98

Is this possible to assign a NaN to a double or float in C/C++? Like in JavaScript you do: a = NaN. So later you can check if the variable is a number or no.

132

In C, NAN is declared in <math.h>.

In C++, std::numeric_limits<double>::quiet_NaN() is declared in <limits>.

But for checking whether a value is NaN, you can't compare it with another NaN value. Instead use isnan() from <math.h> in C, or std::isnan() from <cmath> in C++.

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    Or you can compare the number to itself – x == x returns false iff x is NaN. – Archie May 22 '13 at 12:10
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    @Archie: I don't think that's guaranteed in either language. – Mike Seymour May 22 '13 at 12:13
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    @MikeSeymour Not by the language standard but as far as I know it should work if the compiler claims to be IEEE compliant. – Pixelchemist May 22 '13 at 12:23
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    @Pixelchemist: Indeed, it's an option if you need obfuscation but not portability. Personally, I prefer portability without obfuscation, so I won't suggest it myself. – Mike Seymour May 22 '13 at 12:26
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    minor note: NAN is a float, not a double. link – orion elenzil Aug 18 '14 at 21:11
22

As others have pointed out you are looking for std::numeric_limits<double>::quiet_NaN() although I have to say I prefer the cppreference.com documents. Especially because this statement is a little vague:

Only meaningful if std::numeric_limits::has_quiet_NaN == true.

and it was simple to figure out what this means on this site, if you check their section on std::numeric_limits::has_quiet_NaN it says:

This constant is meaningful for all floating-point types and is guaranteed to be true if std::numeric_limits::is_iec559 == true.

which as explained here if true means your platform supports IEEE 754 standard. This previous thread explains this should be true for most situations.

9

This can be done using the numeric_limits in C++:

http://www.cplusplus.com/reference/limits/numeric_limits/

These are the methods you probably want to look at:

infinity()  T   Representation of positive infinity, if available.
quiet_NaN() T   Representation of quiet (non-signaling) "Not-a-Number", if available.
signaling_NaN() T   Representation of signaling "Not-a-Number", if available.
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Generally, it's not a good idea to have invalid numbers in your program. It can be very difficult to get rid of them later and they can cause your program to crash.

Here's a good list of ways to catch such numbers without assigning it to them: https://studiofreya.com/cpp/1-inf-1-ind-and-qnan-floating-point-numbers-and-errors/#Capturing-errors

In short, there are three of them:

  • comparison
  • using c++11 standard
  • using control words _controlfp and _control87
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    NaN is a perfectly good number to have (sometimes you don't need exceptions) – Paul Stelian Apr 17 '17 at 18:53
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    NaNs are to double numbers, what NULL (or nullptr) is to pointers: It is a value to indicate, that there is no value. Depending on what your program needs to do, you may need NaNs and null pointers or not. Of course, it is always a possible programming error to forget a NaN/NULL check. But if you move that NaN/NULL information to a seperate status bit, that check may also be forgotten and the same error will occur. – Kai Petzke Jan 6 at 9:22

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