I have read this - Why Are Floating Point Numbers Inaccurate?

So, sometimes precision can be changed in floating point number because of its representation style (scientific notation with an exponent and a mantissa).

But if I cast an integer value to double, is there any chance to change the precision of double slightly in Java?

I mean,

    int i = 3;
    double d = (double) i;


the output I got 3.0 as I expected.

but, is there any chance of being precision changed like 3.000001 because of representation style of double in Java?


Not for int to double, but you might for long to double (or int to float):

  • Not all longs greater than 2^53-1 (or less than -2^53) can be represented exactly by a double;
  • Not all ints greater than 2^24-1 (or less than -2^24) can be represented exactly by a float.

This restriction comes about because of the number of bits used to represent the mantissa (53 in doubles, 24 in floats).

  • 4
    @Ben such a simple check might be misleading: you might have happened to pick Integer.MIN_VALUE to test this out, and you would have found that Integer.MIN_VALUE can be exactly represented as a float and as a double. It just so happens that it works for Integer.MAX_VALUE. – Andy Turner Jun 6 '18 at 9:00
  • 1
    The "quick check" approach can be resurrected by always testing a number and its successor. Iff there is an overflow problem in the tested range, only one of them can be represented exactly. For a more explicit check, try something along these lines: long num = (long) Math.pow(2,53); System.out.println(num == (long) (double) num); System.out.println((num+1) == (long) (double) (num+1)); System.out.println(num == (long) (double) (num+1)); – arne.b Jun 6 '18 at 11:01
  • 3
    It only takes one exception to prove a "rule" to be false. Just because Integer.MAX_VALUE 'just' happens to work doesn't make it unreliable for proving the case – Baldrickk Jun 6 '18 at 12:59
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    Note: 2^24 and 2^53 are representable (in both float and double), The first unrepresentable integer in a float is 2^24+1 and the first unrepresentable integer in double is 2^53+1 – plugwash Jun 6 '18 at 15:16
  • 1
    What you can do is check odd numbers, if an odd number is representable than all smaller (closer to zero) odd numbers are as well. – plugwash Jun 6 '18 at 21:00

You can iterate over i until you find a 2**i double which is equal to 2**i + 1:

import java.util.stream.IntStream;

public class PrecisionLoss
    public static void main(String[] args) {
        double epsilon = 1;
        Integer maxInt = IntStream.iterate(0, i -> i + 1)
                .filter(i -> Math.pow(2, i) == Math.pow(2, i) + epsilon)
        System.out.println("Loss of precision is greater than " + epsilon
                + " for 2**" + maxInt + " when using double.");

It outputs:

Loss of precision is greater than 1.0 for 2**53 when using double.

Which confirms the accepted answer.

Note that in Javascript, there is no integer type and doubles are used instead (they are called Numbers). If they are large enough, consecutive Numbers can be equal to each other.

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