I haven't found a question with a really basic answer on this, so here goes.
If you're on a 64 bit machine, by the way, you should seriously consider writing all the data into a file, memory mapping the file, and just use whatever array sort you like. Quicksort is pretty cache-friendly: it won't thrash badly. The assignment is probably designed to stop you doing this, but might be a bit out of date ;-)
Failing that, you need some kind of external sort. There are other ways to do it, but I think merge sort is probably the simplest. Before you start merging:
- work out how much data you can fit into memory (or, again, mmap it). If you're on a PC then 1GB seems like a fair assumption, but it may be a few times more or less.
- load this much data (so one of your 6 files, in the example)
- quicksort it (since you tagged "quicksort", I guess you know how to do that), or any other sort of your choice.
- write it back to disk (if you didn't mmap).
This leaves you with 6 1GB files, each of which individually is sorted. At this point you can either work up gradually, or go for the whole lot in one go. With 6 chunks, going for the whole lot is fine, in what is called a "6-way merge":
- open a file for writing
- open your 6 files for reading, and read a few million records out of each
- examine the 6 records at the start of each of the 6 buffers. One of theses 6 must be the smallest of all. Write this to the output, and move forward one step through that buffer.
- as you reach the end of each buffer, refill it from the correct file.
There's some optimization you can do regarding how you work out which of your 6 possibilities is the smallest, but the big performance difference will be to make sure you use large enough read and write buffers.
Obviously there's nothing special about the merge being 6-way. If you'd rather stick to a 2-way merge, which is easier to code, then of course you can. It will take 5 2-way merges to merge 6 files.