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Entering a value such as 27.8675309 into the "Decimal representation" field of the IEEE 754 Converter changes the value I entered to 27.86753. Likewise, Java drops the last two digits when a parse a string with the same value.

Float.parseFloat("27.8675309") // Results in a float value of 27.86753

I am not sure what the "Decimal representation" of the IEEE converter actually is (is it a float?) but I would expect it to give me the biggest number possible that:

  1. Is a float value
  2. Does not exceed the original value I entered

I would expect Java to behave in a similar fashion, that is, I would expect the line of code above to return a float value equal to 27.8675308 or an even larger float value that is closer to my original input instead of just dropping decimal places. What am I missing here?

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Perhaps double is a better choice than float if you need more precision. –  Peter Lawrey Jan 31 '12 at 17:37
@typoknig Is the "8675309" a coincidence or from that hit 80's song? –  Rick Regan Feb 21 '12 at 14:56
No coincidence :-) –  ubiquibacon Feb 22 '12 at 11:54

2 Answers 2

up vote 9 down vote accepted

This is as expected.

If you look at the binary representation of 27.8675309 (27.867530822753906 as a double):


the next highest value is:


which yields 27.867533 (27.86753273010254 as a double), and the next lowest value is:


which yields 27.867529 (27.867528915405273 as a double)

There simply aren't enough bits in the mantissa of a Float to represent any value in between, so your value is rounded down in decimal to 27.867530

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The first two binary numbers are identical, but I think I see what you are saying. –  ubiquibacon Jan 31 '12 at 17:30
oops - corrected! –  Alnitak Jan 31 '12 at 17:31
Also, just so I am clear, this isn't a matter of running out of decimal places, it is a matter of no more bits for the exponent and/or mantissa of the float, correct? Some other float value could have more than 5 decimal places right? –  ubiquibacon Jan 31 '12 at 17:33
@typoknig it's not more bits for the mantissa - this number is small enough that the exponent doesn't matter. And yes, smaller numbers could have more than five decimal places, but no more than 7 or 8 significant digits. –  Alnitak Jan 31 '12 at 17:36
@Alnitak 27.8675309 rounded to 24 bits = 11011.11011110000101101 = 27.86753082275390625. Rounded to 8 decimal digits, that's 27.867531, not 27.867530. To 7 digits, it's 27.86753, but then so are both the prev float (27.8675289154052734375) and the next float (27.8675327301025390625). Why is h-schmidt.net/FloatApplet/IEEE754.html rounding 27.8675309 to 7 digits, but prev and next to 8? –  Rick Regan Feb 21 '12 at 15:17

As Alnitak mentioned, you've run out of bits. You could use Double for higher precision, though. Double implements 64-bit IEEE 754 floating point whereas Float implements 32-bit IEEE 754 floating point.

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