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# why is 1.2 * 30 = 35?

Why does this:

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

return 35?

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Broken compiler? How are you printing the resultant value? – leppie Sep 28 '10 at 9:28
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
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

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

``````return 12*w/10
``````
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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

`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
Note that `36.0` can be represented exactly in floating point - but `1.2` cannot. – caf Sep 28 '10 at 10:08
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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Because of representation: 1.2 is really something like 1.1999999

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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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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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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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