I need something that behaves like an std::vector
(interface/features/etc.) but I need it to be flat, i.e. it mustn't dynamically allocate a buffer. Clearly, this doesn't work in general, as the available size must be determined at compile time. But I want the type to be able to deal with N
objects without additional allocations, and only if further items are pushed resort to dynamic allocation.
Some implementations of std::vector
already do this, but only to the extent that it uses its existing members if the accumulated size of the content fits (I believe about three pointers-worth of payload). So, firstly, this is not a guarantee and secondly it is not configurable at compile time.
My thoughts are that I could either
- A) self-cook a type (probably bad because I'd loose the ridiculous performance optimisations from
vector
) - B) use some sort of
variant<vector<T>,array<T,N>>
with an access wrapper (oh, the boilerplate) - C) come up with a
MyAllocator<T,N>
that has anarray<T,N>
member which then may be used to hold the firstN
items and after this defer toallocator<T>
but I'm not sure if this can work because I cannot find out whethervector
must permanently hold an instance of its allocator type as a member (I believe it does not)
I figure I'm not the first person to want this, so perhaps there are already approaches to this? Some empirical values or perhaps even a free library?
reserve
doesn't satisfy the requirements stated above.vector
with, effectively, Short String Optimization?