Modern CPUs have extensive pipelining, that is, they are loading necessary instructions and data long before they actually execute the instruction.
Sometimes, the data loaded into the pipeline gets invalidated, and the pipeline must be cleared and reloaded with new data. The time it takes to refill the pipeline can be considerable, and cause a performance slowdown.
If I call a function pointer in C, is the pipeline smart enough to realize that the pointer in the pipeline is a function pointer, and that it should follow that pointer for the next instructions? Or will having a function pointer cause the pipeline to clear and reduce performance?
I'm working in C, but I imagine this is even more important in C++ where many function calls are through v-tables.
edit @JensGustedt writes:
To be a real performance hit for function calls, the function that you call must be extremely brief. If you observe this by measuring your code, you definitively should revisit your design to allow that call to be inlined
Unfortunately, that may be the trap that I fell into.
I wrote the target function small and fast for performance reasons.
But it is referenced by a function-pointer so that it can easily be replaced with other functions (Just make the pointer reference a different function!). Because I refer to it via a function-pointer, I don't think it can be inlined.
So, I have an extremely brief, not-inlined function.