In C++2003 the allocator model is broken and there isn't really a proper solution. For C++2011 the allocator model was fixed and you can have per instance allocators which are propagated down to contained objects (unless, of course, you choose to replace them). Generally, for this to be useful you probably want to use a dynamically polymorphic allocator type which the default
std::allocator<T> is not required to be (and generally I would expect it not to be dynamically polymorphic although this may be the better implementation choice). However, [nearly] all classes in the standard C++ library which do memory allocation are templates which take the allocator type as template argument (e.g. the IOStreams are an exception but generally they don't allocate any interesting amount of memory to warrant adding allocator support).
In several of your comments you are insisting that allocators effectively need to be global: that is definitely not correct. Each allocator-aware type stores a copy of the allocator given (at least, if it has any instance level data; if it doesn't there isn't anything to store as is e.g. the case with the default allocator using
operator new() and
operator delete()). This effectively means that the allocation mechanism given to an object needs to stick around as long as there is any active allocator using it. This can be done using a global object but it can also be done using e.g. reference counting or associating the allocator with an object containing all objects to which it is given. For example, if each "document" (think XML, Excel, Pages, whatever structure file) passes an allocator to its members, the allocator can live as member of the document and get destroyed when the document is destroyed after all its content is destroyed. This part of the allocator model should work with pre-C++2011 classes, as long as they take an allocator argument, as well. However, in pre-C++2011 classes the allocator won't be passed to contained objects. For example, if you give an allocator to a
std::vector<std::string> the C++2011 version will create the
std::strings using the allocator given to the
std::vector<std::string> appropriately converted to deal with
std::strings. This won't happen with pre-C++2011 allocators.
To actually use allocators in a subsystem you will effectively need to pass them around, either explicitly as an argument to your functions and/or classes or implicitly by way of allocator-aware objects which serve as a context. For example, if you use any of the standard containers as [part of] the context passed around, you can obtain the used allocator using its