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.


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

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.


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


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.

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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