@Mehrdad: Hmm.. Looking at the docs for dlmalloc, it appears that it does attempt to return data back to the system. But of course the caveats I mentioned above apply.
@Mehrdad: So, yes, a heap algorithm could shrink the size of said data segment. But the circumstances in which it could do so are rare, and detecting the case where all memory between <some address> and the current end of the data segment is being unused would be very expensive to do in free. So most (all?) allocators don't do it.
@Mehrdad: For instance, you have a program that allocates memory of size 100MB with sbrk. Then you allocate memory of size 1MB with sbrk. Then the size 100MB is deallocated. There isn't a way to return that back to the system; because that 1MB is further out keeping the size of the data segment large. There isn't a way to return that memory in the middle. Since this is a very common bit to run in to, and since detecting when the entire end of the data section is free is expensive, most mallocs don't do it.
@Mehrdad: Basically, the model that *nix uses is that user dynamic memory is all allocated in the "data segment". Then there's a "hole" of unused memory. And then on top of that there's the stack. (More or less -- which way is up and which way is down depends on platform convention; some memory space is reserved for the operating system; etc.) The way you ask for memory on a *nix system is to call sbrk, which just increases the data segment size into that "unused hole" between user data and the stack and such.
