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I need to represent single precision numbers as text in a way that won't lose any information (so I can get the same number back, possibly disregarding NaNs etc.), but without too many spurious digits - so single precision 0.1 comes out as "0.1" not "0.100000001490116".

I'm not trying to save bytes, these extra digits are just confusing.

Is there a simple way to do that? I can see at least 8 significant decimal digits will be needed to represent 23+1 bits (12345678.0 and 12345679.0 are different in single precision), and that it would be enough with binary exponent (12345b-11 sort of notation) but is this guaranteed to be enough decimal exponent notation (1.2345e+6) or one that uses 0-padding (0.0000123456 - usually more readable, and these zeroes don't bother me much)?

Any printf formats, or exact instructions much appreciated.

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Are you aware that 0.1 cannot be represented exactly with (binary) floating-point numbers? If you create a float from 0.1, you can't get 0.1 out again, unless you round. –  Michael Petrotta Oct 2 '10 at 7:58
    
Or are you considering an alternative to using an inbuilt floating-point type? If all you're trying to do is represent decimal numbers exactly (within a given range), consider the decimal floating-point types available in your language of choice. –  Michael Petrotta Oct 2 '10 at 8:08
    
You totally misunderstood the question - it is about representing single precision IEEE 754 floating point numbers as textual decimals, NOT the other way around you misread it to be. "0.1" is a perfectly valid representation for floating point number normally encoded as 3D CC CC CD, as would be "1.0e-1", "0.100000002", "0.09999999842", and many other formatted strings. Floating point number normally encoded as 3D CC CC CD mathematically equals exactly 0.100000001490116119384765625 (0xCCCCCD * 2**-27), but that would be very inconvenient notation. –  taw Oct 2 '10 at 10:50
    
You're looking for a roundtrip representation, right? My recommendation stands (use decimal floating-point rather than binary), though I understand it might not be feasible in your case. Otherwise, you have an essentially impossible task - how will you know if your representation is "correct"? Or are you retaining the original decimal representation of the number? –  Michael Petrotta Oct 2 '10 at 20:29
    
Again, I am not. Data is already there, it's single precision floats, and that's it. Everything else is user interface. –  taw Oct 3 '10 at 17:01

1 Answer 1

up vote 3 down vote accepted

Doing this right is a very non-trivial task: the problem is the subject of multiple academic papers.

Many open source projects use David M. Gay's dtoa.c library for this. If you use Python, dtoa.c-based rounding was recently (2.7/3) released, and the discussion on the relevant task discussion is very worthwhile:

If you want to know (lots) more:

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Ouch, this looks a lot messier than I expected. Fortunately I don't need perfect representation every time, so I'll just try low-precision conversion with "%g", and if it doesn't convert back to correct answer I'll fall back to standard library code with all spurious digits. –  taw Oct 2 '10 at 11:33

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