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Why does a1=72 instead of 73 in this (terrible) snippet of C++ code ?

#include <iostream>
#include <string>

using namespace std;

int main (int argc, char* argv[])
{   
    double       a  = 136.73;
    unsigned int a1 = (100*(a-(int)a));

    cout << (a-(int)a)     << endl; // 0.73
    cout << 100*(a-(int)a) << endl; // 73
    cout << a1             << endl; // 72 !
}

You can execute it at http://codepad.org/HhGwTFhw

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2  
The answer should be related to precision. Asked many times in SO before. –  iammilind Aug 14 '11 at 13:29
1  
Do you know about the binary representation of IEEE754 floating point numbers and the inherent limits when it comes to approximating decimal numbers? –  FredOverflow Aug 14 '11 at 13:30
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4 Answers

up vote 8 down vote accepted

If you increase the output precision, you'll see that (a - (int) a) prints 0.7299999999999898.

Therefore, the truncation of this value (which you obtain when you cast it to an int) is indeed 72.

(Updated codepad here.)

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+1 for codepad. –  Seth Carnegie Aug 14 '11 at 13:45
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This is a common precision issue. The literal 136.73 actually stands for the number

136.729999999999989768184605054557323455810546875

and the result of a-(int)a is not 0.73 (even though that is what is displayed), but rather

0.729999999999989768184605054557323455810546875

When you multiply that by 100, you get

72.9999999999989768184605054557323455810546875

And since converting from double to int cuts off everything after the decimal point, you get 72.

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Where do the decimals after the nines come from ? –  Klaus Aug 14 '11 at 13:37
    
@Klaus: Read about how a double is internally stored and it should become obvious. –  FredOverflow Aug 14 '11 at 13:39
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0.73 cannot be represented exactly so it is rounded to a number close to it, which in this example is lower then 0.73. when multiplying by 100, you get 72.[something], which is later trimmed to 72.

more info

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It might become clear if you read the following article: What Every Computer Scientist Should Know About Floating-Point Arithmetic.

The others have already shown that the result of (a - (int)a) is not exactly 0.73, but a little lower. The article explains why that is so. It is not exactly an easy read, but really something everyone working with FP should read and try to understand, IMO.

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