I am studying about operating systems(Silberscatz, Galvin et al). My programming experiences are limited to occasional coding of exercise problems given in a programing text or an algorithm text. In other words I do not have a proper application programming or system programming experience. I think my below question is a result of a lack of experience of the above and hence a lack of context.
I am specifically studying IPC mechanisms. While reading about shared memory(SM) I couldn't imagine a real life scenario where processes communicate using SM. An inspection of processes attached to the same SM segment on my linux(ubuntu) machine(using 'ipcs' in a small shell script) is uploaded here
Most of the sharing by applications seem to be with the X deamon. From what I know , X is the process responsible for giving me my GUI. I infered that these applications(mostly applets which stay on my taskbar) share data with X about what needs to change in their appearances and displayed values. Is this a reasonable inference??
If so, my question is, what is the difference between my applications communicating with 'X' via shared memory segments versus my applications invoking certain API's provided by 'X' and communicate to 'X' about the need to refresh their appearances?? BY difference I mean, why isn't the later approach used?
Isn't that how user processes and the kernel communicate? Application invokes a system call when it wants to, say read a file, communicating the name of the file and other related info via arguments of the system call?
Also could you provide me with examples of routinely used applications which make use of shared memory and message-passing for communication?
EDIT I have made the question more clearer. I have formatted the edited part to be bold