I'm constrained by a 128Kb limit executable size for an embedded PowerPC system. Unfortunately, using option
-Os to optimize for size does not work due to what I believe is a compiler bug (link with
-Os fails due to undefined reference to
_restgpr_30_x and similar), while with
-O everything links fine. This is with gcc 4.8.1 host=i86, target=powerpc-wrs-vxworks.
My next idea is to use the various optimization options selectively. But which of these options would reduce code size instead of execution time? I went on to use some options in isolation and found that -O2 in addition with
-fno-caller-saves -fno-cse-follow-jumps -fno-hoist-adjacent-loads -fno-inline-small-functions -fno-optimize-sibling-calls -fno-peephole2 -fno-reorder-functions -fno-rerun-cse-after-loop -fno-tree-vrp -fno-reorder-blocks -fno-tree-vect-loop-version
reduces code size when used. Is there a more systematic approach than experimenting? The GCC docs describe the various options, but don't say if they are more geared towards execution time speedup or code size reduction.