Reapply with fixes for clang tests.
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This is a simple enum attribute. Test changes are because enum
attributes are sorted before type attributes, so mustprogress is
now in a different position.
Have funcattrs expand all implied attributes into the IR. This expands the infrastructure from D100400, but for definitions not declarations this time.
Somewhat subtly, this mostly isn't semantic. Because the accessors did the inference, any client which used the accessor was already getting the stronger result. Clients that directly checked presence of attributes (there are some), will see a stronger result now.
The old behavior can end up quite confusing for two reasons:
* Without this change, we have situations where function-attrs appears to fail when inferring an attribute (as seen by a human reading IR), but that consuming code will see that it should have been implied. As a human trying to sanity check test results and study IR for optimization possibilities, this is exceeding error prone and confusing. (I'll note that I wasted several hours recently because of this.)
* We can have transforms which trigger without the IR appearing (on inspection) to meet the preconditions. This change doesn't prevent this from happening (as the accessors still involve multiple checks), but it should make it less frequent.
I'd argue in favor of deleting the extra checks out of the accessors after this lands, but I want that in it's own review as a) it's purely stylistic, and b) I already know there's some disagreement.
Once this lands, I'm also going to do a cleanup change which will delete some now redundant duplicate predicates in the inference code, but again, that deserves to be a change of it's own.
Differential Revision: https://reviews.llvm.org/D100226
Pretty straightforward use of existing infrastructure and port of the attributor inference rules for nosync.
A couple points of interest:
* I deliberately switched from "monotonic or better" to "unordered or better". This is simply me being conservative and is better in line with the rest of the optimizer. We treat monotonic conservatively pretty much everywhere.
* The operand bundle test change is suspicious. It looks like we might have missed something here, but if so, it's an issue with the existing nofree inference as well. I'm going to take a closer look at that separately.
* I needed to keep the previous inference from readnone. This surprised me, but made sense once I realized readonly inference goes to lengths to reason about local vs non-local memory and that writes to local memory are okay. This is fine for the purpose of nosync, but would e.g. prevent us from inferring nofree from readnone - which is slightly surprising.
Differential Revision: https://reviews.llvm.org/D99769
If a function doesn't contain loops and does not call non-willreturn
functions, then it is willreturn. Loops are detected by checking
for backedges in the function. We don't attempt to handle finite
loops at this point.
Differential Revision: https://reviews.llvm.org/D94633
Having arbitrary passes looking at the TargetOptions is pretty
messy. This was also disregarding if a function already had an
explicit attribute setting on it. opt/llc now add the attributes to
functions that don't specify the attribute. clang and lld do not call
the function to do this, which they maybe should.
This was also treating unsafe-fp-math as implying the others, and
setting the other attributes based on it. This is not done anywhere
else, and I'm not sure is correct based on the current description of
the option bit.
Effectively reverts 1d8cf2be89
This patch adds a function attribute, nofree, to indicate that a function does
not, directly or indirectly, call a memory-deallocation function (e.g., free,
C++'s operator delete).
Reviewers: jdoerfert
Differential Revision: https://reviews.llvm.org/D49165
llvm-svn: 365336
We have a single library build without relaxation options.
When inlined library functions remove fast math attributes
from the functions they are integrated into.
This patch sets relaxation attributes on the functions after
linking provided corresponding relaxation options are given.
Math instructions inside the inlined functions remain to have
no fast flags, but inlining does not prevent fast math
transformations of a surrounding caller code anymore.
Differential Revision: https://reviews.llvm.org/D38325
llvm-svn: 314568
Nikita Popov