# What is the complexity of C++ bitset constructor that converts from long?

My guess is O(n) where n is the no. of bits. Or is it constant w.r.t. n? I mean it shouldn’t it just be able to copy the bits from memory?

• I don't think there's any complexity specified, but O(n) sounds reasonable. And I'm a little curious about why are you asking? Is it just plain curiosity, or do you have a more concrete problem? Aug 27, 2018 at 13:49
• But `long` has a given number of bits fixed at compilation time, so what is the difference between O(n) and constant complexity if n is always the same number? Aug 27, 2018 at 13:51
• I'd assume it is constant as long as the bitset size is less than or equal to the size of `unsigned long long` Aug 27, 2018 at 13:51
• It could change depending on the implementation, so knowing about your compiler would help. As an example, the source of the GNU STL shows that it is O(1). Aug 27, 2018 at 13:52
• @Foon: This definitely sounds like a premature optimization. Aug 27, 2018 at 13:56

## 1 Answer

Mathematically speaking, long has a fixed length, therefore copying it's contents is constant-time operation. On the other hand, you need to zero-out the rest of the bits in the bitset and that you are not able to do in less-than-linear time with respect to the length of the bit_set. So, In theory you cannot do better than O(n), where n is the length of the bitset.

I guess that from the asymptotical complexity point of view you can safely assume that the complexity of the constructor is the same as zeroing-out the allocated memory.

This analysis however has some value only for huge values of n and it does not make much sense to me to use a long constructor to initialize a bitset of million bits. So, if the size of the bitset is on the same scale as the size of long, it is practically constant-time.