I'm using clang+LLVM 2.9 to compile various workloads for x86 with the -Os option. Small binary size is important and I must use static linking. All binaries are 32-bit.
I notice that many instructions use addressing modes with 32-bit displacements when only 8 bits are actually used. For example:
89 84 24 d4 00 00 00 mov %eax,0xd4(%esp)
Why didn't the compiler/assembler choose the compact 8-bit displacement?
89 44 24 d4 mov %eax,0xd4(%esp)
In fact, these wasted addressing bytes are over 2% of my entire binary!
I looked at LLVM's link time optimization and tried --emit-llvm, but it didn't mention or help this issue.
Is there some link-time optimization that can use knowledge of the actual displacements to choose the smaller instruction form?
Thanks for any help!