I don't see any way
bcac is possible. At first I expected some trickery based on the stdio buffers being flushed in an unexpected order. But even then:
The child won't output
c until after it has output
a. Therefore the first
bcac must have come from the parent.
The parent won't output
c until after the
waitpid completes. But that can't happen until after the child is finished, including the final stdio flush that happens during
exit(). Therefore the first
c is always from the child.
Proof by contradiction has been achieved... the output can't be
Well, there is one thing you could do to mess up the order. You could exec the program inside a process that already has a child which is about to exit. If the pre-existing child exits before the new child prints
a, then the main process will detect that exit with
waitpid, and go ahead and print its stuff and possibly exit before the child prints anything.
This is something to watch out for in setuid programs: don't assume that because your program only created one child process that it only has one child process. If you're in an advanced defensive-code learning context this answer makes sense. In a unix-newbie context it doesn't seem relevant, and it's probably better to just say
bcac is impossible, even though it's technically not true.