Has anyone seen any real world numbers for different programs which are using the feedback optimization that C/C++ compilers offer to support the branch prediction, cache preloading functions etc.
I searched for it and amazingly not even the popular interpreter development groups seem to have checked the effect. And increasing ruby,python,php etc. performance by 10% or so should be considered usefull.
Is there really no benefit or is the whole developer community just to lazy to use it?
10% is a good ballpark figure. That said, ...
You have to REALLY care about the performance to go this route. The product I work on (DB2) uses PGO and other invasive and agressive optimizations. Among the costs are significant build time (triple on some platforms) and development and support nightmares.
When something goes wrong it can be non-trivial to map the fault location in the optimized code back to the source. Developers don't usually expect that functions in different modules can end up merged and inlined and this can have "interesting" effects.
Problems with pointer aliasing, which are nasty to track down also usually show up with these sorts of optimizations. You have the additional fun of having non-deterministic builds (an aliasing problem can show up in monday's build, vanish again till thursday's, ...).
The line between what is correct or incorrect compiler behaviour under these sorts of aggressive optimizations also becomes fairly blurred. Even with the luxury of having our compiler guys in house (literally) the optimization issues (either in our source or the compiler) are still not easy to understand and resolve.