[llvm-dev] imm COPY generated by PHI elim not propagated

Wed Nov 20 08:47:01 PST 2019

I was looking at writing a pass after PHI elim to do this, just trying to
dump the reaching def MIs but get lots of no live segments issues. Have
included addREquired and addPreserved for LiveIntervals and
setPreservesAll().

-Ryan

On Fri, Nov 15, 2019 at 2:58 PM Quentin Colombet <qcolombet at apple.com>
wrote:

> You could do it after RA and before rewrite, when you still have the live
> intervals around.
>
> On Nov 15, 2019, at 11:16 AM, Ryan Taylor <ryta1203 at gmail.com> wrote:
>
> This would require getting the reaching definition which requires live
> intervals analysis.
>
>
> On Thu, Nov 14, 2019 at 12:15 PM Quentin Colombet <qcolombet at apple.com>
> wrote:
>
>> That sounds like the folding could be done when you expand the copy in
>> expand pseudo after regalloc.
>>
>> > On Nov 14, 2019, at 12:20 AM, Arsenault, Matthew <
>> Matthew.Arsenault at amd.com> wrote:
>> >
>> > In this case the load imm is foldable into the copy, once converted to
>> a mov. Directly folding this would be 4 v_mov_b32 instead of 5 produced
>> currently
>> >
>> > -Matt
>> >
>> > On 11/14/19, 07:20, "llvm-dev on behalf of Quentin Colombet via
>> llvm-dev" <llvm-dev-bounces at lists.llvm.org on behalf of
>> llvm-dev at lists.llvm.org> wrote:
>> >
>> >    Hi Ryan,
>> >
>> >    Unless you can fold your immediate directly in an instruction, it is
>> actually not profitable to propagate them. Indeed you will end up with a
>> bunch of load imm instead of reusing a register that already hold this
>> value.
>> >
>> >    The way it works right now is, if holding this value in a register
>> is too expensive, i.e., it triggers a spill, then we rematerialize the
>> immediate instead of holding a register for it.
>> >
>> >    Cheers,
>> >    -Quentin
>> >
>> >> On Nov 13, 2019, at 7:36 AM, Ryan Taylor via llvm-dev <
>> llvm-dev at lists.llvm.org> wrote:
>> >>
>> >> I have some code such that:
>> >>
>> >> vgpr1 = mov 0
>> >> branch bb
>> >> bb:
>> >> PHI vgpr2 = vgpr1, ….
>> >> PHI vgpr3 = vgpr1, ….
>> >> PHI vgpr4 = vgpr1, ….
>> >> PHI vgpr5 = vgpr1, ….
>> >>
>> >> PHI node elimination is generating copies for all these PHIs (and
>> hoisting them) as such:
>> >>
>> >> vgpr1 = 0
>> >> vgpr20 = COPY vgpr1 // old vgpr2
>> >> vgpr30 = COPY vgpr1 // old vgpr3
>> >> vgpr40 = COPY vgpr1 // old vgpr4
>> >> vgpr 50 = COPY vgprt1 // old vgpr5
>> >>
>> >> I expect the zero to get propagated in a later phase but it's not. I
>> was looking at adding immediate folding to the register coalescer but this
>> doesn't really seem like the right place. Any suggestions?
>> >>
>> >> I'm sort of surprised that other targets haven't run into this issue.
>> >>
>> >> -Ryan
>> >>
>> >>
>> >> _______________________________________________
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>> >> llvm-dev at lists.llvm.org
>> >> https://lists.llvm.org/cgi-bin/mailman/listinfo/llvm-dev
>> >
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>> >
>> >
>>
>>
>
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