I would probably:
- create a new file.
- seek in the old file.
- do a buffered read/write from old file to new file.
- rename the new file over the old one.
To do the first three steps (error-checking omitted, for example I can't remember what seekg does if the file is less than 500k big):
ofs << ifs.rdbuf();
Then I think you have to do something non-standard to rename the file.
Obviously you need 500k disk space free for this to work, though, so if the reason you're truncating the log file is because it has just filled the disk, this is no good.
I'm not sure why the seek is slow, so I may be missing something. I would not expect seek time to depend on the size of the file. What may depend on the file, is that I'm not sure whether these functions handle 2GB+ files on 32-bit systems.
If the copy itself is slow, then depending on platform you might be able to speed it up by using a bigger buffer, since this reduces the number of system calls and perhaps more importantly the number of times the disk head has to seek between the read point and the write point. To do this:
const int bufsize = 64*1024; // or whatever
Test it with different values and see. You could also try increasing the buffer for the ofstream, I'm not sure whether that will make a difference.
Note that using my approach on a "live" logging file is hairy. For example, if a log entry is appended between the copy and the rename, then you lose it forever, and any open handles on the file you're trying to replace could cause problems (it'll fail on Windows, and on linux it will replace the file, but the old one will still occupy space and still be written to until the handle is closed).
If the truncation is done from the same thread which is doing all the logging, then there's no problem and you can keep it simple. Otherwise you'll need to use a lock, or a different approach.
Whether this is entirely robust depends on platform and filesystem: move-and-replace may or may not be an atomic operation, but usually isn't, so you may have to rename the old file out of the way, then rename the new file, then delete the old one, and have an error-recovery which on startup detects if there's a renamed old file and, if so, puts it back and restarts the truncate. The STL can't help you deal with platform differences, but there is boost::filesystem.
Sorry there are so many caveats here, but a lot depends on platform. If you're on a PC, then I'm mystified why copying a measly half meg of data takes any time at all.