Defined in header <math.h> | ||
---|---|---|
#define isunordered(x, y) /* implementation defined */ | (since C99) |
Determines if the floating point numbers x
and y
are unordered, that is, one or both are NaN and thus cannot be meaningfully compared with each other.
x | - | floating point value |
y | - | floating point value |
Nonzero integral value if either x
or y
is NaN, 0
otherwise.
#include <stdio.h> #include <math.h> int main(void) { printf("isunordered(NAN,1.0) = %d\n", isunordered(NAN,1.0)); printf("isunordered(1.0,NAN) = %d\n", isunordered(1.0,NAN)); printf("isunordered(NAN,NAN) = %d\n", isunordered(NAN,NAN)); printf("isunordered(1.0,0.0) = %d\n", isunordered(1.0,0.0)); return 0; }
Possible output:
isunordered(NAN,1.0) = 1 isunordered(1.0,NAN) = 1 isunordered(NAN,NAN) = 1 isunordered(1.0,0.0) = 0
(C99) | classifies the given floating-point value (function) |
(C99) | checks if the given number is NaN (function) |
C++ documentation for isunordered |
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