The key to Xlib performance is understanding when the library needs to block for a reply from the X server. In general, creating a resource (such as GC) does not require blocking; the resource ID is allocated on the client side, and the create request is simply queued up or sent, with no waiting for a reply. At the time when an Xlib call eventually needs a reply, it will have to suddenly stop and wait for ALL requests up to that point to complete, get replies for everything pending, and finally get the reply for the call at hand. This will make one Xlib function look like it's super slow, but really you're seeing the cost of a whole bunch of previous functions, potentially.
XCreateGC should not block for replies, though, as far as I know. It may be possible that it blocks due to a full send buffer? Perhaps you have a flood of requests and at some point your app stalls while it blocks on a full socket buffer, until the X server can catch up and read more requests.
Anyway since this question is old it's probably too late to ask for details, but I think the basic answer is that if you're using a profiler, an Xlib function call may be on the stack when Xlib is actually waiting for or experiencing the consequences of some earlier Xlib function call, or just the sheer number of X requests you are making. Most likely XCreateGC itself is not the problem.
Another esoteric reason to wait for the X server can be that another client has a server grab, which keeps the server from processing requests from anyone else.
The key strategies are often:
- reduce number of X requests
- do as much as possible before you block for a reply (rough rule of thumb, anything called XGetSomething will have to wait for all pending requests to complete, then gather all replies)
Those are usually the main issues, the exception is when you do some truly heavy operation such as moving lots of image data around, then a single operation can be more important than number of ops or round-trip blocking.