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i have the following very simple code -

int x=15000
int z=0.7*x
cout<<"z = "<<z<<endl;

i get the output

z=10499

but if i change it to

int z=0.7*15000
cout<<"z = "<<z<<endl;

outputs

z=10500

i understand it has something to do with z casting the result to int but why is it different in both cases ?

thanks,

EDIT - i'm using ubuntu's 10.10 GCC build

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I have 10500 (gcc 4.2)... what compiler are you using? is it exactly the code you have? –  Vladimir Dec 6 '10 at 12:22
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3 Answers 3

up vote 4 down vote accepted

int z=0.7*x;

The double-precision value 0.7 is not exactly representable as a floating-point number; its hex representation is 3fe6666666666666 on most machines, which is less than the true value 3fe6666666666666... So the double-precision result of 0.7*x is less than its true value, and is rounded down. This is correct behaviour.

int z=0.7*15000;

The compiler, on the other hand, is clever enough to see that 0.7 * 15000 is representable exactly as 7 * 1500 = 10500. So it uses the correct result, instead of the result that would be obtained by compiling the expression and executing it.

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I suppose it's because of compiler, that simplifies arithmetical expressions at the compile time.

The first expression was computed using FPU (with finite precision), and the second one: by preprocessor (with "infinite" precision). Try running the program in release mode (or with -O2), the results should be the same for both expressions.

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I think ruslik has the correct answer to your question.

I would just add: Always keep your calculations in either float or double until the very last moment. That way you don't lose precision.

Try changing your code to this:

double z = 0.7 * 15000.0;
cout<<"z = "<<z<<endl; // Will need to include some formatting

or

int z = (int) (0.7 * 15000.0);
cout<<"z = "<<z<<endl;
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Both these suggestions are no-ops, and do nothing to solve the problem. –  TonyK Dec 6 '10 at 12:35
    
The problem is that 0.7*x gives a different result to 0.7*15000. See my answer below/above. –  TonyK Dec 6 '10 at 12:39
1  
I think this is good advice. If you need double precision then keep your variables in doubles. Use rounding as the last step, if necessary. –  Daniel Lidström Dec 6 '10 at 12:44
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