Defined in header <math.h> | ||
---|---|---|
#define isnan(arg) /* implementation defined */ | (since C99) |
Determines if the given floating point number arg
is a not-a-number (NaN) value. The macro returns an integral value.
FLT_EVAL_METHOD
is ignored: even if the argument is evaluated with more range and precision than its type, it is first converted to its semantic type, and the classification is based on that (this matters if the evaluation type supports NaNs, while the semantic type does not).
arg | - | floating point value |
Nonzero integral value if arg
is a NaN, 0
otherwise.
There are many different NaN values with different sign bits and payloads, see nan
.
NaN values never compare equal to themselves or to other NaN values. Copying a NaN may change its bit pattern.
Another way to test if a floating-point value is NaN is to compare it with itself: bool is_nan(double x) { return x != x; }
#include <stdio.h> #include <math.h> #include <float.h> int main(void) { printf("isnan(NAN) = %d\n", isnan(NAN)); printf("isnan(INFINITY) = %d\n", isnan(INFINITY)); printf("isnan(0.0) = %d\n", isnan(0.0)); printf("isnan(DBL_MIN/2.0) = %d\n", isnan(DBL_MIN/2.0)); printf("isnan(0.0 / 0.0) = %d\n", isnan(0.0/0.0)); printf("isnan(Inf - Inf) = %d\n", isnan(INFINITY - INFINITY)); }
Possible output:
isnan(NAN) = 1 isnan(INFINITY) = 0 isnan(0.0) = 0 isnan(DBL_MIN/2.0) = 0 isnan(0.0 / 0.0) = 1 isnan(Inf - Inf) = 1
(C99)(C99)(C99) | returns a NaN (not-a-number) (function) |
(C99) | classifies the given floating-point value (function) |
(C99) | checks if the given number has finite value (function) |
(C99) | checks if the given number is infinite (function) |
(C99) | checks if the given number is normal (function) |
(C99) | checks if two floating-point values are unordered (function) |
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