I have a C++ application whose in-memory data set consists of a set of objects, each of which has a key/value set attached. Objects and keys are referred to by an int id, and values are always instances of a single class. Key ids are unique in an object, objects ids are unique in the universe.
This is almost a
map<pair<int, int>, value> except that I have the additional requirement that I need to be able to enumerate the keys attached to a particular object. And it all needs to be transactional, so I can roll back changes if things go wrong.
This all strikes me as being a totally standard problem for which I should be able to get off-the-shelf code, but I've been unable to find anything. Can anyone:
(a) tell me what this problem is actually called, so I know what to look for;
(b) suggest any code I should look at.
Note that I want this to be an in-memory data store only, so NoSQL approaches like Berkeley DB aren't suitable --- I don't want to keep reading and writing value objects (which are moderately complex).
So far I've found either simple approaches that don't do transactions (like boost_multi_index, or even just nested STL maps), or complex approaches using persistent storage, but nothing in between. I could implement my own transactional layer on top of basic storage, but to be honest, I'd rather not.
What am I missing?
Edit: well, nobody appears to have been able to suggest one; so I wrote my own. It is surprisingly fiddly but not actually very much code. Right now it's just a template class using nested maps for storage but I'm considering changing to using boost::multi_index_container instead for simplicity. It's not polished and probably riddled with bugs but if anyone thinks they can use it, let me know.
More Edit: for reference, it turns out that the Googleable name for what I'm looking for is a entity/attribute/value database (EAV).