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I have a program,

int main()   
{   
        float f=0.0f;  
        int i;  

        for(i=0;i<10;i++) 
                f = f + 0.1f; 

        if(f == 1.0f) 
                printf("f is 1.0 \n"); 
        else 
                printf("f is NOT 1.0\n"); 

        return 0; 
} 

It always prints "f is NOT 1.0" . I understand this is related to floating point precision in C. But I am not sure exactly where it is getting messed up. Can someone please explain me why it is not printing the other line?

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6  
You've answered the question yourself. It's related to precision. Google will give you 1000.001 explanations. –  John3136 Mar 6 '12 at 2:42

4 Answers 4

You cannot compare floats like this. You need to define a threshold and compare based on that. This blog post explains

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Thanks a lot for the answer. I went through the link and found this other link which explained to me what i was missing. cygnus-software.com/papers/comparingfloats/comparingfloats.htm –  Pkp Mar 6 '12 at 2:52
    
@Prasanna, you're welcome! –  Abhishek Chanda Mar 7 '12 at 22:29

For floating point numbers you should always use an epsilon value when comparing them:

#define EPSILON 0.00001f

inline int floatsEqual(float f1, float f2)
{
    return fabs(f1 - f2) < EPSILON; // or fabsf
}
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2  
Richard, +1 since I prefer self-contained answers but the function you're looking for is fabs rather than abs - I fixed that for you :-) –  paxdiablo Mar 6 '12 at 2:50
    
Thank you. This helps and explains a lot. –  Pkp Mar 6 '12 at 2:54
1  
@prasanna no problem, just don't forget to accept the answer! –  Richard J. Ross III Mar 6 '12 at 5:52

This is equivelent to adding 0.33 together 3 times (0.99) and wondering why it is not equal to 1.0.

You may wish to read What Every Programmer Should Know About Floating Point Arithmetic

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2  
I love the URL name. –  Thomas Eding Mar 6 '12 at 2:49

Binary floating point cannot represent the value 0.1 exactly, because its binary expansion does not have a finite number of digits (in exactly the same way that the decimal expansion of 1/7 does not).

The binary expansion of 0.1 is

0.000110011001100110011001100...

When truncated to IEEE-754 single precision, this is approximately 0.100000001490116119 in decimal. This means that each time you add the "nearly 0.1" value to your variable, you accumulate a small error - so the final value is slightly higher than 1.0.

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