# Why do we have “is not a Number” (isNan) functions?

Many languages have an isNaN() function. I am asking myself: why check for not being a number?

Is the reason purely logical or is it faster to check for not a number instead of is a number?

Note that this is a pure question of understanding. I know that I can negate isNaN() to achieve an isNumber() function for example.
However I am searching for a reason WHY we are checking for not a number?

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In computing, NaN (Not a Number) is a value of numeric data type representing an undefined or unrepresentable value, especially in floating-point calculations.

Wiki Article

Because Not a Number is a special case of an expression.

You can't just use 0 or -1 or something like that because those numbers already have meanings.

Not a Number means something went awry in a calculation and a valid number cannot be computed out of it.

It's on the same line of thinking as having `null`. Sure, we could assign an arbitrary numerical value to mean `null` but it would be confusing and we'd hit all sorts of weird errors on corner cases.

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'Not a Number' is the result of specific floating point calculations. It's not about "hey, is this variable holding 120 or "abc"?'

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`isThisCaseExceptional` seems more reasonable to me than `isEverythingNormal` because I'm likely to write

``````possible_number = some_calculation();

if (inNaN(possible_number)) handle_the_surprise;

// .. keep going
``````

``````possible_number = some_calculation();

if (inANumber(possible_number)) {

// .. keep going

} else {
// handle the surprise
}
``````
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The check is for whether it is not a number, because the assumption is that it is a number. NaN is the exceptional case when you're expecting a numeric value, so it makes sense to me that it is done this way. I'd rather check for isNaN infrequently than check if a value isNum frequently, after all.

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It is a way to report an error condition (mathematically undefined or outside of technical limits).

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Many languages have special representations if the result of a computation is not representable by a number, for example NaN and Inf. So isNaN() checks, if a result is actually a number or the special marker for NaN.

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NaNs are used for:

• Nonreal or undefined values.
• Error handling. Initializing a variable with NaN allows you to test for NaN and make sure it has been set with a valid value.
• Objects that ignore a member or property. For example, WPF uses NaN to represent the Width and Height of visual elements that do not define their own size.
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