Therefore all values which (during the DTC process) may yield a simple true | false such as
"", " ", " 000", cannot be NaN.
Meaning that the argument supplied will first undergo a conversion as in:
var x = new Number(arg).valueOf();
return x != x;
In the top line of the function body, we are (first) trying to successfully convert the argument into a number object. And (second), using the dot operator we are - for our own convenience - immediately stripping off, the primitive value of the created object.
In the second line, we are taking the value obtained in the previous step, and the advantage of the fact that NaN is not equal to anything in the universe, not even to itself, e.g.:
NaN == NaN >> false to finally compare it (for inequality) with itself.
This way the function return will yield true only when, and only if, the supplied argument-return, is a failed attempt of conversion to a number object, i.e., a not-a-number number; e.g., NaN.
However, for a Static Type Operator - if needed and when needed - we can write a far simpler function such as:
return x != x;
And avoid the DTC altogether so that if the argument is not explicitly a NaN number, it will return false. Wherefore, testing against the following:
isNaNStatic(" x"); // will return false because it's still a string.
isNaNStatic(1/"x"); // will of course return true. as will for instance
isNaNStatic(NaN); >> true.
But contrary to
isNaNStatic("NaN"); >> false because it (the argument) is an ordinary string.
The static version of isNaN can be very useful in modern coding scenarios. And it may very well be one of the main reasons I took my time for posting this.