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Michael Petch
Michael Petch
02:32
Ah I see you are here
@DavidWohlferd after this discussion I did further testing and I observed abnormal behaviour even with m constraints. To be quite frank I'm leaning towards this being an actual bug. The optimizer doesn't work the way I would expect in this case, or if it is working as expected there is a severe deficiency in the GCC documentation with regards to memory operands or passing pointers in registers.
David Wohlferd
David Wohlferd
I was just this minute able to produce the problem.
Adding a memory clobber fixed my example.
Michael Petch
Michael Petch
Yes
exactly
memory is the only thing that have foudn that guarantees to get it working as I'd expect
but that is a sledgehammer
I tested ona number of versions of CLANG and the optimized results were what I'd expect
now that may be they got lucky or it was design intent in CLANG
David Wohlferd
David Wohlferd
Well, `__attribute__((noinline)) works too. Not much better.
Michael Petch
Michael Petch
Yeah but that should be inlinable in my opinion
see that is a work around
as i said previously this seems to be an inline issue
but it sucks this exists
David Wohlferd
David Wohlferd
And has for a long time. I just tried 5.2
Michael Petch
Michael Petch
02:41
because it indicates that if you put objects on the stack and pass them as pointers into fucntions that get inlined, that assembler templates that may use that data may not work as expected.
David Wohlferd
David Wohlferd
OTOH, wouldn't the fix be that function calls imply a memory clobber, even when inlining?
Michael Petch
Michael Petch
In real lide projects I use inline sparingly. But I'm wondering if I've ever coded somethign that got optimized ina way that I didn't expect and it cause unexpected behavior that never manifested in a way I could see
David Wohlferd
David Wohlferd
Always a risk with inline asm.
Michael Petch
Michael Petch
My opinion. I think that if you pass a memory operand that I'd expect that it would would treat it in such a manner as to do the "memory" clobebr on just that variable
the problem there is that if you ever have multiple variables that may be in registers the memory clobber will dump all of them. But I really only want to dump specific ones.
David Wohlferd
David Wohlferd
While that would be ideal, it may be a tough sell.
Michael Petch
Michael Petch
02:44
Yeah
so as it stands
the only guaranteed fix I have found is to use a memory clobber.
David Wohlferd
David Wohlferd
Does clang do a memory clobber? Or just the individual clobber?
Michael Petch
Michael Petch
CLANG seems to be smart. It clobbers only the memory operands you pass and nothign else
I did some experiemnts with a number of stack variables
and my observation was that CLANG was smart enough to dump the data for anyhting passed as a memory operand, and it also seemed to do it when passing a pointer through a register.
anything else seemed to not be dumped
David Wohlferd
David Wohlferd
Doesn't clang actually parse the asm too? Maybe that's how they get this to work right.
Michael Petch
Michael Petch
I'd have to revisit those tests
No
It doesn't parse the inline for semantics as far as I know
inline assembly I mean
There should be a big red warning on the GCC pages about this
because you and I have been at this a while
and we discover this now
(or recently)
I have been inclined to go through all my answers that involved inline assembly and fix them and put a warning.
David Wohlferd
David Wohlferd
Are you planning to post something to gcc list?
Michael Petch
Michael Petch
02:49
I don't have time now, but if you wish to I'd appreciate it.
personally I think this should be on the list
but until today I still had the feeling that maybe I am just missing something
but given that you made the error makes me think that GCC doesn't work as one would expect
so if you can put a query on the mailinglist it would be nice. Saves me the hassle lol
David Wohlferd
David Wohlferd
Modifying patrick's example makes it painfully clear what the problem is. I can take a crack at it, but I don't know how receptive people will be. My last attempt there was to get 'basic' asm completely deprecated.
It did not go over well. And the objections were (imo) indefensible.
Michael Petch
Michael Petch
:(
Another reason to not use inline asm ;-)
One other person that I think should know (maybe he knows) about this is @PeterCordes mainly because he also deals with inline assembly queries on SO
David Wohlferd
David Wohlferd
03:17
I didn't know we were running out (of reasons)... Peter might be a good person to ask, but I don't know how to get a hold of him (short of posting a comment on one of his many answers).
Michael Petch
Michael Petch
lol that was my thought. I discourage people from using inline and still ink to your GCC article on the subject. But it seems that for some reason people feel inclined to use it anyway.
David Wohlferd
David Wohlferd
04:01
So, something like this? limegreensocks.com/sl2/sl2.txt
Michael Petch
Michael Petch
Looks good. It doesn't seem to be specific to just 6.1 I think I had the same results with 4.9 series as well. But I do know 6.x and 7.x do this
David Wohlferd
David Wohlferd
04:29
Sent. If you are on the list, feel free to add your .02
Michael Petch
Michael Petch
04:40
It looks like this does work. Use a memory constraint but cast it to volatile. You have to manually do an LEA instruction to get the address into EDI (I also use a dummy variable for EDI although it isn't required):

int getStringLength(const char *pStr){

int len;
int dummy;
__asm__ (
"lea %2, %1\n\t"
"repne scasb\n\t"
"not %%ecx\n\t"
"dec %%ecx"
:"=c" (len),
"=D"(dummy)
: "m"(*(volatile const char *)pStr),
"c"(-1), "a"(0)
);

return len;
}
David Wohlferd
David Wohlferd
Yeah, but who writes their inline asm that way?
Before today I mean...
Michael Petch
Michael Petch
lol, agreed. but it seems it might be the only way to avoid wholescale use of memory clobber.
doing the volatile cast on "+D"(pStr) doesn't seem to work. At least not in my testing
David Wohlferd
David Wohlferd
05:22
I guess we'll see what the experts say. If you (or whoever else may be reading this) is not on the gcc mailing list, you can follow the discussion at gcc.gnu.org/ml/gcc/2017-08/msg00116.html (once there is something to follow).

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