On Mon, Feb 8, 2016 at 7:39 PM, Xinliang David Li <davi...@google.com> wrote:
> I took a look at the problem. The implicitly defaulted operators > should not be instrumented as specified -- I actually I just added the > new test case for that (checking profile counter not generated) right > after my previous reply and it still passes with this patch. The > reason is that those operators have 'implicit' bit set, and profile > instrumentation in FE is implemented in two stages: 1) counter > assignment; 2) actual transformation. For methods with implicit bit > set, step 1) is skipped as designed, so step 2) simply becomes a > no-op. > > In short, the test case still needs explicit '=default', and the > implicit case is covered elsewhere. > OK, thanks for the explanation! Why is that the case, though - why would an implicitly default function be any different from a profile (& profile-guided-optimization) perspective from an explicitly defaulted one? > > thanks, > > David > > On Mon, Feb 8, 2016 at 5:23 PM, David Blaikie <dblai...@gmail.com> wrote: > > > > > > On Mon, Feb 8, 2016 at 5:05 PM, Xinliang David Li <davi...@google.com> > > wrote: > >> > >> ha! somehow I kept thinking you are referring to implicit declared > ctors. > > > > > > Ah, glad we figured out the disconnect - thanks for bearing with me! > > > >> > >> > >> From your test case, it is seems that the implicit copy/move op is > >> also broken and is fixed by this patch too. That means a missing test > >> case to me. Will update the case when verified. > > > > > > Again, this is a case where I'd probably just simplify the test, as I > asked > > earlier in the thread (I asked if it mattered if the op was explicitly or > > implicitly defaulted (& your response: "> Is the fix/codepath > specifically > > about explicitly defaulted ops? > > > > yes -- explicitly defaulted. There are some test coverage already for > > implicitly declared ctors (but not assignment op -- probably worth > > adding some testing too).") > > > > So I'd just simplify the test by removing the "= default" - I don't think > > there's value in testing both the explicit default and implicit default > if > > it's just the default-y-ness that's relevant here. Otherwise we could > end up > > testing all sorts of ways of writing/interacting with dtors which > wouldn't > > be relevant to the code/fix/etc. > > > > This seems like the obvious test for the behavior: > > > > struct foo { > > // non-trivial ops > > foo &operator=(const foo&); > > foo &operator=(foo&&); > > }; > > > > struct bar { > > foo f; // or derive bar from foo, but I think the member version is > > simpler > > }; > > > > // force emission of bar's implicit special members, one way or another: > > bar &(bar::*x)(const bar&) = &bar::operator=; > > bar &(bar::*x)(bar&&) = &bar::operator=; > > > > (or just call them as you had in your test case - but that produces more > > code, etc in the module, extra functions/profile counters/etc) > > > > - Dave > > > >> > >> > >> thanks, > >> > >> David > >> > >> > >> On Mon, Feb 8, 2016 at 4:58 PM, David Blaikie <dblai...@gmail.com> > wrote: > >> > > >> > > >> > On Mon, Feb 8, 2016 at 4:31 PM, Xinliang David Li <davi...@google.com > > > >> > wrote: > >> >> > >> >> On Mon, Feb 8, 2016 at 4:05 PM, David Blaikie <dblai...@gmail.com> > >> >> wrote: > >> >> > > >> >> > > >> >> > On Mon, Feb 8, 2016 at 3:58 PM, Xinliang David Li > >> >> > <davi...@google.com> > >> >> > wrote: > >> >> >> > >> >> >> To be clear, you are suggesting breaking the test into two (one > for > >> >> >> copy, and one for move) ? I am totally fine with that. > >> >> > > >> >> > > >> >> > Nah, no need to split the test case - we try to keep the number of > >> >> > test > >> >> > files down (& group related tests into a single file) to reduce > test > >> >> > execution time (a non-trivial about of check time is spent in > process > >> >> > overhead). > >> >> > > >> >> >> > >> >> >> I thought you > >> >> >> suggested removing the testing of move/op case because they might > >> >> >> share the same code path (clang's implementation) as the copy/op. > >> >> > > >> >> > > >> >> > I was suggesting that two cases is no big deal whether you test > both > >> >> > or > >> >> > test > >> >> > one if they're the same codepath - if there were 5/many more things > >> >> > that > >> >> > shared the same codepath, I'd generally suggest testing a > >> >> > representative > >> >> > sample (possibly just a single one) rather than testing every > client > >> >> > of > >> >> > the > >> >> > same code. > >> >> > > >> >> > Feel free to leave the two here as-is. (though if we're talking > about > >> >> > test > >> >> > granularity, it's probably worth just putting these cases in the > same > >> >> > file/type/etc as the ctor cases you mentioned were already covered) > >> >> > >> >> There is a balance somewhere: > >> >> 1) for small test cases like this, the overhead mainly comes from > test > >> >> set up cost -- adding additional incremental test in the same file > >> >> probably almost comes for free (in terms of cost). However > >> >> 2) having too many cases grouped together also reduces the > >> >> debuggability when some test fails. > >> > > >> > > >> > Yep, for sure. In this case, testing the ctors and assignment ops in > one > >> > file's probably not a bad tradeoff (you can see how Clang groups its > >> > tests - > >> > a file per language feature in many cases, exploring the myriad ways > the > >> > feature can be used - this doesn't always work spectacularly (when you > >> > can't > >> > order the IR emission to happen mostly in the order that the source is > >> > written (rather being interleaved)) > >> > > >> > Anyway, up to you - that part isn't something I'm terribly worried > about > >> > either way. > >> > > >> >> > >> >> > >> >> > > >> >> > & I'm still curious/wondering if there's a common codepath that > would > >> >> > provide a simpler fix/code that solved both implicit and explicitly > >> >> > defaulted ops. > >> >> > >> >> I may take a look at that when I find time -- but there is no > guarantee > >> >> :) > >> > > >> > > >> > A quick test of putting "assert(false)" in > >> > emitImplicitAssignmentOperatorBody and running Clang over this code: > >> > > >> > struct foo { > >> > foo &operator=(const foo &); > >> > }; > >> > > >> > struct bar { > >> > foo f; > >> > }; > >> > > >> > auto (bar::*x)(const bar&) = &bar::operator=; > >> > > >> > Fires the assertion - this seems to me to indicate that the codepath > you > >> > changed is used for both the explicitly (based on the change fixing > your > >> > test case) and implicitly defaulted (based on my test case) cases. > >> > > >> > Is it possible that you end up with duplicate counters by accident in > >> > this > >> > path, then? Or at least that whatever codepath was handling the > >> > implicitly > >> > defaulted ones is now redundant with this one? > >> > > >> > Actually, so far as I can tell this doesn't work for implicitly > >> > defaulted > >> > move ops (the above test case doesn't have an add pgocount in it) - > >> > perhaps > >> > I'm missing something/doing it wrong? or was just not communicating > >> > clearly > >> > regarding explicit versus implicitly defaulted special members. > >> > > >> > - Dave > >> > > >> >> > >> >> > >> >> thanks, > >> >> > >> >> David > >> >> > >> >> > >> >> > >> >> > > >> >> > - Dave > >> >> > > >> >> >> > >> >> >> > >> >> >> thanks, > >> >> >> > >> >> >> David > >> >> >> > >> >> >> On Mon, Feb 8, 2016 at 3:52 PM, David Blaikie <dblai...@gmail.com > > > >> >> >> wrote: > >> >> >> > > >> >> >> > > >> >> >> > On Mon, Feb 8, 2016 at 3:46 PM, Xinliang David Li > >> >> >> > <davi...@google.com> > >> >> >> > wrote: > >> >> >> >> > >> >> >> >> On Mon, Feb 8, 2016 at 3:35 PM, David Blaikie > >> >> >> >> <dblai...@gmail.com> > >> >> >> >> wrote: > >> >> >> >> > > >> >> >> >> > > >> >> >> >> > On Mon, Feb 8, 2016 at 3:21 PM, Xinliang David Li > >> >> >> >> > <davi...@google.com> > >> >> >> >> > wrote: > >> >> >> >> >> > >> >> >> >> >> On Mon, Feb 8, 2016 at 3:17 PM, David Blaikie > >> >> >> >> >> <dblai...@gmail.com> > >> >> >> >> >> wrote: > >> >> >> >> >> > > >> >> >> >> >> > > >> >> >> >> >> > On Mon, Feb 8, 2016 at 12:07 PM, Xinliang David Li > >> >> >> >> >> > <davi...@google.com> > >> >> >> >> >> > wrote: > >> >> >> >> >> >> > >> >> >> >> >> >> On Mon, Feb 8, 2016 at 11:39 AM, David Blaikie > >> >> >> >> >> >> <dblai...@gmail.com> > >> >> >> >> >> >> wrote: > >> >> >> >> >> >> > > >> >> >> >> >> >> > > >> >> >> >> >> >> > On Mon, Feb 8, 2016 at 9:25 AM, David Li via > llvm-commits > >> >> >> >> >> >> > <llvm-comm...@lists.llvm.org> wrote: > >> >> >> >> >> >> >> > >> >> >> >> >> >> >> davidxl updated this revision to Diff 47217. > >> >> >> >> >> >> >> davidxl added a comment. > >> >> >> >> >> >> >> > >> >> >> >> >> >> >> Simplified test case suggested by Vedant. > >> >> >> >> >> >> >> > >> >> >> >> >> >> >> > >> >> >> >> >> >> >> http://reviews.llvm.org/D16947 > >> >> >> >> >> >> >> > >> >> >> >> >> >> >> Files: > >> >> >> >> >> >> >> lib/CodeGen/CGClass.cpp > >> >> >> >> >> >> >> test/Profile/def-assignop.cpp > >> >> >> >> >> >> >> > >> >> >> >> >> >> >> Index: test/Profile/def-assignop.cpp > >> >> >> >> >> >> >> > >> >> >> >> >> >> >> > >> >> >> >> >> >> >> > >> >> >> >> >> >> >> > >> >> >> >> >> >> >> > =================================================================== > >> >> >> >> >> >> >> --- test/Profile/def-assignop.cpp > >> >> >> >> >> >> >> +++ test/Profile/def-assignop.cpp > >> >> >> >> >> >> >> @@ -0,0 +1,32 @@ > >> >> >> >> >> >> >> +// RUN: %clang_cc1 -x c++ -std=c++11 %s -triple > >> >> >> >> >> >> >> x86_64-unknown-linux-gnu > >> >> >> >> >> >> >> -main-file-name def-assignop.cpp -o - -emit-llvm > >> >> >> >> >> >> >> -fprofile-instrument=clang > >> >> >> >> >> >> >> | FileCheck --check-prefix=PGOGEN %s > >> >> >> >> >> >> >> +// RUN: %clang_cc1 -x c++ -std=c++11 %s -triple > >> >> >> >> >> >> >> x86_64-unknown-linux-gnu > >> >> >> >> >> >> >> -main-file-name def-assignop.cpp -o - -emit-llvm > >> >> >> >> >> >> >> -fprofile-instrument=clang > >> >> >> >> >> >> >> -fcoverage-mapping | FileCheck --check-prefix=COVMAP > %s > >> >> >> >> >> >> >> + > >> >> >> >> >> >> >> +struct B { > >> >> >> >> >> >> >> + void operator=(const B &b) {} > >> >> >> >> >> >> >> + void operator=(const B &&b) {} > >> >> >> >> >> >> > > >> >> >> >> >> >> > > >> >> >> >> >> >> > Probably best to make these canonical to avoid > confusion: > >> >> >> >> >> >> > > >> >> >> >> >> >> > B &operator=(const B&); > >> >> >> >> >> >> > B &operator=(B&&); > >> >> >> >> >> >> > > >> >> >> >> >> >> > (& they don't need definitions - just declarations) > >> >> >> >> >> >> > >> >> >> >> >> >> Will change. > >> >> >> >> >> >> > >> >> >> >> >> >> > > >> >> >> >> >> >> > Also, neither of these are the move /constructor/, just > >> >> >> >> >> >> > the > >> >> >> >> >> >> > move > >> >> >> >> >> >> > operator. > >> >> >> >> >> >> > Not sure if Vedant just used the wrong terminology, or > >> >> >> >> >> >> > whether > >> >> >> >> >> >> > it's > >> >> >> >> >> >> > worth > >> >> >> >> >> >> > testing the move/copy ctors too, to check that they do > >> >> >> >> >> >> > the > >> >> >> >> >> >> > right > >> >> >> >> >> >> > thing > >> >> >> >> >> >> > as > >> >> >> >> >> >> > >> >> >> >> >> >> I added tests for copy ctors, and plan to add move ctor > >> >> >> >> >> >> test > >> >> >> >> >> >> soon. > >> >> >> >> >> >> > >> >> >> >> >> >> > well. (if all of these things use the same codepath, I > >> >> >> >> >> >> > don't > >> >> >> >> >> >> > see a > >> >> >> >> >> >> > great > >> >> >> >> >> >> > benefit in having separate tests for them (but you can > >> >> >> >> >> >> > add > >> >> >> >> >> >> > them > >> >> >> >> >> >> > here > >> >> >> >> >> >> > if > >> >> >> >> >> >> > you > >> >> >> >> >> >> > like) - I'm just suggesting a manual verification in > case > >> >> >> >> >> >> > those > >> >> >> >> >> >> > need > >> >> >> >> >> >> > a > >> >> >> >> >> >> > separate fix > >> >> >> >> >> >> > >> >> >> >> >> >> the ctor and assignment op do not share the same path -- > >> >> >> >> >> >> the > >> >> >> >> >> >> ctor > >> >> >> >> >> >> path > >> >> >> >> >> >> is working as expected without the fix -- or do you mean > >> >> >> >> >> >> there > >> >> >> >> >> >> is > >> >> >> >> >> >> no > >> >> >> >> >> >> need to cover both copy and move variants? > >> >> >> >> >> > > >> >> >> >> >> > > >> >> >> >> >> > I wouldn't necessarily bother testing multiple instances > of > >> >> >> >> >> > the > >> >> >> >> >> > same > >> >> >> >> >> > codepath (so the copy and move ctor for example) - but 2 > >> >> >> >> >> > instances > >> >> >> >> >> > is > >> >> >> >> >> > no > >> >> >> >> >> > big > >> >> >> >> >> > deal (if there were several more, I might be inclined to > >> >> >> >> >> > just > >> >> >> >> >> > test > >> >> >> >> >> > one > >> >> >> >> >> > as a > >> >> >> >> >> > representative sample). I don't mind either way, though. > The > >> >> >> >> >> > number > >> >> >> >> >> > is > >> >> >> >> >> > small > >> >> >> >> >> > & the test cases are arguably distinct. > >> >> >> >> >> > >> >> >> >> >> Sorry I disagree with your general statement here. I treat > >> >> >> >> >> such > >> >> >> >> >> test > >> >> >> >> >> cases as 'black box testing' that do not know about the > >> >> >> >> >> internal > >> >> >> >> >> implementation (code path). It may or may not share the same > >> >> >> >> >> code > >> >> >> >> >> path > >> >> >> >> >> today -- same is true in the future. > >> >> >> >> > > >> >> >> >> > > >> >> >> >> > While there's merit in both approaches, practically speaking > it > >> >> >> >> > seems > >> >> >> >> > difficult to test in that way in general - any feature could > >> >> >> >> > interact > >> >> >> >> > with > >> >> >> >> > any other. > >> >> >> >> > >> >> >> >> The language features are well specified -- so writing small > test > >> >> >> >> cases to cover them is a general accepted way of testing. > >> >> >> > > >> >> >> > > >> >> >> > I'm not sure I follow the distinction you're drawing between the > >> >> >> > middle > >> >> >> > end > >> >> >> > optimization tests and the features you're testing here. If the > >> >> >> > features > >> >> >> > are > >> >> >> > relatively independent, even within the same API/feature area, > >> >> >> > they're > >> >> >> > generally tested independently (even two features within a > single > >> >> >> > middle > >> >> >> > end > >> >> >> > optimization - a test case is written to ensure that, say, > >> >> >> > ArgumentPromotion > >> >> >> > correctly handles debug info, and another that it correctly > >> >> >> > handles > >> >> >> > inalloca > >> >> >> > (or fp80, etc - just looking at > test/Transforms/ArgumentPromotion) > >> >> >> > - > >> >> >> > but > >> >> >> > we > >> >> >> > don't test the matrix of combinations of these features) > >> >> >> > > >> >> >> >> > >> >> >> >> > >> >> >> >> >The LLVM regression suite is far more narrowly targeted than > >> >> >> >> > that > >> >> >> >> > - we don't test combinations of optimizations, for example - > we > >> >> >> >> > test > >> >> >> >> > each > >> >> >> >> > optimization in isolation. The same would be true of two > >> >> >> >> > independent > >> >> >> >> > features on an interface such as this, I think. > >> >> >> >> > >> >> >> >> This is a weakness of the test system -- a problem at a > different > >> >> >> >> dimension. > >> >> >> > > >> >> >> > > >> >> >> > If we want to have a discussion about the LLVM community testing > >> >> >> > methodology, that might be best taken up on llvm-dev (and > >> >> >> > clang-dev). > >> >> >> > But > >> >> >> > for now, I'd ask that tests in the lit regression suite are > >> >> >> > generally > >> >> >> > as > >> >> >> > isolated as possible and test one thing at a time. > >> >> >> > > >> >> >> >> > >> >> >> >> > >> >> >> >> > > >> >> >> >> >> > >> >> >> >> >> > >> >> >> >> >> > > >> >> >> >> >> >> > >> >> >> >> >> >> > > >> >> >> >> >> >> >> > >> >> >> >> >> >> >> +}; > >> >> >> >> >> >> >> + > >> >> >> >> >> >> >> +struct A { > >> >> >> >> >> >> >> + A &operator=(const A &) = default; > >> >> >> >> >> >> > > >> >> >> >> >> >> > > >> >> >> >> >> >> > Is the fix/codepath specifically about explicitly > >> >> >> >> >> >> > defaulted > >> >> >> >> >> >> > ops? > >> >> >> >> >> >> > >> >> >> >> >> >> yes -- explicitly defaulted. There are some test coverage > >> >> >> >> >> >> already > >> >> >> >> >> >> for > >> >> >> >> >> >> implicitly declared ctors (but not assignment op -- > >> >> >> >> >> >> probably > >> >> >> >> >> >> worth > >> >> >> >> >> >> adding some testing too). > >> >> >> >> >> > > >> >> >> >> >> > > >> >> >> >> >> > Hmm - are you sure there's no common codepath that would > >> >> >> >> >> > cover > >> >> >> >> >> > the > >> >> >> >> >> > explicitly defaulted or implicitly defaulted ops together > in > >> >> >> >> >> > one > >> >> >> >> >> > go? > >> >> >> >> >> > >> >> >> >> >> Sorry I am not sure what you mean here. > >> >> >> >> > Is there some part of Clang that is responsible for > generating > >> >> >> >> > both > >> >> >> >> > implicitly defaulted and explicitly defaulted move/copy ops > >> >> >> >> > that > >> >> >> >> > could > >> >> >> >> > handle this case, rather than apparently handling the > implicit > >> >> >> >> > and > >> >> >> >> > explicit > >> >> >> >> > cases separately (it seems they're being handled separately > if > >> >> >> >> > the > >> >> >> >> > implicit > >> >> >> >> > case worked before and you added code (rather than moving > code) > >> >> >> >> > to > >> >> >> >> > fix > >> >> >> >> > the > >> >> >> >> > explicit case - it sounds like we now have two bits of code, > >> >> >> >> > one > >> >> >> >> > for > >> >> >> >> > implicit and one for explicit - perhaps there's a single bit > of > >> >> >> >> > code > >> >> >> >> > that we > >> >> >> >> > could write that would handle both?) > >> >> >> >> > >> >> >> >> The codegen paths are different -- otherwise as you commented, > >> >> >> >> the > >> >> >> >> implicit case would have been broken too. > >> >> >> >> > >> >> >> >> Refactoring FE code to handle both is probably beyond the scope > >> >> >> >> of > >> >> >> >> this fix. Having a good test case here will exactly help avoid > >> >> >> >> regression if that happens in the future. > >> >> >> >> > >> >> >> >> David > >> >> >> >> > >> >> >> >> > > >> >> >> >> > - David > >> >> >> >> > > >> >> >> >> >> > >> >> >> >> >> > >> >> >> >> >> David > >> >> >> >> >> > >> >> >> >> >> > > >> >> >> >> >> >> > >> >> >> >> >> >> > >> >> >> >> >> >> > Or just any > >> >> >> >> >> >> > compiler-generated ones? (you could drop these lines if > >> >> >> >> >> >> > it's > >> >> >> >> >> >> > about > >> >> >> >> >> >> > any > >> >> >> >> >> >> > compiler-generated ones, might be simpler/more obvious > >> >> >> >> >> >> > that > >> >> >> >> >> >> > it's > >> >> >> >> >> >> > not > >> >> >> >> >> >> > about > >> >> >> >> >> >> > the "= default" feature) > >> >> >> >> >> >> > >> >> >> >> >> >> Other compiler generated ones are handled differently. > >> >> >> >> >> >> > >> >> >> >> >> >> thanks, > >> >> >> >> >> >> > >> >> >> >> >> >> David > >> >> >> >> >> >> > >> >> >> >> >> >> > > >> >> >> >> >> >> >> > >> >> >> >> >> >> >> + // PGOGEN: define {{.*}}@_ZN1AaSERKS_( > >> >> >> >> >> >> >> + // PGOGEN: %pgocount = load {{.*}} > >> >> >> >> >> >> >> @__profc__ZN1AaSERKS_ > >> >> >> >> >> >> >> + // PGOGEN: {{.*}}add{{.*}}%pgocount, 1 > >> >> >> >> >> >> >> + // PGOGEN: store{{.*}}@__profc__ZN1AaSERKS_ > >> >> >> >> >> >> >> + A &operator=(A &&) = default; > >> >> >> >> >> >> >> > >> >> >> >> >> >> >> + // PGOGEN: define {{.*}}@_ZN1AaSEOS_ > >> >> >> >> >> >> >> + // PGOGEN: %pgocount = load {{.*}} > >> >> >> >> >> >> >> @__profc__ZN1AaSEOS_ > >> >> >> >> >> >> >> + // PGOGEN: {{.*}}add{{.*}}%pgocount, 1 > >> >> >> >> >> >> >> + // PGOGEN: store{{.*}}@__profc__ZN1AaSEOS_ > >> >> >> >> >> >> >> + > >> >> >> >> >> >> >> + // Check that coverage mapping includes 6 function > >> >> >> >> >> >> >> records > >> >> >> >> >> >> >> including > >> >> >> >> >> >> >> the > >> >> >> >> >> >> >> + // defaulted copy and move operators: A::operator= > >> >> >> >> >> >> >> + // COVMAP: @__llvm_coverage_mapping = {{.*}} { { > i32, > >> >> >> >> >> >> >> i32, > >> >> >> >> >> >> >> i32, > >> >> >> >> >> >> >> i32 > >> >> >> >> >> >> >> }, > >> >> >> >> >> >> >> [5 x <{{.*}}>], > >> >> >> >> >> >> >> + B b; > >> >> >> >> >> >> >> +}; > >> >> >> >> >> >> >> + > >> >> >> >> >> >> >> +int main() { > >> >> >> >> >> >> >> + A a1, a2; > >> >> >> >> >> >> >> + a1 = a2; > >> >> >> >> >> >> >> + a2 = static_cast<A &&>(a1); > >> >> >> >> >> >> > > >> >> >> >> >> >> > > >> >> >> >> >> >> > An option, though not necessarily better, would be to > >> >> >> >> >> >> > just > >> >> >> >> >> >> > take > >> >> >> >> >> >> > the > >> >> >> >> >> >> > address > >> >> >> >> >> >> > of the special members: > >> >> >> >> >> >> > > >> >> >> >> >> >> > auto (B::*x)(const B&) = &bar::operator=; > >> >> >> >> >> >> > auto (B::*x)(B&&) = &bar::operator=; > >> >> >> >> >> >> > > >> >> >> >> >> >> > In short, what I'm picturing, in total: > >> >> >> >> >> >> > > >> >> >> >> >> >> > struct A { > >> >> >> >> >> >> > A &operator=(const A&); > >> >> >> >> >> >> > A &operator=(A&&); > >> >> >> >> >> >> > }; > >> >> >> >> >> >> > > >> >> >> >> >> >> > struct B { > >> >> >> >> >> >> > A a; > >> >> >> >> >> >> > }; > >> >> >> >> >> >> > > >> >> >> >> >> >> > auto (B::*x)(const B&) = &B::operator=; > >> >> >> >> >> >> > auto (B::*x)(B&&) = &B::operator=; > >> >> >> >> >> >> > > >> >> >> >> >> >> > Also, this test should probably be in clang, since > it's a > >> >> >> >> >> >> > clang > >> >> >> >> >> >> > code > >> >> >> >> >> >> > change/fix. > >> >> >> >> >> >> > > >> >> >> >> >> >> > > >> >> >> >> >> >> >> > >> >> >> >> >> >> >> + return 0; > >> >> >> >> >> >> >> +} > >> >> >> >> >> >> >> Index: lib/CodeGen/CGClass.cpp > >> >> >> >> >> >> >> > >> >> >> >> >> >> >> > >> >> >> >> >> >> >> > >> >> >> >> >> >> >> > >> >> >> >> >> >> >> > =================================================================== > >> >> >> >> >> >> >> --- lib/CodeGen/CGClass.cpp > >> >> >> >> >> >> >> +++ lib/CodeGen/CGClass.cpp > >> >> >> >> >> >> >> @@ -1608,6 +1608,7 @@ > >> >> >> >> >> >> >> > >> >> >> >> >> >> >> LexicalScope Scope(*this, > RootCS->getSourceRange()); > >> >> >> >> >> >> >> > >> >> >> >> >> >> >> + incrementProfileCounter(RootCS); > >> >> >> >> >> >> >> AssignmentMemcpyizer AM(*this, AssignOp, Args); > >> >> >> >> >> >> >> for (auto *I : RootCS->body()) > >> >> >> >> >> >> >> AM.emitAssignment(I); > >> >> >> >> >> >> >> > >> >> >> >> >> >> >> > >> >> >> >> >> >> >> > >> >> >> >> >> >> >> _______________________________________________ > >> >> >> >> >> >> >> llvm-commits mailing list > >> >> >> >> >> >> >> llvm-comm...@lists.llvm.org > >> >> >> >> >> >> >> > >> >> >> >> >> >> >> > http://lists.llvm.org/cgi-bin/mailman/listinfo/llvm-commits > >> >> >> >> >> >> >> > >> >> >> >> >> >> > > >> >> >> >> >> > > >> >> >> >> >> > > >> >> >> >> > > >> >> >> >> > > >> >> >> > > >> >> >> > > >> >> > > >> >> > > >> > > >> > > > > > >
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