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While compiling some code I noticed big differences in the assembler created between -O0 and -O1. I wanted to run through enabling/disabling optimisations until I found out what was causing a certain change in the assembler.

If I use -fverbose-asm to find out exactly which flags O1 is enabling compared to O0, and then disable them manually, why is the assembler produced still so massively different? Even if I run gcc with O0 and manually add all the flags that fverbose-asm said were enabled with O1, I don't get the same assembler that I would have got just by using O1.

Is there anything apart from '-f...' and '-m...' that can be changed?

Or is is just that 'O1' has some magic compared with 'O0' that cannot be turned off.


Sorry for the crypticness - this was related to Reducing stack usage during recursion with GCC + ARM however the mention of it was making the question a bit hard to understand.

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So the problem is that you don't know the name (or killer combination) of the "offending optimization" that increases stack use, and you also don't know the names of the optimizations from -Os that you need? Where "don't know the name" includes the possibility that they don't have names at all, they're miscellaneous extra optimizations enabled by O1 or Os that can't be controlled individually. –  Steve Jessop Oct 31 '12 at 11:57
    
Yes - basically I know all the flags that GCC says it has enabled (via -fverbose-asm). However disabling them manually doesn't fix the problem, so it must be some 'magic' that I am unable to control. HOWEVER I have just discovered (see linked question) that the problem still existed with O0, just in a different way. It would still be good to know if there is an answer to this question though - as it is scary not being able to control the optimisations. –  Gordon Williams Oct 31 '12 at 12:16
    
Did you tried use GCC's attribute(()) or rewrite a function in another way (e. g. made variables static or allocate their space manually)? As the last-chance solution problematic function can be rewritten in assembly. –  Vovanium Oct 31 '12 at 12:52
    
Are you sure it's an optimisation? Did you look at the assembler output even in the -O0 case? I'm pretty sure gcc always generates code like this since it's the simplest way to generate code. I don't have an arm gcc right now to verify, but this is something that would probably be handled in machine independent parts of the compiler anyway. –  Art Oct 31 '12 at 12:55
    
Hi, I've just updated the question to try and make it clearer (and distinct from the other issue), sorry for the confusion. –  Gordon Williams Oct 31 '12 at 13:57

2 Answers 2

If all you want is to see which passes are enabled at O1 which are not enabled at O0 you could run something like:

gcc -O0 test.c -fdump-tree-all -da
ls > O0
rm -f test.c.*
gcc -O1 test.c -fdump-tree-all -da
ls > O1
diff O0 O1

A similar process, using the set of flags which you discovered, will let you see what extra magic passes not controlled by flags are undertaken by GCC at O1.

EDIT:

A less messy way might be to compare the output of -fdump-passes, which will list which passes are ON or OFF to stderr.

So something like:

gcc -O0 test.c -fdump-passes |& grep ON > O0
gcc -O1 test.c -fdump-passes |& grep ON > O1
diff O0 O1
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Not that this helps, other than providing some evidence for your suspicions about -O1 magic that can't be turned off:

  • From http://gcc.gnu.org/ml/gcc-help/2007-11/msg00214.html:

    CAVEAT, not all optimizations enabled by -O1 have a command-line toggle flag to disable them.

  • From Hagen's "Definitive Guide to GCC, 2nd Ed":

    Note: Not all of GCC’s optimizations can be controlled using a flag. GCC performs some optimizations automatically and, short of modifying the source code, you cannot disable these optimizations when you request optimization using -O

Unfortunately, I haven't found any clear statement about what these hard-coded optimizations might be. Hopefully someone who is knowlegable about GCC's internals might post an answer with some information about that.

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