You might consider the setuid switch on the executable itself. Wikipedia has an article on it which even shows you the difference between
getuid() quite effectively, the former being for finding out who you're "emulating" and the latter for who you "are". The sudo process, for example, geteuid should return 0 (root) and getuid your user's id, however, its sub-processes do truly run as root (you can verify this with
sudo id -u -r).
I don't think there's a way to easily programmatically gain root access - after all, applying the principle of least privilege, why would you need to? Common practise is to run only limited parts of code with elevated privileges. A lot of daemons etc are also set up under modern systems to run as their own user with most of the privileges they need. It's only for very specific operations (mounting etc) that root privileges are truly needed.
My original answer stands (although my 2013 self might make a better job of it than my 2010 one), but if you are designing an application that requires root access, you may want to consider exactly what sort of root access is needed and consider the use of POSIX Capabilities (man page). These are different to capability-based security as implemented in L4 et al. POSIX capabilities allow your application to be granted a subset of root's powers. For example
CAP_SYS_MODULE will allow you to insert kernel modules, but give you no other root powers. This is in use in distributions e.g. Fedora has a feature to completely remove setuid binaries with indiscriminate root access.
This matters because as a programmer, your code is obviously perfect! But, the libraries on which you depend (sigh, if only you'd written them!) might have vulnerabilities in them. Using capabilities, you can limit the use of this exploit, and save yourself and your company from security-related scrutiny. This makes everyone happier.