Why does new BigDecimal("0.015").compareTo(new BigDecimal(0.015)) return -1? If I expect those two to be equal, is there an alternative way to compare them?

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    Check out this post: stackoverflow.com/questions/6058984/… – MFazio23 Sep 28 '15 at 20:37
  • Would be better to make use of new BigDecimal("0.015"). For the reason that @Reimeus pointed on in his answer. – Nicholas Robinson Sep 28 '15 at 20:38
  • You could do the comparison the same way you would compare two doubles that resulted from different calculations - accept as equal anything that is close enough, for the purposes of your program. – Patricia Shanahan Sep 28 '15 at 20:47
  • because 0.015 is already not 0.015 when it is passed to BigDecimal, while "0.015" is parsed by BigDecimal itself. – njzk2 Sep 28 '15 at 22:01

A double cannot exactly represent the value 0.015. The closest value it can represent in its 64 binary bits is 0.01499999999999999944488848768742172978818416595458984375. The constructor new BigDecimal(double) is designed to preserve the precise value of the double argument, which can never be exactly 0.015. Hence the result of your comparison.

However, if you display that double value, for example by:


it outputs 0.015 – which hints at a workaround. Converting a double to a String chooses the shortest decimal representation needed to distinguish it from other possible double values.

Thus, if you create a BigDecimal from the double's String representation, it will have a value more as you expect. This comparison is true:

new BigDecimal(Double.toString(0.015)).equals(new BigDecimal("0.015"))

In fact, the method BigDecimal.valueOf(double) exists for exactly this purpose, so you can shorten the above to:

BigDecimal.valueOf(0.015).equals(new BigDecimal("0.015"))

You should use the new BigDecimal(double) constructor only if your purpose is to preserve the precise binary value of the argument. Otherwise, call BigDecimal.valueOf(double), whose documentation says:

This is generally the preferred way to convert a double (or float) into a BigDecimal.

Or, use a String if you can and avoid the subtleties of double entirely.


Due to the imprecise nature of floating point arithmetic, they're not exactly equal

System.out.println(new BigDecimal(0.015));


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    you should not expect them to be equal. whenever you use floating point arithmetic you should be aware that these kind of errors will occur. – vonPetrushev Sep 28 '15 at 20:39
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    @Glide: If you expect new BigDecimal(0.015) to be equal to new BigDecimal("0.015"), then you should expect to be wrong, and you should expect that you'll have to expect something different. – Louis Wasserman Sep 28 '15 at 20:44
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    @LouisWasserman Er.....I (as a non-Java programmer and thus an outsider) was under the impression that the entire point of BigDecimal is to accurately represent decimal numbers. Heck, the documentation even says arbitrary precision decimal numbers! If 0.015 is not represented in a unique way, how the heck is the BigDecimal class supposed to be useable?? – Kyle Strand Sep 28 '15 at 21:05
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    @KyleStrand: The point is that you have to pass decimal numbers in, and writing new BigDecimal(0.015) stores 0.015 as a double -- not a decimal number -- before it even gets to BigDecimal. You have to pass it in as a String. – Louis Wasserman Sep 28 '15 at 21:15
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    I guess my only complaint, then, is that BigDecimal even provides a constructor from double in the first place. – Kyle Strand Sep 28 '15 at 21:31

To expand on the answer from @Reimeus, the various constructors for BigDecimal accept different types of input. The floating point constructors, take a floating point as input, and due to the limitations of the way that floats/doubles are stored, these can only store accurately values that are a power of 2.

So, for example, 2⁻², or 0.25, can be represented exactly. 0.875 is (2⁻¹ + 2⁻² + 2⁻³), so it can also be represented accurately. So long as the number can be represented by a sum of powers, where the upper and lower power differ by no more than 53, then the number can be represented exactly. The vast majority of numbers don't fit this pattern!

In particular, 0.15 is not a power of two, nor is it the sum of a power of two, and so the representation is not accurate.

The string constructor on the other hand does store it accurately, by using a different format internally to store the number. Hence, when you compare the two, they compare as being different.

  • More correctly, "integer multiples of powers of two". 0.75 can be represented exactly. – Patricia Shanahan Sep 28 '15 at 20:44
  • As long as the integer is < 2^53... – Louis Wasserman Sep 28 '15 at 20:45
  • @PatriciaShanahan Fair enough… I'll update the answer. – Paul Wagland Sep 28 '15 at 20:46

What actually happens here is this:

  • 0.015 is a primitive double. Which means that as soon as you write it, it is already no longer 0.015, but rather 0.0149.... The compiler stores it as a binary representation in the bytecode.
  • BigDecimal is constructed to store exactly whatever is given to it. In this case, 0.0149...
  • BigDecimal is also able to parse Strings into exact representations. In this case "0.015" is parsed into exactly 0.015. Even though double cannot represent that number, BigDecimal can
  • Finally, when you compare them, you can see that they are not equal. Which makes sense.

Whenever using BigDecimal, be cautious of the previously used type. String, int, long will remain exact. float and double have the usual precision caveat.

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