt(-2), remainder: bigInt(-1) }

View benchmarks for this method

eq(number)

Alias for the equals method.

equals(number)

Checks if two numbers are equal.

  • bigInt(5).equals(5) => true
  • bigInt(4).equals(7) => false

geq(number)

Alias for the greaterOrEquals method.

greater(number)

Checks if the first number is greater than the second.

  • bigInt(5).greater(6) => false
  • bigInt(5).greater(5) => false
  • bigInt(5).greater(4) => true

greaterOrEquals(number)

Checks if the first number is greater than or equal to the second.

  • bigInt(5).greaterOrEquals(6) => false
  • bigInt(5).greaterOrEquals(5) => true
  • bigInt(5).greaterOrEquals(4) => true

gt(number)

Alias for the greater method.

isDivisibleBy(number)

Returns true if the first number is divisible by the second number, false otherwise.

  • bigInt(999).isDivisibleBy(333) => true
  • bigInt(99).isDivisibleBy(5) => false

isEven()

Returns true if the number is even, false otherwise.

  • bigInt(6).isEven() => true
  • bigInt(3).isEven() => false

isNegative()

Returns true if the number is negative, false otherwise. Returns false for 0 and -0.

  • bigInt(-23).isNegative() => true
  • bigInt(50).isNegative() => false

isOdd()

Returns true if the number is odd, false otherwise.

  • bigInt(13).isOdd() => true
  • bigInt(40).isOdd() => false

isPositive()

Return true if the number is positive, false otherwise. Returns false for 0 and -0.

  • bigInt(54).isPositive() => true
  • bigInt(-1).isPositive() => false

isPrime()

Returns true if the number is prime, false otherwise.

  • bigInt(5).isPrime() => true
  • bigInt(6).isPrime() => false

isProbablePrime([iterations])

Returns true if the number is very likely to be positive, false otherwise. Argument is optional and determines the amount of iterations of the test (default: 5). The more iterations, the lower chance of getting a false positive. This uses the Fermat primality test.

  • bigInt(5).isProbablePrime() => true
  • bigInt(49).isProbablePrime() => false
  • bigInt(1729).isProbablePrime(50) => false

Note that this function is not deterministic, since it relies on random sampling of factors, so the result for some numbers is not always the same. Carmichael numbers are particularly prone to give unreliable results.

For example, bigInt(1729).isProbablePrime() returns false about 76% of the time and true about 24% of the time. The correct result is false.

isUnit()

Returns true if the number is 1 or -1, false otherwise.

  • bigInt.one.isUnit() => true
  • bigInt.minusOne.isUnit() => true
  • bigInt(5).isUnit() => false

isZero()

Return true if the number is 0 or -0, false otherwise.

  • bigInt.zero.isZero() => true
  • bigInt("-0").isZero() => true
  • bigInt(50).isZero() => false

leq(number)

Alias for the lesserOrEquals method.

lesser(number)

Checks if the first number is lesser than the second.

  • bigInt(5).lesser(6) => true
  • bigInt(5).lesser(5) => false
  • bigInt(5).lesser(4) => false

lesserOrEquals(number)

Checks if the first number is less than or equal to the second.

  • bigInt(5).lesserOrEquals(6) => true
  • bigInt(5).lesserOrEquals(5) => true
  • bigInt(5).lesserOrEquals(4) => false

lt(number)

Alias for the lesser method.

minus(number)

Alias for the subtract method.

  • bigInt(3).minus(5) => -2

View benchmarks for this method

mod(number)

Performs division and returns the remainder, disregarding the quotient. The sign of the remainder will match the sign of the dividend.

  • bigInt(59).mod(5) => 4
  • bigInt(-5).mod(2) => -1

View benchmarks for this method

modPow(exp, mod)

Takes the number to the power exp modulo mod.

  • bigInt(10).modPow(3, 30) => 10

multiply(number)

Performs multiplication.

  • bigInt(111).multiply(111) => 12321

View benchmarks for this method

neq(number)

Alias for the notEquals method.

next()

Adds one to the number.

  • bigInt(6).next() => 7

not()

Performs the bitwise NOT operation. The operands are treated as if they were represented using two's complement representation.

  • bigInt(10).not() => -11
  • bigInt(0).not() => -1

notEquals(number)

Checks if two numbers are not equal.

  • bigInt(5).notEquals(5) => false
  • bigInt(4).notEquals(7) => true

or(number)

Performs the bitwise OR operation. The operands are treated as if they were represented using two's complement representation.

  • bigInt(13).or(10) => 15
  • bigInt(13).or(-8) => -3

over(number)

Alias for the divide method.

  • bigInt(59).over(5) => 11

View benchmarks for this method

plus(number)

Alias for the add method.

  • bigInt(5).plus(7) => 12

View benchmarks for this method

pow(number)

Performs exponentiation. If the exponent is less than 0, pow returns 0. bigInt.zero.pow(0) returns 1.

  • bigInt(16).pow(16) => 18446744073709551616

View benchmarks for this method

prev(number)

Subtracts one from the number.

  • bigInt(6).prev() => 5

remainder(number)

Alias for the mod method.

View benchmarks for this method

shiftLeft(n)

Shifts the number left by n places in its binary representation. If a negative number is provided, it will shift right. Throws an error if n is outside of the range [-9007199254740992, 9007199254740992].

  • bigInt(8).shiftLeft(2) => 32
  • bigInt(8).shiftLeft(-2) => 2

shiftRight(n)

Shifts the number right by n places in its binary representation. If a negative number is provided, it will shift left. Throws an error if n is outside of the range [-9007199254740992, 9007199254740992].

  • bigInt(8).shiftRight(2) => 2
  • bigInt(8).shiftRight(-2) => 32

square()

Squares the number

  • bigInt(3).square() => 9

View benchmarks for this method

subtract(number)

Performs subtraction.

  • bigInt(3).subtract(5) => -2

View benchmarks for this method

times(number)

Alias for the multiply method.

  • bigInt(111).times(111) => 12321

View benchmarks for this method

toJSNumber()

Converts a bigInt into a native Javascript number. Loses precision for numbers outside the range [-9007199254740992, 9007199254740992].

  • bigInt("18446744073709551616").toJSNumber() => 18446744073709552000

xor(number)

Performs the bitwise XOR operation. The operands are treated as if they were represented using two's complement representation.

  • bigInt(12).xor(5) => 9
  • bigInt(12).xor(-5) => -9

Static Methods

gcd(a, b)

Finds the greatest common denominator of a and b.

  • bigInt.gcd(42,56) => 14

isInstance(x)

Returns true if x is a BigInteger, false otherwise.

  • bigInt.isInstance(bigInt(14)) => true
  • bigInt.isInstance(14) => false

lcm(a,b)

Finds the least common multiple of a and b.

  • bigInt.lcm(21, 6) => 42

max(a,b)

Returns the largest of a and b.

  • bigInt.max(77, 432) => 432

min(a,b)

Returns the smallest of a and b.

  • bigInt.min(77, 432) => 77

randBetween(min, max)

Returns a random number between min and max.

  • bigInt.randBetween("-1e100", "1e100") => (for example) 8494907165436643479673097939554427056789510374838494147955756275846226209006506706784609314471378745

Override Methods

toString(radix = 10)

Converts a bigInt to a string. There is an optional radix parameter (which defaults to 10) that converts the number to the given radix. Digits in the range 10-35 will use the letters a-z.

  • bigInt("1e9").toString() => "1000000000"
  • bigInt("1e9").toString(16) => "3b9aca00"

Note that arithmetical operators will trigger the valueOf function rather than the toString function. When converting a bigInteger to a string, you should use the toString method or the String function instead of adding the empty string.

  • bigInt("999999999999999999").toString() => "999999999999999999"
  • String(bigInt("999999999999999999")) => "999999999999999999"
  • bigInt("999999999999999999") + "" => 1000000000000000000

Bases larger than 36 are supported. If a digit is greater than or equal to 36, it will be enclosed in angle brackets.

  • bigInt(567890).toString(100) => "<56><78><90>"

Negative bases are also supported.

  • bigInt(12345).toString(-10) => "28465"

Base 1 and base -1 are also supported.

  • bigInt(-15).toString(1) => "-111111111111111"
  • bigInt(-15).toString(-1) => "101010101010101010101010101010"

Base 0 is only allowed for the number zero.

  • bigInt(0).toString(0) => 0
  • bigInt(1).toString(0) => Error: Cannot convert nonzero numbers to base 0.

View benchmarks for this method

valueOf()

Converts a bigInt to a native Javascript number. This override allows you to use native arithmetic operators without explicit conversion:

  • bigInt("100") + bigInt("200") === 300; //true

Contributors

To contribute, just fork the project, make some changes, and submit a pull request. Please verify that the unit tests pass before submitting.

The unit tests are contained in the spec/spec.js file. You can run them locally by opening the spec/SpecRunner.html or file or running npm test. You can also run the tests online from GitHub.

There are performance benchmarks that can be viewed from the benchmarks/index.html page. You can run them online from GitHub.

License

This project is public domain. For more details, read about the Unlicense.