# Why does isNAN(“12”) evaluate to false?

Why does JavaScript interpret 12 and "12" as equal?

``````function sanitise(x) {
if (isNaN(x)) {
return NaN;
}
return x;
}

var a = "12"
var b = 12
console.log(typeof(a))
console.log(sanitise(a));
console.log(sanitise(b));``````

Output:

``````> "string"
> "12"
> 12
``````

And then, what is the difference between "12" and "string"?

why “12” is a not NaN in JavaSciprt?

As per spec, there is an implicit conversion toNumber before checking if the given input is a number or not (or Not a Number - `NaN` )

1. Let num be ToNumber(number).

So `isNaN("12")` => `isNaN(12)` => false

• `isNaN` checks if the value is `NaN`, not if it's not a number type. – Michael Mior Jan 8 '18 at 11:08
• @MichaelMior not if it's not a number type Where did I say that it is checking the number type? – gurvinder372 Jan 8 '18 at 11:09
• @Thilo Yes of course `isNaN` check if not a number, is there is a difference between check for number and checking for number type? – gurvinder372 Jan 8 '18 at 11:13
• @Thilo Then why is `isNaN( "s" )` true? You are overthinking this - As per spec, it it invokes `toNumber` method and then checks if the output is a number or not! – gurvinder372 Jan 8 '18 at 11:18
• "before checking if the given input is a number or not" – Michael Mior Jan 8 '18 at 15:42

The isNaN() function determines whether a value is NaN or not.

As per documentation, NaN values are generated when arithmetic operations result in undefined or unrepresentable values. Such values do not necessarily represent overflow conditions. A NaN also results from attempted coercion to numeric values of non-numeric values for which no primitive numeric value is available.

For example, dividing zero by zero results in a NaN — but dividing other numbers by zero does not.

Here "12" is not a number but it is not `NaN` either. Therefore `isNaN()` returns `false`.

Also, when the argument to the `isNaN` function is not of type Number, the value is first coerced to a `Number`. The resulting value is then tested to determine whether it is `NaN`.

Therefore `isNaN('s')` returns true as 's' is converted to a number. Parsing this as a number fails and returns `NaN`.

• In this case why is `isNaN( "s" )` true? – gurvinder372 Jan 8 '18 at 11:23

It's because behind the scene, isNaN converts the argument passed to it to number before checking if it's a number

• `isNaN` checks if the value is `NaN`, not if it's not a number type. – Michael Mior Jan 8 '18 at 11:08
• @MichaelMior You just musunderstand the answer – Faly Jan 8 '18 at 11:10
• Perhaps. I think the answer is incomplete though without explaining the meaning of `NaN`. – Michael Mior Jan 8 '18 at 11:12

Check the info below.

This function is different from the Number specific Number.isNaN() method.

The global isNaN() function, converts the tested value to a Number, then tests it.

• Having both these functions is confusing... Yea, loosely typed languages. – Thilo Jan 8 '18 at 11:23

Was JavaScript takes "12 and 12 as same things?

It doesn't.

Under some conditions, it will implicitly convert `12` to `"12"` or vice versa (other examples include if you are doing a comparison with `==` or concatenating a string with `12` (`"" + 12`).

And then, what is the difference between "12" and "string"?

One is a string representing the number twelve as digits, the other is a string representing the word string.

The `typeof` operator tells you (in the form of a string) what type of data a value is.

• @Rajesh — I didn't claim otherwise in this answer. – Quentin Jan 8 '18 at 11:09

`"12"` and `12` are not the same thing but in some contexts JS silently converts one to another.

For example, `"12" + 12` is `"1212"` (converts the number to string) but `"12" * 12` is `144` (converts the string to number).

The first conversion happens because `+` is used for both numbers addition and strings concatenation. If one of its operands is a string then it makes sure the other is also a string (converts it to string if it is not already a string). In order to work as the addition operator, both its operands must be numbers.

On the other hand, the `*` is used only as the multiplication operator and that's why it converts its operands to numbers in order to be able to work with them.

The `isNaN()` function checks if its argument has the special floating-point value `NaN` that cannot be compared against other numbers using the usual comparison operators (`==` and `===`). It doesn't check the type of its argument; its purpose is not to tell apart numbers from other types. It is used to detect division by zero and values that cannot be represented by the floating-point number format (overflowing results on addition of large numbers, underflowing results on division of small values by large values etc.)