# Casting changes value strangely

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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The answer should be related to precision. Asked many times in SO before. – iammilind Aug 14 '11 at 13:29
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

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`.

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+1 for codepad. – Seth Carnegie Aug 14 '11 at 13:45

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

`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`.

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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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