When using pow() from cmath library I get NaN but if I iterate for the length of the power, it works?

I am trying to evaluate y=0.05*(1+-2.01655)^x where 90 < x < 180 and I am receiving NaN when using pow((1+-2.01655),x) but iterating in a for loop achieves the correct answer? Worth noting excel also exhibits a similar issue (cannot evaluate raw form but can evaluate a segmented form).

double var = -1.01655;
double final = 1;
for(int i=0 ; i<ceil(x); i++){
   final *= var;
final = 0.05 * final;
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    std::cout << 0.05 * pow(1-2.01665, x) << std::endl;, with a double x; set to 100, works perfectly fine for me. Helpful tip: try also showing a minimal reproducible example of the code that doesn't work for you, if you want to know why. Don't show some completely different code that does work. That's not going to be very helpful. – Sam Varshavchik Aug 14 at 1:34
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    @Grant Dare I’m not sure if you can use the 1+-2.01655 as a double base. Is the +- a typo? – ManLaw Aug 14 at 1:36
  • @manlaw: "1+-2.01655" is a perfectly cromulent mathematical expression in C++. – Sam Varshavchik Aug 14 at 1:55
  • @SamVarshavchik I’m not sure if +- yields a single double value. In your example, you didn’t use +-, so your example is slightly different than the posted question. I’m trying to understand why pow((1+-2.01655, x ) would fail to work. Has anyone reproduced a working example using the +- exactly as written? – ManLaw Aug 14 at 2:25
  • Yes, @ManLaw, std::cout << 0.05 * pow(1+-2.01665, x) << std::endl; gives the same results, of course. Why wouldn't it? It's a simple expression, an addition of 1 and -2.01665. Feel free to try it yourself. Mathematically equivalent to subtracting one minus 2.01665. There is no ambiguity, whatsoever. – Sam Varshavchik Aug 14 at 2:31

Taking a fractional exponent of a number implies an nth-root operation; for example pow(2, 3.0 / 2.0) == sqrt(pow(2, 3)).

Negative numbers often have imaginary roots. std::pow for doubles only handles reals. 1 - 2.01655 is, of course, negative, so your equation only has real results for integer values of x. I think you'll find that integer values of x generate a result and non-integer values are generating NaN. The reason your loop works is that you're calculating an integer power, not a fractional power.

See cppreference; the section on error handling:

If base is finite and negative and exp is finite and non-integer, a domain error occurs and a range error may occur.

  • Hi, thank you that does appear to be the error. The value is not always an integer. How am I able to implement this solution where it will accept negative base and non integer powers? – Grant Dare Aug 14 at 3:40
  • @GrantDare <complex> has overloads for std::pow for complex numbers; if you use those you can generate the complex-number results of raising negative numbers to fractional powers. If you're not expecting to get imaginary numbers, though, then your equation might not be correct. – James Picone Aug 14 at 3:44
  • Accepted answer as it is the correct answer to my question. I modified my equation rather than the source. – Grant Dare Aug 14 at 4:40

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