Do something like this
for (auto it = a.begin(); it != a.end();) // see 0x for meaning of auto
unsigned b = 0;
for (int i = 0; i < 8*sizeof(b); ++i)
b |= (*it & 1) << (8*sizeof(b) - 1 - i);
// flush 'b'
So, what you end up doing is that you group chunks of bits together, here I've chosen to group bits into native integers (which is optimal for the target platform). I don't check the indexes here but that's something you'll have to do. What I would do is that I would check how many full chunks I could extract first, do that and then handle any remainder.
Also, note that I'm filling in bits from left to right (assuming the target architecture is little-endian) this means filling in the msb first.
If your doing bit manipulation and stuff like that, figure out a packing scheme for you bits and let that be your data structure. std::bit_vector, std::vector or ::dequeue doesn't really matter. Pack your bits cleverly into the target platform's native integer type, that will give the best kind of performance.