Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have a double with 17 digits after the decimal point, i.e.:

double myDouble = 0.12345678901234567;

If I convert this to a decimal like this:

decimal myDecimal = Convert.ToDecimal(myDouble);

then the value of myDecimal is rounded, as per the Convert.ToDecimal documentation, to 15 digits (i.e. 0.0123456789012345). My question is, why is this rounding performed?

I understand that if my original number could be accurately represented in base 10 and I was trying to store it as a double, then we could only have confidence in the first 15 digits. The final two digits would be subject to rounding error. But, that's a base 10 biased point of view. My number may be more accurately represented by a double and I wish to convert it to decimal while preserving as much accuracy as possible.

Shouldn't Convert.ToDecimal aim to minimise the difference between myDouble and (double)Convert.ToDecimal(myDouble)?

share|improve this question
Perhaps for consistency with double.ToString+decimal.Parse –  CodesInChaos Dec 10 '13 at 13:06
Check out stackoverflow.com/questions/6840681/… if you are interested in creating a "round-tripable" decimal value. –  Rick Regan Dec 11 '13 at 18:59
You are making a measurement where accuracy to one part in a quadrillion is relevant? Are you running the Large Hadron Collider here? This is a quantity so small as to not warrant stressing out about. The error bar on whatever measurement you are representing in this double is likely to be literally millions of times larger than the rounding error. –  Eric Lippert Dec 11 '13 at 23:49
@EricLippert I'm getting a max and min from an SDK behind a C interface (hence double). My system stores these internally as decimals. When I try to set these values in the SDK they need to be within the max-min range. I'm not stressing out about the accuracy, but that doesn't stop the SDK from returning out of range. –  eoinmullan Dec 12 '13 at 10:11

4 Answers 4

up vote 6 down vote accepted

From the documentation of Double:

A Double value has up to 15 decimal digits of precision, although a maximum of 17 digits is maintained internally

So, as the double value itself has a maximum of 15 decimal places, converting it to Decimal will result in a Decimal value with 15 significant figures.

share|improve this answer
Different values of double have differing numbers of significant digits when rendered in decimal form, depending upon whether they are just over or just under a power of ten, and just over or just under a power of two. Values in the range 1000-1023.9, for example, are separated by 1.137E-12, while values in the range 8192 to 9999.9 are separated by 1.819E-11; there is thus more than a decimal digit's worth of difference in the relative precisions of values in those ranges even though they have (in decimal) the same order of magnitude. –  supercat Dec 11 '13 at 22:22

The behavior of the rounding guarantees that conversion of any Decimal which has at most fifteen significant figures to double and back to Decimal will yield the original value unchanged. If values were rounded to sixteen figures rather than fifteen, such a guarantee would not only fail to hold for number with sixteen figures, but it wouldn't even hold for much shorter values. For example, the closest Double value to 9000.04 is approximately 9000.040000000000873115; rounding that to sixteen figures would yield 9000.040000000001.

The choice of rounding one should use depends upon whether regards the best Decimal value of double value 9000.04 as being 9000.04m, 9000.040000000001m, 9000.0400000000008731m, or perhaps something else. Microsoft probably decided that any representation other than 9000.04m would be confusing.

share|improve this answer

The following is from the documentation of the method in question.


"The Decimal value returned by this method contains a maximum of 15 significant digits. If the value parameter contains more than 15 significant digits, it is rounded using rounding to nearest.

share|improve this answer
That's a tautology. It rounds because it's specified to round. Doesn't really answer the why. –  CodesInChaos Dec 10 '13 at 13:06
That's just saying what it does, not why it does it... –  Chris Dec 10 '13 at 13:06
Team, this isn't answerable unless you talked to the designers of the language. This is the only acceptable answer. It works like this because it does. –  Michael Perrenoud Dec 10 '13 at 13:15
@MichaelPerrenoud: While it is possible that the team decided to implement the behavior they did because their astrologer told them to, I suspect their decision probably has more to do with the fact that the value of a double like 9999.04 is closer to 9000.040000000001m than to 9000.04m. If one wants double values which are supposed to represent power-of-ten fractions to appear as the fractions they are supposed to represent, rounding to fifteen digits will make that happen; rounding to sixteen won't. –  supercat Dec 11 '13 at 22:03
@MichaelPerrenoud: One could add logic that would say that the closest double value to every decimal fraction with fifteen or fewer significant figures should be rounded to fifteen digits, with other double values rounding differently, but that would introduce non-linearities in the conversion which would likely be more harmful than rounding. –  supercat Dec 11 '13 at 22:06

Every terminating binary fraction is exactly representable as a decimal fraction, so the minimum possible difference for a finite number is always 0. The IEEE 754 64-bit representation of your number is exactly equal to 0.1234567890123456634920984242853592149913311004638671875

Every conversion from binary floating point to decimal or decimal string must embody some decision about rounding. In theory, they could preserve all the digits, but that would result in some very long outputs with most of the digits having little meaning.

One option, used in Java's Double.toString, is to stop at the shortest decimal representation that would convert back to the original double.

Most set some fairly arbitrary limit. 15 significant digits preserves most meaningful digits.

share|improve this answer
The limit is not arbitrary. The value of (double)8.3 is roughly 8.300000000000000711, which, rounded to 16 significant figures, would be 8.300000000000001. It might have been possible to say that a double value should round to 16 decimal figures except when a shorter decimal representation would suffice to uniquely identify it, but that would have created some non-uniformities in the worst-case rounding error. Better might have been to say that values whose most-significant digit is 0-3 will be rounded to the nearest 16-places value... –  supercat Dec 16 '13 at 16:35
...and those whose most significant digit is 4-7 will be rounded to the nearest even 16-places value. That would have meant that instead of rounding error going up tenfold between 9.999... and 10.0, it would double between 3.9999... and 4.000, and only go up fivefold between 9.999... and 10.0. –  supercat Dec 16 '13 at 16:37

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.