Based on the clarification you have provided in your comments, it sounds like you are trying to mis two things that have nothing to do with each other.
void *part1 = malloc(100);
void *part2 = malloc(250);
You want to manipulate virtual memory so that these two blocks of memory are addressable as 350 contiguous bytes of memory.
This is not possible. First of all, the blocks of memory you have will in general be neither page-aligned nor page-sized. You can only manipulate virtual memory in page-aligned, page-sized chunks. Secondly, even if you are very lucky and they are page-aligned and page-sized, they probably come from the heap area (the area below
brk()). I don't think you can remap or unmap that area of memory using
munmap(). (There are alternate implementations of
malloc() that get memory from
mmap() and wouldn't be subject to this problem but they are still subject to the first problem.
But let's say you do have two blocks of memory that are page-aligned, page-sized, and remapable, and you want to remap them so that they are adjacent. Most likely, you obtained those blocks from
mmap() in the first place. Then you could remap them to adjacent addresses using
mremap(). Be aware that
mremap() is Linux-specific though. I'm not aware of a portable way to do this. In pseudocode:
/* Map some useless memory just to get the kernel to reserve a range
of addresses for us which will be big enough for both blocks */
address = mmap(NULL, blocksize1+blocksize2, ..., MAP_ANONYMOUS, ...);
/* remap the first block to the the first address in this new range */
mremap(block1, blocksize1, blocksize1, MREMAP_MAYMOVE|MREMAP_FIXED, address);
/* remap the second block to go right after the first block */
mremap(block2, blocksize2, blocksize2, MREMAP_MAYMOVE|MREMAP_FIXED,