On Windows at least an application running is locking its own .exe file and all statically linked .dll files. This prevents an application from updating itself directly, at leads if it desires to prevent a re-boot (if re-boot is OK the app can pass in the
MOVEFILE_DELAY_UNTIL_REBOOT flag to MoveFileEx and is free to 'overwrite' it's own .exe, as is delayed anyway). This is why typically applications don't check for updates on their own .exe, but they start up a shim that checks for updates and then launches the 'real' application. In fact the 'shim' can even be done by the OS itself, by virtue of a properly configured manifest file. Visual Studio built application get this as a prefab wizard packaged tool, see ClickOnce Deployment for Visual C++ Applications.
The typical Linux app doesn't update itself because of the many many many flavors of the OS. Most apps are distributed as source, run trough some version of auto-hell to self-configure and build themselves, and then install themselves via
make install (all these can be automated behind a package). Even apps that are distributed as binaries for a specific flavor of Linux don't copy themselves over, but instead install the new version side-by-side and then they update a
symbolic link to 'activate' the new version (again, a package management software may hide this).
OS X apps fall either into the Linux bucket if they are of the Posix flavor, or nowadays fall into the Mac AppStore app bucket which handles updates for you.
I would day that rolling your own self-update will never reach the sophistication of either of these technologies (ClickOnce, RPMs, AppStore) and offer the user the expected behavior vis-a-vis discovery, upgrade and uninstall. I would go with the flow and use these technologies in their respective platforms.