I need to generate arbitrarily large random integers in the range 0 (inclusive) to n (exclusive). My initial thought was to call nextDouble and multiply by n, but once n gets to be larger than 253, the results would no longer be uniformly distributed.

BigInteger has the following constructor available:

public BigInteger(int numBits, Random rnd)

Constructs a randomly generated BigInteger, uniformly distributed over the range 0 to (2numBits - 1), inclusive.

How can this be used to get a random value in the range 0 - n, where n is not a power of 2?


Use a loop:

BigInteger randomNumber;
do {
    randomNumber = new BigInteger(upperLimit.bitLength(), randomSource);
} while (randomNumber.compareTo(upperLimit) >= 0);

on average, this will require less than two iterations, and the selection will be uniform.

Edit: If your RNG is expensive, you can limit the number of iterations the following way:

int nlen = upperLimit.bitLength();
BigInteger nm1 = upperLimit.subtract(BigInteger.ONE);
BigInteger randomNumber, temp;
do {
    temp = new BigInteger(nlen + 100, randomSource);
    randomNumber = temp.mod(upperLimit);
} while (s.subtract(randomNumber).add(nm1).bitLength() >= nlen + 100);
// result is in 'randomNumber'

With this version, it is highly improbable that the loop is taken more than once (less than one chance in 2^100, i.e. much less than the probability that the host machine spontaneously catches fire in the next following second). On the other hand, the mod() operation is computationally expensive, so this version is probably slower than the previous, unless the randomSource instance is exceptionally slow.

  • and exactly how slow are Java's typical RNGs? Are any common ones slow enough to justify this extra code? – JeremyKun Jul 29 '11 at 4:32
  • 1
    Java provides a cryptographically secure RNG in java.security.SecureRandom which, on my PC, appears to output a bit more than 4 MBytes of alea per second. This depends on the Java implementation (here Sun/Oracle Java 1.6.0_26), the architecture (Intel Core2, 2.4 GHz, 64-bit mode) and the operating system (Linux). – Thomas Pornin Jul 29 '11 at 12:04
  • 's' in the while condition should be 'temp' i guess. – smotron Feb 7 '19 at 10:48
  • Just made some performance tests using SecureRandom on a Linux system with OpenJDK 8 and and an i7-6700 CPU @ 3.40GHz × 8 processor. According to the test results, the first and therefore easier method is two to three times faster. – smotron Feb 7 '19 at 13:31

The following method uses the BigInteger(int numBits, Random rnd) constructor and rejects the result if it's bigger than the specified n.

public BigInteger nextRandomBigInteger(BigInteger n) {
    Random rand = new Random();
    BigInteger result = new BigInteger(n.bitLength(), rand);
    while( result.compareTo(n) >= 0 ) {
        result = new BigInteger(n.bitLength(), rand);
    return result;

The drawback to this is that the constructor is called an unspecified number of times, but in the worst case (n is just slightly greater than a power of 2) the expected number of calls to the constructor should be only about 2 times.

  • 1
    In the worst case, average number of calls should be around 2, not 1.5: 1 call (always), +1 (0.5 prob.), +1 (0.5*0.5 prob.), +1 (0.5*0.5*0.5 prob.)... this converges on 2, not 1.5. Not that it makes that huge a difference. A more visual description is: there is only one in a million chance that it performs more than twenty random number generations. – Thomas Pornin Feb 19 '10 at 16:29
  • 1
    @Thomas Pornin: I came up with 1.5 because in the worst case there's a 50% chance that you will only need to call the constructor once, a 50% chance that you'll need to call it a second time, then steadily decreasing chance you'll need to call it more times. This doesn't take into account that there is actually a 100% chance that you need to call the constructor the first time, so my error of 0.5 was in the very first term. Thanks for the correction. – Bill the Lizard Feb 19 '10 at 17:45

The simplest approach (by quite a long way) would be to use the specified constructor to generate a random number with the right number of bits (floor(log2 n) + 1), and then throw it away if it's greater than n. In the worst possible case (e.g. a number in the range [0, 2n + 1) you'll throw away just under half the values you create, on average.

  • @Strilanc: Possibly. I'll give you the benefit of the doubt, but I'm too sleepy to verify it right now :) – Jon Skeet Mar 16 '11 at 19:23
  • @Jon, sorry, I didn't find the code. Is it in your computer? thanks! – Felipe Apr 5 '12 at 14:39
  • @FelipeMicaroniLalli: Which bit of "See Bill's answer" isn't clear? The answer by Bill the Lizard, that contains a complete method... – Jon Skeet Apr 5 '12 at 15:29

Why not constructing a random BigInteger, then building a BigDecimal from it ? There is a constructor in BigDecimal : public BigDecimal(BigInteger unscaledVal, int scale) that seems relevant here, no ? Give it a random BigInteger and a random scale int, and you'll have a random BigDecimal. No ?

  • Random scale sounds like a bad idea here. – DJClayworth Feb 4 '11 at 16:39

Here is how I do it in a class called Generic_BigInteger available via: Andy Turner's Generic Source Code Web Page

 * There are methods to get large random numbers. Indeed, there is a
 * constructor for BigDecimal that allows for this, but only for uniform
 * distributions over a binary power range.
 * @param a_Random
 * @param upperLimit
 * @return a random integer as a BigInteger between 0 and upperLimit
 * inclusive
public static BigInteger getRandom(
        Generic_Number a_Generic_Number,
        BigInteger upperLimit) {
    // Special cases
    if (upperLimit.compareTo(BigInteger.ZERO) == 0) {
        return BigInteger.ZERO;
    String upperLimit_String = upperLimit.toString();
    int upperLimitStringLength = upperLimit_String.length();
    Random[] random = a_Generic_Number.get_RandomArrayMinLength(
    if (upperLimit.compareTo(BigInteger.ONE) == 0) {
        if (random[0].nextBoolean()) {
            return BigInteger.ONE;
        } else {
            return BigInteger.ZERO;
    int startIndex = 0;
    int endIndex = 1;
    String result_String = "";
    int digit;
    int upperLimitDigit;
    int i;
    // Take care not to assign any digit that will result in a number larger
    // upperLimit
    for (i = 0; i < upperLimitStringLength; i ++){
        upperLimitDigit = new Integer(
        startIndex ++;
        endIndex ++;
        digit = random[i].nextInt(upperLimitDigit + 1);
        if (digit != upperLimitDigit){
        result_String += digit;
    // Once something smaller than upperLimit guaranteed, assign any digit
    // between zero and nine inclusive
    for (i = i + 1; i < upperLimitStringLength; i ++) {
        digit = random[i].nextInt(10);
        result_String += digit;
    // Tidy values starting with zero(s)
    while (result_String.startsWith("0")) {
        if (result_String.length() > 1) {
            result_String = result_String.substring(1);
        } else {
    BigInteger result = new BigInteger(result_String);
    return result;

Just use modular reduction

new BigInteger(n.bitLength(), new SecureRandom()).mod(n)
  • This is biased (not evenly distributed) and should not be used for cryptographic purposes. – Artjom B. Feb 17 at 19:14

if we want to generate random 70 digits of biginteger we can generate array of byte[70] and fill it with random numbers from 0 to 9 and add 48 to make digit chars and convert the digit chars to biginteger

public BigInteger RandomBigInteger(int digits_len) {
    Random rnd = new Random();
    byte[]num = new byte[digits_len];
    if(digits_len>1){//first digit must not be 0 because 0555 will be 555
        num[0]=(byte)((((int)(rnd.nextFloat()*10))%9)+1+48);//([*10 means] rnd 0-9),([%9 means] 0-8 , [+1 means] 1-9) ,([+48 means] 0->48,1->49)
        for(int i=1;i<num.length;i++){ num[i]=(byte)((((int)(rnd.nextFloat()*10))%10)+48); }//([*10 means] rnd 0-9),([%10 means] 0-9 because rnd may be 1.000*10=10) ,([+48 means] 0->48,1->49)
    }else{//digits_len = 1 , it can be 0-9
        num[0]=(byte)((((int)(rnd.nextFloat()*10))%10)+48);//([*10 means] rnd 0-9),([%10 means] 0-9 because rnd may be 1.000*10=10) ,([+48 means] 0->48,1->49)
    return new BigInteger(new String(num,StandardCharsets.ISO_8859_1),10);//convert the digit chars to biginteger

BigInteger num = RandomBigInteger(5);//num = 12345

Compile this F# code into a DLL and you can also reference it in your C# / VB.NET programs

type BigIntegerRandom() =
    static let internalRandom = new Random()

    /// Returns a BigInteger random number of the specified number of bytes.
    static member RandomBigInteger(numBytes:int, rand:Random) =
        let r = if rand=null then internalRandom else rand
        let bytes : byte[] = Array.zeroCreate (numBytes+1)
        bytes.[numBytes] <- 0uy
        bigint bytes

    /// Returns a BigInteger random number from 0 (inclusive) to max (exclusive).
    static member RandomBigInteger(max:bigint, rand:Random) =
        let rec getNumBytesInRange num bytes = if max < num then bytes else getNumBytesInRange (num * 256I) bytes+1
        let bytesNeeded = getNumBytesInRange 256I 1
        BigIntegerRandom.RandomBigInteger(bytesNeeded, rand) % max

    /// Returns a BigInteger random number from min (inclusive) to max (exclusive).
    static member RandomBigInteger(min:bigint, max:bigint, rand:Random) =
        BigIntegerRandom.RandomBigInteger(max - min, rand) + min
  • 4
    The question is asking about Java – Davy8 Mar 16 '11 at 19:28

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