I have written a low-level optimization for the LLVM code-generator backend. Basically, the optimization will reorder assembly instructions at the basic block level to allow a later (existing) optimization to more efficiently optimize the resultant code. There are a number of test cases I'd like to verify, and I'd like some suggestions for the testing process, as this is the first time I've attempted something like this.
Things I've considered so far:
Compile benchmarks written in C and examine the resulting ASM generated using the
-Soption. I have done this, and compared the results with my optimization to the original results. This method allows me to see that my optimization works, but even if I write custom non-executable C files I will not be able to examine all of my desired instruction ordering test cases.
Compile benchmarks to LLVM assembly, edit that, then lower the ASM down to the target machine assembly. This may work, but because of the different level of abstraction between LLVM and target ASM, I doubt that I'd be able to examine all the test cases by hacking at the LLVM ASM until it generates what I want it to.
Use the target ASM test cases as input to LLVM and recompile using the new optimization. I was unable to find an option for either LLVM or gcc (most of whose options LLVM accepts) to accept ASM as an input.
What is a good strategy for testing specific ASM test cases when validating a low-level ASM compiler optimization? Does LLVM (or gcc) have some command line options that would make this process easier?
Edit: To clarify, I'm not asking about automatically generating ASM test cases; my problem is that I have those test cases (e.g.,
reference_ASM_after.s) but I need to be able to pass
ASM_before.s into LLVM and ensure that the optimized output
ASM_after.s matches known good
reference_ASM_after.s. I'm looking for a way to do this without having to "decompile"
ASM_before.s into a high-level language and then compile it (with the optimization) down to