I want to integrate a runtime CPU Dispatch into my library. I have several version of some functions, optimized for sse2/sse3/avx and a x87 generic variant. I want to compile all versions into single .so library and I think how to implement a cpu dispatcher.
A fastest way as I think, is to get cpu dispatching at linking step (dynamic linking), so when ld.so will load my library, I want it to check, does cpu supports sse2, sse3 or avx, and then I want ld.so to select right set of functions.
For example (using gcc target attribute):
float* func3_generic(float *a, float *b) __attribute__ ((__target__ ("fpmath=387"))); float* func3_sse2(float *a, float *b) __attribute__ ((__target__ ("sse2"))); float* func3_sse3(float *a, float *b) __attribute__ ((__target__ ("sse3"))); float* func3_avx(float *a, float *b) __attribute__ ((__target__ ("avx")));
I want to have some special symbol
func3(), which will be setted by linker (ld.so) to the most advanced of
func3_avx. So, if the cpu is Core i7-xxxx, I want that every call to func3 will be the call to func3_avx, and if cpu is PentiumPro, call to func3 will be call to the func3_generic.
At same time I want not to write a lot of dispatching code manually and I want the right variant selected with minimum overhead (no extra indirect jump). This means that I can afford extra time in application startup, but no anything extra in calling this function (there are very high number of calls in some cases).
UPDATE. Linker can do dispatching based on AUXV vector,
$ LD_SHOW_AUXV=1 /bin/echo ... AT_HWCAP: fpu ... mmx fxsr sse sse2