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Is there any straightforward way to get the mantissa and exponent from a double in c# (or .NET in general)?

I found this example using google, but I'm not sure how robust it would be. Could the binary representation for a double change in some future version of the framework, etc?

The other alternative I found was to use System.Decimal instead of double and use the Decimal.GetBits() method to extract them.

Any suggestions?

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2 Answers 2

up vote 22 down vote accepted

The binary format shouldn't change - it would certainly be a breaking change to existing specifications. It's defined to be in IEEE754 / IEC 60559:1989 format, as Jimmy said. (C# 3.0 language spec section 1.3; ECMA 335 section 8.2.2). The code in DoubleConverter should be fine and robust.

For the sake of future reference, the relevant bit of the code in the example is:

public static string ToExactString (double d)

    // Translate the double into sign, exponent and mantissa.
    long bits = BitConverter.DoubleToInt64Bits(d);
    // Note that the shift is sign-extended, hence the test against -1 not 1
    bool negative = (bits < 0);
    int exponent = (int) ((bits >> 52) & 0x7ffL);
    long mantissa = bits & 0xfffffffffffffL;

    // Subnormal numbers; exponent is effectively one higher,
    // but there's no extra normalisation bit in the mantissa
    if (exponent==0)
    // Normal numbers; leave exponent as it is but add extra
    // bit to the front of the mantissa
        mantissa = mantissa | (1L<<52);

    // Bias the exponent. It's actually biased by 1023, but we're
    // treating the mantissa as m.0 rather than 0.m, so we need
    // to subtract another 52 from it.
    exponent -= 1075;

    if (mantissa == 0) 
        return "0";

    /* Normalize */
    while((mantissa & 1) == 0) 
    {    /*  i.e., Mantissa is even */
        mantissa >>= 1;


The comments made sense to me at the time, but I'm sure I'd have to think for a while about them now. After the very first part you've got the "raw" exponent and mantissa - the rest of the code just helps to treat them in a simpler fashion.

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If I understand the spec correctly, there are two forms of the format, a normalized version and an un-normalized version. the bulk of the code handles converting the unnormalized mantissa/exponent to normalized form – Jimmy Dec 23 '08 at 21:06
I don't get the "subtract another 52" part. What's going on there? – Jay R. Oct 5 '10 at 17:59
@Jay R: It's slightly hard to explain, to be honest - the comment does about as good a job as I can think of. I guess it's easiest to give an example, but I'm afraid my brain is frazzled at the moment :( – Jon Skeet Oct 5 '10 at 18:06
Now that I've thought more about it, I get the 1075. 1023 plus 52 shifts to bring the mantissa from a very large number * 2^exponent to a small number. – Jay R. Oct 5 '10 at 22:47
@JonSkeet Could you at some time check out my question here (… )? I'm currently using part of this code and seem to be missing something. – Daniel Jul 24 '13 at 11:49

the representation is a IEEE standard and (probably) shouldn't change.

EDIT: The reason why decimal has a getBits and double does not is that decimal preserves significant digits. 3.0000m == 3.00m but the exponents/mantissas are actually different. I think floats/doubles are uniquely represented.

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A double does not necessarily have to be 64-bits in C/C++. I've worked on several systems where it is 32-bits (i.e. the same as a float). Is C# different? – Judge Maygarden Dec 23 '08 at 20:33
yes, it is defined in the spec as 64 bits. that's a good point about the double (and long/int/long long ) fiasco in C/C++ – Jimmy Dec 23 '08 at 20:36
@Jimmy when (or if) C# would support at least half platforms that C/C++ support then you can say something about fiasco in C/C++. – Slava Apr 19 '13 at 17:53

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