# C++ Why does LLONG_MIN == -LLONG_MIN

In C++ if I do this:

``````__int64 var = LLONG_MIN;
__int64 var2 = -var;
cout << "var: "<< var << endl;
cout << "var2: "<< var2 << endl;
``````

The output I get is:

``````var: -9223372036854775808
var2: -9223372036854775808
``````

What is the part of the standard that covers this? I assume it's signed integer overflow. This was compiled using g++ (GCC) 4.7.2.

I have a subtract function and I'm writing an add function and I thought I could just do this: `add( someobj &obj, long long num ) { subtract( obj, -num ); }`. I think that would work if it wasn't for LLONG_MIN.

-
It's indeed integer overflow, and an artefact of two's complement. – syam Sep 8 '13 at 19:17
I think the part of the standard that governs this is inherited from the C standard – sehe Sep 8 '13 at 19:18
@sehe IIRC signed integer overflow is UB. – syam Sep 8 '13 at 19:18
@syam That's what I recall too. However, that makes no difference: whether or not it is UB is also governed by that section of the standard. :) – sehe Sep 8 '13 at 19:19

On your implementation, `LLONG_MIN` is `-9223372036854775808` which is `0x8000000000000000` in hexadecimal (I will be using this hexadecimal notation because it's easier to see what happens to the bits).
When you compute `-LLONG_MIN` on a system that uses two's complement, under the hood you first make a bitwise-not (yielding `0x7FFFFFFFFFFFFFFF == LLONG_MAX`) then add 1 which overflows the signed integer and gives back `0x8000000000000000 == LLONG_MIN`.