The `modulo`

operation is defined as the mathematical modulo operation:

Mathematical operations such as addition, subtraction, negation,
multiplication, division, and the mathematical functions defined later
in this clause should always be understood as computing exact
mathematical results on mathematical real numbers, which do not
include infinities and do not include a negative zero that is
distinguished from positive zero.

Your question:

ToInt32(-1) equals ToInt32(1)

Well, no:

Let posInt be sign(number) * floor(abs(number)).

```
posInt = sign(-1) * floor(abs(-1)) = -1;
```

Let int32bit be posInt modulo 2^{32}; that is, a finite integer value k
of Number type with positive sign and less than 2^{32} in magnitude such
that the mathematical difference of posInt and k is mathematically an
integer multiple of 2^{32}.

```
int32bit = posInt mod 4294967296 = -1 mod 4294967296 = 4294967295
```

*(wolfram alpha link for mathematical result)*

If int32bit is greater than or equal to 2^{31}, return int32bit − 2^{32},
otherwise return int32bit.

Because `4294967295 >= 2147483648`

, we return `4294967295 - 4294967296`

, I.E. `-1`

.

If we run the same steps for `ToInt32(1)`

, we get `1`

. So they don't have the same result.

`ToInt32(-1)`

doesnotequal`ToInt32(1)`

. – Ted Hopp Aug 15 '13 at 17:15