I am wondering why it is not advisable to do constant propagation after register allocation (RA) as well. After several optimization passes (post RA) there is scope for peephole optimizations like constant propagation/dead-code elimination etc. I can think of only two reasons,
- that these optimizations are easy to do on SSA form.
- peephole opt. post RA will result in increased compilation time.
Are there any other reasons?
If it is okay to perform peephole opt. post RA then what should be the data structures/algorithms (any paper, reference etc. would be helpful).
EDIT: in response to 500 - Internal Server Error's comment. After optimization passes like phi-elimination (which is, e.g., in llvm-clang, merged with register allocation), global scheduling like: pulling up instructions to parent basic blocks etc.
In the example shown in figure:
The register allocator figures out that v1 and v2 has the same value and hence, assigns same register (r1) to them. After register allocation a common sub-expression elimination
pass can eliminate
r2 = r1 from basic block #4.