I'm writing an editor for large archive files (see below) of 4GB+, in native&managed C++.
For accessing the files, I'm using file mapping (see below) like any sane person. This is absolutely great for reading data, but a problem arises in actually editing the archive. File mapping does not allow resizing a file while it's being accessed, so I don't know how I should proceed when the user wants to insert new data in the file (which would exceed the file's original size, when it was mapped.)
Should I remap the whole thing every time? That's bound to be slow. However, I'd want to keep the editor real-time with exclusive file access, since that simplifies the programming a lot, and won't let the file get screwed by other applications while being modified. I wouldn't want to spend an eternity working on the editor; It's just a simple dev-tool for the actual project I'm working on.
So I'd like to hear how you've handled similar cases, and what other archiving software and especially other games do to solve this?
This is not a text file, I'm writing a specific binary archive file format. By which I mean a big file that contains many others, in directories. Custom archive files are very common in game usage for a number of reasons. With my format, I'm aiming to a similar (but somewhat simpler) structure as with Valve Software's GCF format - I would have used the GCF format as it is, but unfortunately no editor exists for the format, although there are many great implementations for reading them, like HLLib.
Accessing the file must be fast, as it is intended for storing game resources. So it's not a database. Database files would be contained inside it, along with GFX, SFX etc. files.
"File mapping" as talked here is a specific technique on the Windows platform, which allows direct access to a large file through creating "views" to parts of it, see here: http://msdn.microsoft.com/en-us/library/aa366556(VS.85).aspx - This technique allows minimal latency and memory usage and is a no-brainer for accessing any large files. So this does not mean reading the whole 4GB file into memory, it's exactly the contrary.