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The Math "pow" function returns -1.#IND. What kind of error value is -1.#IND and how do I detect the error in an if-statement?

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2  
it might help if you told us what parameters you suppled to produce that result... –  Alnitak Oct 5 '12 at 19:41
    
What did you pass in? pow(0,-1)? –  chris Oct 5 '12 at 19:41
    
@chris - wouldn't pow(0, -1) produce -1.#INF if I remember correctly? –  Pete Becker Oct 5 '12 at 20:03
    
@PeteBecker, I'm not too familiar with the way C++ does it, but in math, 0/0 is indeterminate, so I made that connection. –  chris Oct 5 '12 at 20:05
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@chris - not for long, I hope. –  Pete Becker Oct 5 '12 at 20:41

4 Answers 4

up vote 8 down vote accepted

-1.#IND is the textual representation of NaN on Windows.

You can check if a float value is NaN with this small function:

// NaN never compares equal, not even to itself
bool is_nan(double d){ return d != d; }

(As @chris notes, if you have a C++11 compliant stdlib, you get std::isnan in <cmath>.)

In normal program flow, you shouldn't need to worry about NaN as long as you sanity-check your math inputs. Of course, you can also go the other way and just do your math calculations and check against NaN afterwards. :)

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C++11 has std::isnan. –  chris Oct 5 '12 at 19:47
    
@chris: Was just thinking of searching for that, thanks. –  Xeo Oct 5 '12 at 19:48

The value you see is a representation for NaN or not a number. These values show up as a result of a floating point operation which has an undefined value. For example, 0.0 / 0.0 will yield a NaN. There are a number of other situations where a NaN is produced. If you want to determine if a floating point value is a NaN, you can test for them:

if (std::isnan(value)) {
    ...
}

There are few other other special values which can be produced as the result of floating point operations, e.g., positive or negative infinity and there are tests in <cmath> for these, as well.

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std::isnan(value) tests for a NaN. std::numeric_limits doesn't have a way of testing for a NaN, but it has two members for generating them: quiet_NaN() and signaling_NaN(). –  Pete Becker Oct 5 '12 at 20:08
    
@PeteBecker: I wasn't looking properly: of course, you are right! These are functions from C's library imported to C++ by <cmath>. I adjusted the response correspondingly. Thanks! –  Dietmar Kühl Oct 5 '12 at 20:27

-1#IND normally happens when you have a /0 somewhere in your code. Protect against it by checking all denominators or bases in pow functions with -ve exponents for 0's.

Once the division or pow operation has been completed, if you didn't check your inputs, check your outputs with:

if (output != output)  return 0; // or some default
else                   return output;
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What does "-ve" mean? –  Code-Apprentice Oct 5 '12 at 21:48

-1.#IND is a NaN, not a number. NaNs arise for many reasons. Expressions such as 0.0/0.0 are indeterminate; you'll get a NaN if you try. The square root of -1 (or of any negative real) is pure imaginary; use the float or double sqrt function and you'll get a NaN as a result. Here the result is not indeterminate, but it is not real, either. It's a NaN.

Another way to express sqrt(-1.0) is pow(-1.0, 0.5). This also generates a NaN.

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