I am just starting out looking into ARM assembly on a Raspberry Pi (any links to good docs would be appreciated in the comments)
I have a C++ program that I compiled to Assembler using the following command
g++ -S -fverbose-asm -march=armv6j -mtune=arm1176jzf-s file.cpp
I can then inspect file.s which is great and it makes some kind of sense. However I thought that the ARM chips had 15 general purpose registers my reading of this code is that it is only using r1 - r3
mov r3, r3, asl #1 @ tmp166, tmp166, add r3, r3, r2 @ tmp166, tmp166, D.24883 mov r2, r3, asl #3 @ tmp167, tmp166, add r3, r3, r2 @ tmp166, tmp166, tmp167 rsb r2, r3, r1 @ D.24883, tmp166, tmp161
I can't see an occurrence of a register higher than r3 in the generated code. Is there something I am fundamentally understanding? Is there a good reason for this? Or is the generated code suboptimal?
- if I compile with
-O2it does use more registers, so I'm assuming that it is something GCC chooses to do. Not sure quite why or which switch controls this behavior.
- I have also read that r1 -r4 can be used without resetting their state, so I guess for small functions this is more efficient?