We can't directly calculate the hash because the underlying data in `dynamic_bitset`

is private (`m_bits`

)

But we can easily finesse past (subvert!) the c++ access specification system without either

- hacking at the code or
- pretending your compiler is non-conforming (
`BOOST_DYNAMIC_BITSET_DONT_USE_FRIENDS`

)

The key is the template function `to_block_range`

which is a `friend`

to `dynamic_bitset`

. Specialisations of this function, therefore, also have access to its private data (i.e. `m_bits`

).

The resulting code couldn't be simpler

```
namespace boost {
// specialise dynamic bitset for size_t& to return the hash of the underlying data
template <>
inline void
to_block_range(const dynamic_bitset<>& b, size_t& hash_result)
{
hash_result = boost::hash_value(bs.m_bits);
}
std::size_t hash_value(const boost::dynamic_bitset<B, A>& bs)
{
size_t hash_result;
to_block_range(bs, hash_result);
return hash_result;
}
}
```