# Is there a trivial way to get the 2's complement of an std::bitset<N>

I was using `std::bitset<N>` in my program and needed to find the least significant set bit and did the trivial calculation as below :

``````int num = 5;
int res = num & (-num);
``````

After which the least significant bit of `num` is set in `res` and rest all are `0`'s. This works as `-5` is represented in 2's complement notation.

But I found `std::bitset<N>` doesn't have any operator overload for unary `operator -` which would have given me the 2's complement for the underlying bits. Is there a trivial way to implement the 2's complement with `std::bitset<N>` ? I could always use `operator ~` to flip the bits and loop over them doing the sum and carry starting from LSB to MSB, but I was looking for a solution which would avoid that.

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Certainly there are a lot of non-trivial ways of doing almost anything! –  rodrigo Mar 10 at 10:16
I noticed I should have used trivial :-p Will edit the title. –  vvnraman Mar 10 at 10:28
Note that looping over the flipped bitset is most-likely as fast as simply looping over the original bitset in order to find the least significant bit (which I find the trivial solution in this case ;)) –  Zeta Mar 10 at 10:33
@Zeta Of-course, why didn't I think of it !! That's what I'll end up doing perhaps. –  vvnraman Mar 10 at 10:36

`std::bitset` doesn't provide any complement methods. Since you would have to calculate the complement yourself with `operator~` and an additional loop, simply skip `operator~()` and search for the LSB directly:

``````template <int N>
size_t least_significant_bit(const std::bitset<N> &bt){
for(size_t i = 0; i < bt.size(); ++i){
if(bt.test(i))
return i;
}
}
``````

I guess it can't get more trivial than that ;).

Note that the result of `least_significant_bit` isn't specified if there's no bit at all. One could return `N` or change the loop in order to test `bt.test(N)` which would throw an exception, but after all it doesn't really make sense to look for a LSB in a nulled bitset.

Further note, you can use `std::bitset<N>::operator[]` instead of `std::bitset<N>::test` if you're not interested in boundary checks.

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Sorry for the index mess, I was thinking in terms of `to_string()` ("The resulting string contains N characters with the first character corresponds to the last (N-1th) bit and the last character corresponding to the first bit.") instead of using simple bit logic >.< –  Zeta Mar 10 at 10:46

a quite convenient method for doing two's complement is finding the least significant 0 in your bitset, setting that to 1 and setting all less significant bits to 0.

pseudocode: (assuming that set[0] is the least significant bit, if not, turn it around)

``````int i = 0;
while (i < set.length && set[i])
{
set[i] = 0;
++i;
}

if (i < set.length)
set[i] = 1;
``````
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There is no `operator -` or `operator +`, hence the inconvenience :-) –  vvnraman Mar 10 at 10:00
@vvnraman you're right. I've updated my answer. –  Andreas Grapentin Mar 10 at 10:09
don't forget to handle the all ones case –  assem Mar 10 at 10:18
@assem oh, right. thanks –  Andreas Grapentin Mar 10 at 11:15