# Precision loss with double C++

I'm developing a C++ application which runs on linux environment. I need to store a large value with 6 deciaml places. I used a double for that. But after assigning, the double variable doesn't contains the exact value. It has rounded off.

Ex:

``````double dValue = 79447461534242.913072; //Assignement of value
``````

But after that , when I see the value in dValue it is something like 79447461534242.906

Can some one let me know why this is happening and suggest me the correct data type which can hold the exact value with out losing the precision.

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Don't forget to accept your favourite answer ;) – Marcus Riemer Aug 24 '12 at 6:49

C++ uses IEEE floating point types which are only precise to a certain degree by design. If you need arbitary precision take a look at eg GNU MP Bignum or any other arbitary precision library.

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In a typical implementation, a `double` has about 15 digits of precision total. It doesn't matter much whether those are before or after the decimal point, it's just a total of 15 digits.

In your case, the original number is about 20 digits, so five are lost immediately.

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Are you sure about the 15 digit precision in total? At least in Javascript integer precision is accurate ... But I am not sure whether this is something unique to Javascript. – Marcus Riemer Aug 23 '12 at 17:20
@MarcusRiemer: Integer types are precise in C++ too; but this question is about floating-point types. – Mike Seymour Aug 23 '12 at 17:22
@MarcusRiemer: `double` and integer are two entirely different sorts of animals. While "higher level" languages often support arbitrary precision integers, C++ is usually implemented with what the hardware provides -- typically 16 bits for short, 32 for int, either 32 or 64 bits for long, and 64 for long long. `double` is normally a 64-bit floating point type with a 53-bit mantissa. – Jerry Coffin Aug 23 '12 at 17:23
Javascript only offers a single `number` type which is always stored as a floating point number internaly. But they claim integer arithmetic is precise, thats why I am asking. I am aware that C++ has a more ... complete ... approach to number types. – Marcus Riemer Aug 23 '12 at 17:24
@MarcusRiemer: A typical double will do precise integer arithmetic within the range of (about) -2^53..2^53. If they're maintaining precision outside that range, they must be using a different type (probably implemented in software, not directly in the CPU). – Jerry Coffin Aug 23 '12 at 17:28

The most commonly used double precision format stores the number with 53 bits of precision. This gives approximately 16 decimal digits of precision.

You may find that `long double` gives more precision, but there is no guarantee that that is any larger than `double`.

If you need more precision than you can get from native machine types, you will need a high-precision numeric library, such as GMP.

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On linux you can use __float128 which is a quadruple precision floating point type.

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Provided you have gcc > 4.6 – Rody Oldenhuis Aug 23 '12 at 17:37
I could not compile it with __float28. It gives the error ‘__float128’ was not declared in this scope – user1308004 Aug 24 '12 at 4:45
What version are you using of gcc? Type `gcc --version` – Andrew Tomazos Aug 24 '12 at 10:12