# Why does ~-1 equal 0 and ~1 equal -2?

According to subsection 11.4.8 of the ECMAScript 5.1 standard:

The production UnaryExpression : ~ UnaryExpression is evaluated as follows:

1. Let `expr` be the result of evaluating UnaryExpression.
2. Let `oldValue` be `ToInt32(GetValue(expr))`.
3. Return the result of applying bitwise complement to `oldValue`. The result is a signed 32-bit integer.

The `~` operator will invoke the internal method `ToInt32`. In my understanding `ToInt32(1)` and `ToInt32(-1)` will return the same value 1 , but why does `~-1` equal 0 and `~1` equal -2?

Now my question is why `ToInt32(-1)` equals -1? subsection 9.5 of the ECMAScript 5.1 standard:

The abstract operation ToInt32 converts its argument to one of 232 integer values in the range −231 through 231−1, inclusive. This abstract operation functions as follows:

1. Let number be the result of calling ToNumber on the input argument.
2. If number is NaN, +0, −0, +∞, or −∞, return +0.
3. Let posInt be sign(number) * floor(abs(number)).
4. Let int32bit be posInt modulo 232; that is, a finite integer value k of Number type with positive sign and less than 232 in magnitude such that the mathematical difference of posInt and k is mathematically an integer multiple of 232.
5. If int32bit is greater than or equal to 231, return int32bit − 232, otherwise return int32bit.

when the argument is -1,according to 9.5, in step 1 number will still be -1, skip step2 in step 3 posInt will be -1 in step 4 int32bit will be 1 in step 5 it will return 1

which step is wrong?

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ToIn32(-1) should yield -1 according to ecma-international.org/ecma-262/5.1/#sec-9.5 –  BartoszKP Aug 15 '13 at 17:06
Your understanding is wrong and was corrected in your previous question... (more specifically, in my answer) –  Esailija Aug 15 '13 at 17:22
possible duplicate of what is the result of 'x modulo y'? –  Esailija Aug 15 '13 at 17:23
Found this helpful when looking up information about tilde. javascriptturnsmeon.com/the-tilde-operator-in-javascript. Basically `~x === -(x + 1)` –  awbergs Aug 15 '13 at 17:27

The `-1` in 32-bit integer

``````1111 1111 1111 1111 1111 1111 1111 1111
``````

So `~-1` will be

``````0000 0000 0000 0000 0000 0000 0000 0000
``````

Which is zero.

The `1` in 32-bit integer

``````0000 0000 0000 0000 0000 0000 0000 0001
``````

So `~1` will be

``````1111 1111 1111 1111 1111 1111 1111 1110
``````

Which is `-2`.

You should read about two's complement to understand the display of negative integer in binary-base.

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Thank you for showing my error, I just miss typing this value. It is fixed. –  Hieu Le Aug 15 '13 at 17:11

Where did you get the idea that `ToInt32(-1)` evaluates to 1? It evaluates to -1, which in 32-bit, two's complement binary representation, is all bits set to 1. When you apply the `~` operator, every bit then becomes 0, which is the representation of 0 in 32-bit, two's complement binary.

The representation of 1 is all bits 0 except for bit 0. When the bits are inverted, the result is all bits 1 except for bit 0. This happens to be the two's complement representation of -2. (To see this, just subtract 1 from the two's complement representation of -1.)

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• `ToInt32(1)` will return `1`
• `ToInt32(-1)` will return `-1`
• `-1` is represented as a signed 32-bit integer by having all 32 bits set. The bitwise complement of that is all bits clear, thus `~-1` yields `0`
• `1` is represented as a signed 32-bit integer by having all bits clear except the bottom bit. The bitwise complement of that has all bits set except the bottom bit, which is the signed 32-bit integer representation of the value `-2`. Thus, `~1` yields `-2`
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