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I am aware that the string 2.34 would never be equal to the double 2.34. No matter what library or algorithm you tried (lexical_cast,atof). Also 2.3400 can not be represented as double type. Instead it will be equal to 2.3399999999999999 . A little background I am working on an application that passes of values to an external application using its api. Think of it as some sort of a trading application. The user can pass values using the applications api or the user can pass value by using the application directly.Now when the user uses the application directly and the user types in 2.34 the value is processed as 2.34 however when I use the API which requires double as a parameter I pass 2.34 and it passes of as 2.3399999999999999 which is not acceptable. My question is how would the application be handling this and is there a way to store 2.34000.. in a double so that I could pass it to an API ?

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If you need to pass decimal values through an API which takes double but you need to get the exact values, there isn't much of a problem: As long as you don't use more than std::numeric_limits<double>::digits10 digits, you can recover the original decimal value although not necessarily the same representation (trailing fractional zeros will be lost). To do so, you need to convert the original decimal string into the closest representation as double and later use a suitable algorithm to restore the best decimal representation again. The parsing and formatting functions from the C and C++ standard libraries will do that correctly for you.

Note that you shouldn't try to do any arithmetic on the double values when you want to restore the original decimal values: the result of double arithmetic will use binary rounding and the values won't be the closest decimal values. However, as long as you only transfer the double values, there is no problem.

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the closest double type value from the string "2.34" I get is 2.399999 . Could you explain the next step I should use that would help me pass a double of 2.34 to the API ? – Rajeshwar Sep 6 '13 at 2:55
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@Rajeshwar: I thought you understood that it is impossible to represent many fractional decimal values exactly using a binary floating piint like double! It is not a problem of the libraries but of the representation: adouble is represented as (-1)<sup>_sign_</> * significand * 2<sup>_exponent_<sup> where sign is 0 or 1, significand is a positive integer, and exponent is an integer. However, if both the caller and callee of an API understand that the double used represent decimal values, the processing can still be made to be correct! – Dietmar Kühl Sep 6 '13 at 12:38

Since you mention "trading application" I will conclude that the numbers represent currencies. If that is the case you are probably dealing with a fixed number of fractional digits as well. In that case you can scale your floating point numbers by multiplying them by 10 ^ number_of_fractional_digits, essentially making them integer values. Floating point numbers can accurately store integer values (as long as they do not exceed the floating point type's range).

Another possibility - if the assumptions above are correct - would be to use Binary-coded decimals.

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So if I have an int of a double (i.e for 2.34) it will be 234. How is that any good to pass to an API that requires a double ? – Rajeshwar Sep 6 '13 at 2:53
    
@Rajeshwar 234 can be exactly represented as a floating point value, in other words, when converting 234 to 234.0 there is no rounding error. – IInspectable Sep 6 '13 at 12:06

The one way to work around floating point precision issues is using a well made fraction class. You may code one for yourself or use the ones provided by common math libraries. Such classes will represent your 2.34 as 234/100 internally, which will lead higher amount of memory consumption compared to a single float.

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Any suggestion of such a library. Apprently double j = float(234)/float(100); obviously still has the same answer – Rajeshwar Sep 5 '13 at 22:50
    
I googled and these are the results: code.google.com/p/cppfrac and individual.utoronto.ca/rafatrashid/Projects/2009/FracLibDoc/… – diegoperini Sep 5 '13 at 22:52
    
There is also boost's rational numbers but i tend to avoid boost for such little cases. – diegoperini Sep 5 '13 at 22:54
    
@Rajeshwar: You might want to consider decimal floating point numbers. Although I'm not aware of a publicly available C++ library there is decNumber which is a C library. The C++ Decimal TR specifies how a C++ version could look like and there is a paper improving this interface using C++11 features. – Dietmar Kühl Sep 5 '13 at 23:06
    
This is not the only way to work around floating-point precision issues; the first sentence is incorrect to say so. – Eric Postpischil Sep 5 '13 at 23:53

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