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I am unable to understand why C++ division behaves the way it does. I have a simple program which divides 1 by 10 (using VS 2003)

double dResult = 0.0;
dResult = 1.0/10.0;

I expect dResult to be 0.1, However i get 0.10000000000000001

  1. Why do i get this value, whats the problem with internal representation of double/float
  2. How can i get the correct value?


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C and C++ use IEEE-754, and using binary to represent base-10 floating point numbers can lead to inaccuracy like you're seeing. 0.1 is actually not representable in IEEE-754. –  birryree Dec 28 '11 at 14:12
Oh no not again –  kennytm Dec 28 '11 at 14:49
@birryree Are you sure? I thought that both standards left that implementation defined. Now obviously in practice every CPU uses IEEE-754 (more or less at least) so it doesn't matter, but still.. –  Voo Dec 28 '11 at 15:18
A double has 64 bits, so there are at most 2^64 distinct numbers that it can represent. 0.1 is not one of them. It's as simple as that. –  fredoverflow Dec 28 '11 at 15:25
@Voo - looking at the standard, looks like you're right - C99 Annex F does mention the IEEE-754 support, but C++03 specifies that there can be specializations that don't conform to IEEE-754/IEC-559. Not sure about C++11. –  birryree Dec 28 '11 at 16:49

3 Answers 3

up vote 3 down vote accepted

Because all most modern processors use binary floating-point, which cannot exactly represent 0.1 (there is no way to represent 0.1 as m * 2^e with integer m and e).

If you want to see the "correct value", you can print it out with e.g.:

printf("%.1f\n", dResult);
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Just a nit, but not all modern processors use binary floating-point. IBM mainframes still use base 16, and Unisys mainframes base 8. (Neither of which can represent 0.1 exactly either, of course.) –  James Kanze Dec 28 '11 at 14:26
@James: I was aware that IBM used to use base-16, but are they still releasing processors based on that? –  Oliver Charlesworth Dec 28 '11 at 14:46
@Oli I thought all IBM processors implemented both FP variants in the last few years, so presumably you can tell the compiler which variant to use? –  Voo Dec 28 '11 at 15:40
@OliCharlesworth Very definitely. Their system Z. Current models support both IEEE and their native format, but the last time I checked (admittedly some years ago), the native format was about twice the speed of the IEEE; the IEEE was mainly their to support Java. –  James Kanze Dec 28 '11 at 18:50
thanks Oli. thats the way to 'see' the correct value though i want to 'use' or 'get' the correct value as i will be using it for further calculation. Is there any way to get the error value ? so that i can subtract it from the final answer later ? –  Waseem Dec 29 '11 at 5:06

Double and float are not identical to real numbers, it is because there are infinite values for real numbers, but only finite number of bits to represent them in double/float.

You can further read: what every computer scientist should know about floating point arithmetics

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This article regularly gets linked in response to this kind of question, but it's really not aimed at beginners... –  Oliver Charlesworth Dec 28 '11 at 14:14
@OliCharlesworth Which is a good reason why beginners shouldn't use floating point. It doesn't work the way they expect. (But then, one could almost say the same thing about C++ in general. Or any other programming language, for that matter.) –  James Kanze Dec 28 '11 at 14:27
he still have rational number not irrational. –  Luka Rahne Dec 28 '11 at 14:36
@ralu: there are infinite number of those as well, even in the range [0,1]. [and in any range which is not a singelton] –  amit Dec 28 '11 at 14:37
@James That's a bit harsh imo. You can explain the limitations of fp math in such a way that even people with no math background can easily understand the problems. And if they understand the simple, basic principle (You can't represent all numbers exactly) they can use it just as fine as anyone else. Provocative: Knowing why I can't use FP to store money isn't that much more useful than knowing I shouldn't use FP to store money ;) –  Voo Dec 28 '11 at 15:25

The ubiquitous IEEE754 floating point format expresses floating point numbers in scientific notation base 2, with a finite mantissa. Since a fraction like 1/5 (and hence 1/10) does not have a presentation with finitely many digits in binary scientific notation, you cannot represent the value 0.1 exactly. More generally, the only values that can be represented exactly are those that fit precisely into binary scientific notation with a mantissa of a few (e.g. 24 or 53 or 64) binary digits, and a suitably small exponent.

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