First, let me point out that `NaN`

is a very special value: By definition, it's not equal to itself. That comes from the IEEE-754 standard that JavaScript numbers draw on. The "not a number" value is never equal to itself, even when the bits are an exact match. (Which they aren't necessarily in IEEE-754, it allows for multiple different "not a number" values.) Which is why this even comes up; all other values in JavaScript are equal to themselves, `NaN`

is just special.

...am I missing some value in JavaScript that will return true for x !== x and false for x != x?

No, you're not. The only difference between `!==`

and `!=`

is that the latter will do type coercion if necessary to get the types of the operands to be the same. In `x != x`

, the types of the operands are the same, and so it's exactly the same as `x !== x`

.

This is clear from the beginning of the definition of the Abstract Equality Operation:

- ReturnIfAbrupt(x).
- ReturnIfAbrupt(y).
If Type(x) is the same as Type(y), then

Return the result of performing Strict Equality Comparison x === y.

...

The first two steps are basic plumbing. So in effect, the very first step of `==`

is to see if the types are the same and, if so, to do `===`

instead. `!=`

and `!==`

are just negated versions of that.

So if Flanagan is correct that only `NaN`

will give true for `x !== x`

, we can be sure that it's also true that only `NaN`

will give true for `x != x`

.

Many JavaScript programmers default to using `===`

and `!==`

to avoid some pitfalls around the type coercion the loose operators do, but there's nothing to read into Flanagan's use of the strict vs. loose operator in this case.

`!==`

checks over`!=`

checks. As far as I'm aware there's no other value where`x != x`

. But there are two distinct groups of JavaScript developers: those who prefer`!=`

and those who prefer`!==`

, be it for speed, clarity, expressiveness, etc.`NaN`

isn't a unique type, it's a number. It's a uniquevaluethat is not equal to itself.isn'tstyle when the types of the operands are different, but itisstyle when they're the same. Separately: Flanagan is doing those comparisons wth`===`

with NaNto make the pointthat NaN is not equal to itself. He's not "wrong," he's doing it as a teaching exercise, demonstrating that it doesn't work.7more comments