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I notice some issues with the Java float precision

       Float.parseFloat("0.0065") - 0.001  // 0.0055000000134110451
       new Float("0.027") - 0.001          // 0.02600000000700354575
       Float.valueOf("0.074") - 0.001      // 0.07399999999999999999

I not only have a problem with Float but also with Double.

Can someone explain what is happening behind the scenes, and how can we get an accurate number? What would be the right way to handle this when dealing with these issues?

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up vote 20 down vote accepted

The problem is simply that float has finite precision; it cannot represent 0.0065 exactly. (The same is true of double, of course: it has greater precision, but still finite.)

A further problem, which makes the above problem more obvious, is that 0.001 is a double rather than a float, so your float is getting promoted to a double to perform the subtraction, and of course at that point the system has no way to recover the missing precision that a double could have represented to begin with. To address that, you would write:

float f = Float.parseFloat("0.0065") - 0.001f;

using 0.001f instead of 0.001.

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+1 for mentioning that 0.001 is a double. – Richard JP Le Guen Oct 5 '12 at 19:15
by saying "float is getting promoted to a double" does it mean the compiler cast it to double internally ? does it promote float to double unconditionally whenever we use it with double for calculation ? – peter Oct 6 '12 at 1:57
@user1389813: Yes. According to §5.6.2 "Binary Numeric Promotion" of The Java Language Specification (Java SE 7 Edition)‌​, there are various numeric operators, including -, with the property that both of their operands will be converted to the same type in order to perform the calculation. One of the conversion rules is, "If either operand is of type double, the other is converted to double." – ruakh Oct 6 '12 at 13:46
Why does double have the highest priority ? is it because it's 64 bits ? because i see double -> float -> long -> int , and what about short ? – peter Oct 7 '12 at 13:00
@user1389813: double has the highest priority because, with the exception of long, every other numeric type can be converted to double without losing information (though also, obviously, without recovering any information that's previously been lost). In the case of long, it's more complex, but in general you'll lose less information converting from long to double than vice versa -- especially since most possible values of double are well outside the range of long. – ruakh Oct 7 '12 at 13:15

See What Every Computer Scientist Should Know About Floating-Point Arithmetic. Your results look correct to me.

If you don't like how floating-point numbers work, try something like BigDecimal instead.

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You're getting the right results. There is no such float as 0.027 exactly, nor is there such a double. You will always get these errors if you use float or double.

float and double are stored as binary fractions: something like 1/2 + 1/4 + 1/16... You can't get all decimal values to be stored exactly as finite-precision binary fractions. It's just not mathematically possible.

The only alternative is to use BigDecimal, which you can use to get exact decimal values.

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so i am wondering how do we deal with something like Float.valueOf("0.074") // 0.07399999999999999999 and then times 1000 to that. Will i get back 74 ? or do i need to do a roundup every time ? – peter Oct 5 '12 at 18:38
@user1389813, if you use BigDecimal you can alleviate a majority of those concerns. – kurtzbot Oct 5 '12 at 18:41
You can't just multiply by 1000 and get the right answer. (You might get the right answer, depending on rounding behavior, or you might not.) You must use BigDecimal if you don't want these problems. – Louis Wasserman Oct 5 '12 at 18:44
-1 - new Float("0.027") - 0.001F will return .026. The problem isn't the specific values they're using (0.027) but rather that they're mixing a float value (new Float("0.027")) with a double value (the literal 0.001). See my answer, and @ruakh's answer, below. – Richard JP Le Guen Oct 5 '12 at 19:03
Doubles will still have the same rounding problems eventually. – Louis Wasserman Oct 5 '12 at 20:51

From the Java Tutorials page on Primitive Data Types:

A floating-point literal is of type float if it ends with the letter F or f; otherwise its type is double and it can optionally end with the letter D or d.

So I think your literals (0.001) are doubles and you're subtracting doubles from floats.

Try this instead:

System.out.println((0.0065F - 0.001D)); // 0.005500000134110451
System.out.println((0.0065F - 0.001F)); // 0.0055

... and you'll get:


So add F suffixes to your literals and you should get better results:

Float.parseFloat("0.0065") - 0.001F
new Float("0.027") - 0.001F
Float.valueOf("0.074") - 0.001F
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i am wondering what happen to System.out.println((0.0065F - 0.001D)); ? – peter Oct 5 '12 at 21:04
You get 0.005500000134110451; try it. I edited it to make that clearer. – Richard JP Le Guen Oct 5 '12 at 21:31
Yep I tried it, but why does it end up like that when D-F so as F-D ? – peter Oct 6 '12 at 1:56
I don't understand what you mean. – Richard JP Le Guen Oct 6 '12 at 3:34
I mean does it always have a long decimal floating whenever you mix type ? like double subtracts float or float subtracts double ? – peter Oct 6 '12 at 4:19

I would convert your float to a string and then use BigDecimal.

This link explains it well

new BigDecimal(String.valueOf(yourDoubleValue));

Dont use the BigDecimal double constructor though as you will still get errors

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Long story short if you require arbitrary precision use BigDecimal not float or double. You will see all sorts of rounding issues of this nature using float.

As an aside be very careful not to use the float/double constructor of BigDecimal because it will have the same issue. Use the String constructor instead.

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Floating point cannot accurately represent decimal numbers. If you need an accurate representation of a number in Java, you should use the java.math.BigDecimal class:

BigDecimal d = new BigDecimal("0.0065");
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