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Is there a way to get a string showing the exact value of a double, with all the decimal places needed to represent its precise value in base 10?

For example (via Jon Skeet and Tony the Pony), when you type

double d = 0.3;

the actual value of d is exactly


Every binary floating-point value (ignoring things like infinity and NaN) will resolve to a terminating decimal value. So with enough digits of precision in the output (55 in this case), you can always take whatever is in a double and show its exact value in decimal. And being able to show people the exact value would be really useful when there's a need to explain the oddities of floating-point arithmetic. But is there a way to do this in C#?

I've tried all of the standard numeric format strings, both with and without precision specified, and nothing gives the exact value. A few highlights:

  • d.ToString("n55") outputs 0.3 followed by 54 zeroes -- it does its usual "round to what you probably want to see" and then tacks more zeroes on the end. Same thing if I use a custom format string of 0.00000...
  • d.ToString("r") gives you a value with enough precision that if you parse it you'll get the same bit pattern you started with -- but in this case it just outputs 0.3. (This would be more useful if I was dealing with the result of a calculation, rather than a constant.)
  • d.ToString("e55") outputs 2.9999999999999999000000000000000000000000000000000000000e-001 -- some of the precision, but not all of it like I'm looking for.

Is there some format string I missed, or some other library function, or NuGet package or other library, that is able to convert a double to a string with full precision?

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marked as duplicate by Scott Chamberlain, ken2k, rene, Stephan Bauer, Nikos Paraskevopoulos Mar 5 '14 at 15:37

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

You could use John Skeet's DoubleConverter class: yoda.arachsys.com/csharp/DoubleConverter.cs See this answer: stackoverflow.com/a/1658420/1445661 –  mao47 Mar 5 '14 at 14:24
The question I have to ask is: What do you need this for? If you explain what you want it for perhaps we can give you a better approach at getting it. –  Scott Chamberlain Mar 5 '14 at 14:25
The data past the 16th significant digit is needed to exactly represent the binary value of the double. That binary value follows some combination of language and IEEE floating point standard rules. Seeing those digits is important for understanding floating point behavior and rounding. In Java, I would do it by converting to BigDecimal, whose default toString produces its exact value. –  Patricia Shanahan Mar 5 '14 at 14:25
Seeing mao47's comment, the linked question is kind of a duplicate and the answer is spot on for this question. There is no way to do it natively in .NET, you have to do like Jon Skeet's library and get the bits from BitConverter and parse out the double by hand. –  Scott Chamberlain Mar 5 '14 at 14:28
It is a meaningless string of digits that no human would ever want to look at. You can get a much shorter one with BitConverter.DoubleToInt64Bits().ToString() –  Hans Passant Mar 5 '14 at 14:42

2 Answers 2

You could try using # placeholders if you want to suppress trailing zeroes, and avoid scientific notation. Though you'll need a lot of them for very small numbers, e.g.:

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That won't work, the .NET framework pre-rounds before the formatter is applied. –  Scott Chamberlain Mar 5 '14 at 14:35

I believe you can do this, based on what you want to accomplish with the display:

Consider this:

Double myDouble = 10/3;


Your output will be:


See this link for why: http://msdn.microsoft.com/en-us/library/kfsatb94(v=vs.110).aspx

By default, the return value only contains 15 digits of precision although a maximum of 17 digits is maintained internally. If the value of this instance has greater than 15 digits, ToString returns PositiveInfinitySymbol or NegativeInfinitySymbol instead of the expected number. If you require more precision, specify format with the "G17" format specification, which always returns 17 digits of precision, or "R", which returns 15 digits if the number can be represented with that precision or 17 digits if the number can only be represented with maximum precision.

You can also do:


That will discard the 16th and 17th noise digits, and return the following:


If you're looking to display the actual variable value as a number, you'll likely want to use "G17". If you're trying to display a numerical value being used in a calculation with high precision, you'll want to use "n16".

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This is not what the OP wants, I fell in to the same mental thinking too at first and made a comment similar to your answer but then deleted it. –  Scott Chamberlain Mar 5 '14 at 14:24

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