I know the following behavior is an old problem, but still I don't understand.

System.out.println(0.1 + 0.1 + 0.1);    

Or even though I use BigDecimal

System.out.println(new BigDecimal(0.1).doubleValue()
    + new BigDecimal(0.1).doubleValue()
    + new BigDecimal(0.1).doubleValue());

Why this result is: 0.30000000000000004 instead of: 0.3?

How can I solve this?


What you actually want is

new BigDecimal("0.1")
 .add(new BigDecimal("0.1"))
 .add(new BigDecimal("0.1"));

The new BigDecimal(double) constructor gets all the imprecision of the double, so by the time you've said 0.1, you've already introduced the rounding error. Using the String constructor avoids the rounding error associated with going via the double.

  • thanks for all! Now... I can understand that. ´ // IT WORKS FOR MY PROBLEM Double value= 0.1d; BigDecimal total = new BigDecimal("0.0"); for (int i = 0; i < 9; i++) { total = total.add(new BigDecimal(value.toString())); } System.out.print(total); // DON'T WORK System.out.print(0.1d + 0.1d + 0.1d); // DON'T WORK System.out.println(new BigDecimal(0.1).add(new BigDecimal(0.1)).add(new BigDecimal(0.1))); // IT WORKS System.out.println(new BigDecimal("0.1").add(new BigDecimal("0.1")).add(new BigDecimal("0.1"))); // IT WORKS, BUT WITH LESS PRECISION System.out.println(0.1f + 0.1f + 0.1f); ` – Jefferson Mar 21 '12 at 14:11
  • A slight correction: "imprecision of the double" - this is technically not true. The double can perfectly represent 0.1 - with a mantissa of 1 and an exponent of -1. It's the conversion of a double to a BigDecimal that converts the floating point representation to a normal binary representation somewhere along the way. This is why the double constructor is flawed. – theeggman85 Jul 27 '15 at 22:02
  • 2
    Um, what? No, it can't. 0.1 cannot be represented as a fraction in binary, period, which is how doubles are represented. A mantissa of 1 and an exponent of -1 gets you 0.5. – Louis Wasserman Jul 27 '15 at 22:03
  • You're right, my bad. I was reading the binary representation of a double incorrectly. – theeggman85 Jul 30 '15 at 17:14

First never, never use the double constructor of BigDecimal. It may be the right thing in a few situations but mostly it isn't

If you can control your input use the BigDecimal String constructor as was already proposed. That way you get exactly what you want. If you already have a double (can happen after all), don't use the double constructor but instead the static valueOf method. That has the nice advantage that we get the cannonical representation of the double which mitigates the problem at least.. and the result is usually much more intuitive.


This is not a problem of Java, but rather a problem of computers generally. The core problem lies in the conversion from decimal format (human format) to binary format (computer format). Some numbers in decimal format are not representable in binary format without infinite repeating decimals.

For example, 0.3 decimal is 0.01001100... binary But a computer has a limited "slots" (bits) to save a number, so it cannot save all the whole infinite representation. It saves only 0.01001100110011001100 (for example). But that number in decimal is no longer 0.3, but 0.30000000000000004 instead.


Try this:

BigDecimal sum = new BigDecimal(0.1).add(new BigDecimal(0.1)).add(new BigDecimal(0.1));

EDIT: Actually, looking over the Javadoc, this will have the same problem as the original. The constructor BigDecimal(double) will make a BigDecimal corresponding to the exact floating-point representation of 0.1, which is not exactly equal to 0.1.

This, however, gives the exact result, since integers CAN always be expressed exactly in floating-point representation:

BigDecimal one = new BigDecimal(1);
BigDecimal oneTenth = one.divide(new BigDecimal(10));

BigDecimal sum = oneTenth.add(oneTenth).add(oneTenth);
  • 6
    NEVER use the double constructor for big decimal (well there may be some rare situations, but really it's a bad idea). If you can, use the string constructor (that will be exact), if you already have a double use valueOf as that way we don't get additional bogus precision... – Voo Mar 20 '12 at 23:33

The problem you have is that 0.1 is represented with a slightly higher number e.g.

System.out.println(new BigDecimal(0.1));



The Double.toString() takes into account this representation error so you don't see it.

Similarly 0.3 is represented by a value slightly lower than it really is.


If you multiply the represented value of 0.1 by 3 you don't get the represented value for 0.3, you instead get something a little higher


This is not just a representation error but also a rounding error caused by the operations. This is more than the Double.toString() will correct and so you see the rounding error.

The moral of the story, if you use float or double also round the solution appropriately.

double d = 0.1 + 0.1 + 0.1;
double d2 = (long)(d * 1e6 + 0.5) / 1e6; // round to 6 decimal places.



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