Which "boost overheads" are you concerned about, and in what way is
shared_ptr "too heavy" for your application? There are no overheads simply from using Boost (at least if you only use header-only libraries, such as the smart pointer library); the only overheads I can think of concerning
- Thread-safe reference counting; since you're using an ancient compiler, I assume you also have an ancient runtime library and kernel, so this may be very inefficient. If your application is single threaded, then you can disable this by #defining
- Allocation of the reference-counting structure alongside the managed object. You can eliminate the extra allocation by creating the object using
In many cases, you can eliminate the overhead from speed-critical code by not creating objects or copying shared pointers - pass pointers by reference and only copy them when you actually need to.
If you need thread safety for some pointers, but not others, and (after profiling, and removing all unnecessary allocations and pointer copying) you find that the use of shared pointers is still causing significant overhead, then you could consider using
intrusive_ptr, and manage your own reference counting within the object.
There may also be benefit to updating to a modern GNU/Linux version, if that's feasible. Thread synchronisation is much more efficient since the introduction of futexes in Linux 2.6. You may find this helps in other ways too; there have been many improvements over the last decade. A more modern compiler would also provide the standard (TR1 or C++11) shared pointer, so you wouldn't need Boost for that.