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Why does this:

int main(void)
{
    short w = 30;
    return  1.2 * w;
}

return 35?

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3  
Broken compiler? How are you printing the resultant value? –  leppie Sep 28 '10 at 9:28
1  
1.2 is not exactly representable as floating point value in general. 1.2*30 yields 35.99999 due to rounding errors, see docs.sun.com/source/806-3568/ncg_goldberg.html –  sellibitze Sep 28 '10 at 9:30
8  
1.2 == 1.1999999999999999555910790149937 (yes, I am slightly bored ;p) –  leppie Sep 28 '10 at 9:35
    
Floating point arithmetic strikes again! –  Adam Paynter Sep 28 '10 at 12:05
    
@leppie: You seem to have omitted a few decimal places. All floating point numbers with a fractional part end in a 5 when printed in decimal. –  R.. Sep 28 '10 at 13:09

7 Answers 7

1.2 * w is 36.0. It has the double type meaning it is not represented exactly.

Likely it turns out to be slightly less than 36, maybe 35.99999 so when you return it the fractional part is discarded and the integer part only is returned. That's how you get 35.


P.S. All operations with floating point are not precise. You should expect little discrepancies. Also when you compare a floating point value against a fixed value, you mustn't do a direct comparison but do a range comparison.

Wrong: if (value == 36.0) { /* ... */ }

Correct: if (abs (value - 36.0) < 0.0001) { /* ... */ }

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Spot on I reckon. If the function returned a double then we'd know for sure. –  ChrisBD Sep 28 '10 at 9:32
2  
Note that 36.0 can be represented exactly in floating point - but 1.2 cannot. –  caf Sep 28 '10 at 10:08
1  
there is no imprecision in the operation going on here. The problem is that there is no such floating point value as 1.2. It's rounded before it even gets compiled. –  R.. Sep 28 '10 at 13:10
    
"All operations with floating point are not precise" is wrong. The modulo operation in IEEE 754-1985 is exact. Addition, subtraction, multiplication and even sometimes division are exact if you provide suitable arguments. For example 0.5 + 0.5 == 1.0 will hold true in any binary floating-point model with at least 2 bits of precision. So will 12.0 / 3.0 or 0.875 * 0.5. –  Roland Illig Oct 10 '10 at 9:11

It's an issue with binary floating point precision. 1.2 is very slightly less than 1.2, so the result of the multiplication is slightly less than 36.

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Don't expect absolutely exact result in floating point operations. Multiplication result may be, for example, 35.9999, which is rounded to 35.

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Because of representation: 1.2 is really something like 1.1999999

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If you want to get more suitable result, try the following:

return 12*w/10
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1  
Good answer! +1 –  leppie Sep 28 '10 at 9:40
    
Keep in mind that the multiplication could overflow even if the final result would fit in an int. Using floating point (12.0*w/10.0) could fix this problem. –  R.. Sep 28 '10 at 13:13

short w = 30; return 1.2 * w;

In return statement first sort value is type cast in double because 1.2 is double type so it will multiply 1.2 * 30.000000 and result become around 35.999999 and function return type is int so decimal part is truncate and it return 35 only.

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Since floating point math could be inexact, use round() before casting to integer, to get a better result.

#include <math.h>
...
return (int)round(some_real_value);
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