std::vector<T>, how can I create a view that exposes the interface of a
std::vector<std::pair<T, T>>, where each pair consists of two consecutive elements in the underlying vector?
The goal is to create multiple container abstractions over the same storage, which is a
std::vector<T>. The type
T is some sort of discriminated union, à la Boost Variant. The storage requirement is given, otherwise I would simply use a
std::vector<std::pair<T, T>>. The views over the storage I would like to support are sets (unique elements) and tables (associative array, unique keys). While the former is straight-forward by ensuring the set uniqueness property, the latter requires handling keys and values.
To support associative array semantics over a
std::vector<T>, I am currently thinking that the best way would be to create a view of the form
std::vector<std::pair<T, T>>, and that this view would allow me use STL algorithms to maintain the required properties. Does this sound like a good strategy? Are there any other ideas?
If I had an iterator i that goes over every even element and iterator j that goes through every odd element, Boost's zip iterator comes to mind, which would enable iteration in (i,j) pairs. But my use case is slightly different in that I do not have two separate containers.