In C the standard memory handling functions are
free(). However, C++ stdlib allocators only parallel two of them: there is no reallocation function. Of course, it would not be possible to do exactly the same as
realloc(), because simply copying memory is not appropriate for non-aggregate types. But would there be a problem with, say, this function:
bool reallocate (pointer ptr, size_type num_now, size_type num_requested);
ptris previously allocated with the same allocator for
and semantics as follows:
- if allocator can expand given memory block at
ptrfrom size for
num_requestedobjects, it does so (leaving additional memory uninitialized) and returns
- else it does nothing and returns
Granted, this is not very simple, but allocators, as I understand, are mostly meant for containers and containers' code is usually complicated already.
Given such a function,
std::vector, say, could grow as follows (pseudocode):
if (allocator.reallocate (buffer, capacity, new_capacity)) capacity = new_capacity; // That's all we need to do else ... // Do the standard reallocation by using a different buffer, // copying data and freeing the current one
Allocators that are incapable of changing memory size altogether could just implement such a function by unconditional
Are there so few reallocation-capable allocator implementation that it wouldn't worth it to bother? Or are there some problems I overlooked?