On a modern Pentium it is no longer possible to give branching hints to the processor it seems. Assuming that a profiling compiler such as gcc with profile-guided optimization gains information about likely branching behavior, what can it do to produce code that will execute more quickly?
The only option I know of is to move unlikely branches to the end of a function. Is there anything else?
http://download.intel.com/products/processor/manual/325462.pdf volume 2a, section 2.1.1 says
"Branch hint prefixes (2EH, 3EH) allow a program to give a hint to the processor about the most likely code path for a branch. Use these prefixes only with conditional branch instructions (Jcc). Other use of branch hint prefixes and/or other undefined opcodes with Intel 64 or IA-32 instructions is reserved; such use may cause unpredictable behavior."
I don't know if these actually have any effect however.
On the other hand section 3.4.1. of http://www.intel.com/content/dam/www/public/us/en/documents/manuals/64-ia-32-architectures-optimization-manual.pdf says
" Compilers generate code that improves the efficiency of branch prediction in Intel processors. The Intel C++ Compiler accomplishes this by:
- keeping code and data on separate pages
- using conditional move instructions to eliminate branches
- generating code consistent with the static branch prediction algorithm
- inlining where appropriate
- unrolling if the number of iterations is predictable
With profile-guided optimization, the compiler can lay out basic blocks to eliminate branches for the most frequently executed paths of a function or at least improve their predictability. Branch prediction need not be a concern at the source level. For more information, see Intel C++ Compiler documentation. "
http://cache-www.intel.com/cd/00/00/40/60/406096_406096.pdf says in "Performance Improvements with PGO "
" PGO works best for code with many frequently executed branches that are difficult to predict at compile time. An example is the code with intensive error-checking in which the error conditions are false most of the time. The infrequently executed (cold) errorhandling code can be relocated so the branch is rarely predicted incorrectly. Minimizing cold code interleaved into the frequently executed (hot) code improves instruction cache behavior."