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I want to store a float value into string without lossing or adding any single precision digits.

For example if my float value is 23.345466467 , I want my string to have str = "23.345466467" exact digits.

I tried using CString format function with %f. Its giving only first 6 precision. or if i use %10 , if my float value is having less than 10 precision,its adding some more junk precision. I want to get exact float value into my string. how to do this?

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That would depend upon whether your float value 23.345466467 is exactly representable (likely not) – Mitch Wheat Dec 16 '10 at 10:57
@Mitch: I was wondering the same thing. What would be the simplest way to check if it is? – Björn Pollex Dec 16 '10 at 11:04
@Mitch Wheat: A float value is always representable as a string as long as the base you convert to is divisible by 2. Of course 23.345466467 is not representable by a float in the first place. – JeremyP Dec 16 '10 at 11:23
Your requirement is as impossible as representing 1/3 exactly as a decimal string. – David Schwartz Jul 11 '14 at 2:52

10 Answers 10

up vote 3 down vote accepted

1st of all: you can't convert floating to string and back without probably loosing a bit or two. As it is not 1-to-1 conversion as they use different base.

For preserving the best accuracy for floating point type:

std::string convert(float value)
  std::stringstream ss;
  ss << std::setprecision(std::numeric_limits<float>::digits10+1);
  ss << value;
  return ss.str();

Or more generic

template<typename FloatingPointType>
std::string convert(FloatingPointType value)
  std::stringstream ss;
  ss << std::setprecision(std::numeric_limits<FloatingPointType>::digits10+1);
  ss << value;
  return ss.str();

It would cut off digits you do not need but keep highest precision possible.

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If i keep highest precision, For example : if i use digits10+10, For the value 213.2352352345345346f ; its returning 213.2352294921875; I didn't understand why the junk digits are coming after 4 digit precision. – Rajesh Subramanian Dec 16 '10 at 11:36
@Rajesh, this is because the number you want cannot be exactly represented by a float see the comments on your question. If it cannot be represented, it simply cannot be represented, there is very little you can do about it! You need to consider another approach, may be integral exponent/mantissa? – Nim Dec 16 '10 at 11:46
Shouldn't this be digits10+2? I wrote a quick test program and only +1 seemed to not allow me to round trip the floating point number through the string. +2 seemed to work for big and small numbers though. – MrSlippers Aug 31 '12 at 17:24
Indeed for float it must be digits10+2 -- see… . – Hugues May 2 '14 at 21:32
This answer is absolutely wrong. Yes, you can convert a float to a string and back without losing "a bit or two". These are computers we are dealing with, not approximations scratched into sand. For float in C/C++ you need to printf with %1.8e or %.9g. When you convert back you will retrieve exactly the same value. The value printed may not match what you see in your debugger, and likely neither represents the exact float value but they identify it uniquely. See my blog post for full details:… – Bruce Dawson Jul 17 '14 at 20:38

That would depend upon whether your float value 23.345466467 is exactly representable (likely not)

What Every Computer Scientist Should Know About Floating-Point Arithmetic

Why Floating-Point Numbers May Lose Precision

I would also question why you need to do this? What are you going to use the string representation for? Are you aware of the double and decimal types?

[Untested: you could try casting to double and then using "%d" Maybe this will pull in the extra 'guard' digits' but it still won't work for all values]

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Thank you for your replies. I want to store the float value into xml, for this purpose i am converting into string. I want to read back the exact float value. My issue is when converting from float to string i am lossing precisions. I want the exact precisions back. How to do this? – Rajesh Subramanian Dec 16 '10 at 11:15
That says what you are doing, but not why. – Mitch Wheat Dec 16 '10 at 11:17
I am reading float value from device.After some point of time i will be writing the same value to device.If a sigle precision changed, the device won't accept it. – Rajesh Subramanian Dec 16 '10 at 11:32
You can store it in 32-bit hex instead if you want 100% precision. Edit: oh, that's exactly what pmg suggested. – Sergey Tachenov Dec 16 '10 at 11:41

C99 supports the %a format in printf that allows to output the contents of a double without loss of precision.

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+1 And the reverse is just plain "%lf" in scanf. – pmg Dec 16 '10 at 12:27

The number of (decimal) digits you need to uniquely represent any float is by definition std::numeric_limits<float>::digits10. The float format cannot distinguish between 0.0 and 0.0000 so this constant is the maximum value you'll ever need.

Now, note that I said uniquely. This is not exact It means that if you write two different binary values, you'll get two different decimal representations. It also means that if you read back such a decimal representation, it cannot be confused with any other value, and therefore you get back the precise same binary value you had before. Usually, those two guarantees are sufficient.

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See the nice detailed discussion in .

The short answer is that the minimum precision is the following:

printf("%1.8e", d);  // Round-trippable float, always with an exponent
printf("%.9g", d);   // Round-trippable float, shortest possible
printf("%1.16e", d); // Round-trippable double, always with an exponent
printf("%.17g", d);  // Round-trippable double, shortest possible

Or equivalently, with a std::ostream& os:

os << scientific << setprecision(8) << d;    // float; always with an exponent
os << defaultfloat << setprecision(9) << d;  // float; shortest possible
os << scientific << setprecision(16) << d;   // double; always with an exponent
os << defaultfloat << setprecision(17) << d; // double; shortest possible
share|improve this answer
Also see this post for more details:… – Bruce Dawson Jul 17 '14 at 20:41

Others have already commented that 23.345466467 does not exist as a float, but if your goal is just round-trip conversion of float values that do exist without accidentally changing their value slightly, you can either use snprintf and strtod with at least DECIMAL_DIG places (POSIX, but not plain ISO C, guarantees this round-trip to be exact) or print the float in hex instead of decimal. C99 has the %a format specifier for printing floats in hex, but if you can't depend on C99, it's easy to write your own. Unlike with decimal, the naive algorithm for printing hex floats works just fine. It goes like:

  1. Scale by a power of 2 to put the value in the range 0x8 <= val < 0x10. This power of 2 becomes the exponent in your result.
  2. Repeatedly remove the integer portion of val and multiply by 0x10 to get the output digits.
  3. When val reaches 0, you're done.

Conversion in the opposite direction is likewise easy.

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Maybe you case use fprintf() (from ) to convert your float into a string. But the precision might be lost immediately after the affectation because 'flaot' and 'double' have a limited precision. Someone must confirm that.

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Is this even intended to be an answer? – Dudeson Jan 1 at 14:24

The best way is to store its binary representation, as suggested by @pgm. However, you could also store it in decimal notation, but with use of period notation, like :


In this way they could be stored somehow "lossless", but it will require very careful coding.

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Are you storing it so that you can re-read it later and use it as a float? Or do you care what the string says? As others have said you need to write the binary representation rather than the base10. Or you can be a little tricky and do something like this

float f=23.345466467
int i=*(int*)&f; //re-interpret the bits in f as an int
cout << i;

and to read it

int i;
cin >> i;
float f=*(float&)&i;

[Standard disclamer about portability and making sure that int and float are the same size on your platform.]

This way you can output the value and read it back in without losing any precision. But it's not human readable when it's being stored.

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In C#, use the "R" numeric formatting string, as in:

float x = 23.345466467f;
string str = x.ToString("R");

Note that "R" is short for "Round-trip". More info on MSDN.

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-1, answer for a totally different language. Doesn't help the OP at all. – MSalters Jul 18 '14 at 11:28
Perhaps not, but it could help someone else who Googles their way onto this page looking for a C# answer (as I did). I was well aware the OP wanted C/C++, so I made it crystal clear what language I was speaking for. – yoyo Jul 19 '14 at 2:44

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