# How to generate a random BigInteger value in Java?

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
• 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.

• 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
• @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(
upperLimitStringLength);
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(
upperLimit_String.substring(startIndex,endIndex));
startIndex ++;
endIndex ++;
digit = random[i].nextInt(upperLimitDigit + 1);
if (digit != upperLimitDigit){
break;
}
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 {
break;
}
}
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)
r.NextBytes(bytes)
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
``````
• The question is asking about Java – Davy8 Mar 16 '11 at 19:28