# Different Truncation Results When Casting

I'm having some some difficulty predicting how my C code will truncate results. Refer to the following:

``````float fa,fb,fc;
short ia,ib;

fa=160
fb=0.9;
fc=fa*fb;
ia=(short)fc;
ib=(short)(fa*fb);
``````

The results are ia=144, ib=143.

I can understand the reasoning for either result, but I don't understand why the two calculations are treated differently. Can anyone refer me to where this behaviour is defined or explain the difference?

Edit: the results are compiled with MS Visual C++ Express 2010 on Intel core i3-330m. I get the same results on gcc version 4.4.3 (Ubuntu 4.4.3-4ubuntu5) under Virtual Box on the same machine.

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What target CPU is that? –  EboMike Dec 20 '10 at 20:10

The compiler is allowed to use more precision for a subexpression like `fa*fb` than it uses when assigning to a `float` variable like `fc`. So it's the `fc=` part which is very slightly changing the result (and happening to then make a difference in the integer truncation).

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And compilers commonly do so. x86 processors, IIRC, always operate on 80-bit floats (`long double`). –  larsmans Dec 20 '10 at 20:11
Except when Windows disables 80-bit support and forces everything to 64-bit, or even worse, when broken Windows OpenGL libraries change the fpu mode to do everything at 32-bit precision... –  R.. Dec 20 '10 at 20:15

aschepler explained the mechanics of what's going on well, but the fundamental problem with your code is using a value which does not exist as a `float` in code that depends upon the value of its approximation in an unstable way. If you want to multiply by 0.9 (the actual number 0.9=9/10, not the floating point value `0.9` or `0.9f`) you should multiply by 9 then divide by 10, or forget about floating point types and use a decimal arithmetic library.

A cheap and dirty way around the problem, when the unstable points are isolated as in your example here, is to just add a value (typically 0.5) which you know will be larger than the error but smaller than the difference from the next integer before truncating.

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If my hypothesis is true if you write `ib = (short)(float)(fa * fb);` you should get the same result than when casting fc to short.