On Linux, BSD, or OS X, use
malloc. I think the popular "jemalloc" implementation on FreeBSD uses a dedicated
mmap for every region 1 MiB or larger. The smaller regions are still backed by
mmap, so they still give most of the same behavior, but when you
free the smaller regions you won't automatically unmap them. I think. The glibc "dlmalloc" implementation, which is used on Linux, also uses a dedicated
mmap for allocations at least 1 MiB, but I think it uses
sbrk for smaller regions. Mac OS X's malloc also uses
mmap but I am not sure about the particular parameters.
A pointer that you get from a large
malloc will point to a shared page in RAM filled with zero bytes. As soon as you write to a page in that region, a new page in physical RAM will be allocated and filled with zero bytes. So you see, the default behavior of
malloc is already lazy. It's not that the pages are swapped out to start with, it's that they aren't even there to begin with.
If you are done with the data in a region, you can use
MADV_FREE. This tells the kernel that it can free the related pages instead of swapping them out. The pages remain valid, and as soon as you write to them they'll turn back into normal pages. This is kind of like calling
free and then
Summary: Just use
malloc. It does what you want.