-3

Since I noticed the last days that Javascript has a lot of individual operators designated by combinations of basic operators, I did a bit of research and found out there are a LOT(!) of good questions around (at least thats what the votes tell me).

I started yesterday and today by noticing those pretty unusual looking operators getting explained.

What does 'x << ~y' represent in JavaScript?

and

What does "!--" do in JavaScript?

So after I have seen this >>~ operator in one of the comments, I just was feeling the desire to ask this in the duty of our community.

What does the christmas-tree-operator actually do in a contect like this:

christmas=

!0
0 >>~
!-0;

Also I'm considering, would it be okay to let the candle burn, even if daddy wasn't observing:

christmas=

!0
0 >>~

And could we identify it christmas if the kids were gone, too:

christmas=

>>~

?

12
  • 5
    Two operators: Right shift >> with Bitwise NOT ~
    – Tushar
    Dec 18 '15 at 16:22
  • 4
    What is with the rant? Dec 18 '15 at 16:24
  • 3
    I would consider reducing your question to the point where you just ask what this does. Otherwise many may not bother to read through all that.
    – Rob
    Dec 18 '15 at 16:25
  • 4
    Possible duplicate of What does 'x << ~y' represent in JavaScript?
    – ElGavilan
    Dec 18 '15 at 16:26
  • 3
    I'm voting to close this question as off-topic because the question (is there one?) is a giant mess.
    – Andy
    Dec 18 '15 at 16:41
4

This line ends up getting a semicolon inserted after with ASI:

!0

Which is NOT 0 (a falsy value), which is true.

No ASI semicolon is inserted after the >> right shift and ~ bitwise NOT, so this is evaluated as one line:

0 >>~
!-0

Which can be (more correctly written) as:

0 >> ~!-0

Zero can only be right shifted to equal zero, but we'll break down the right side anyways. Bitwise NOT, Boolean NOT, and numeric cast of 0.

-0 == 0
!0 == true
~true = -2

Again, it doesn't matter what's on the right side of the right shift, since zero is just a bunch of zero bits.

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