Loop rotation often has to perform code duplication from header into preheader, which introduces PHI nodes. >>! In D99204, @thopre wrote: > > With loop peeling, it is important that unnecessary PHIs be avoided or > it will leads to spurious peeling. One source of such PHIs is loop > rotation which creates PHIs for invariant loads. Those PHIs are > particularly problematic since loop peeling is now run as part of simple > loop unrolling before GVN is run, and are thus a source of spurious > peeling. > > Note that while some of the load can be hoisted and eventually > eliminated by instruction combine, this is not always possible due to > alignment issue. In particular, the motivating example [1] was a load > inside a class instance which cannot be hoisted because the `this' > pointer has an alignment of 1. > > [1] http://lists.llvm.org/pipermail/llvm-dev/attachments/20210312/4ce73c47/attachment.cpp Now, we could enhance LoopRotate to avoid duplicating code when not needed, but instead hoist loop-invariant code, but isn't that a code duplication? (*sic*) We have LICM, and in fact we already run it right after LoopRotation. We could try to move it to before LoopRotation, that is basically free from compile-time perspective: https://llvm-compile-time-tracker.com/compare.php?from=6c93eb4477d88af046b915bc955c03693b2cbb58&to=a4bee6d07732b1184c436da489040b912f0dc271&stat=instructions But, looking at stats, i think it isn't great that we would no longer do LICM after LoopRotation, in particular: | statistic name | LoopRotate-LICM | LICM-LoopRotate | Δ | % | abs(%) | | asm-printer.EmittedInsts | 9015930 | 9015799 | -131 | 0.00% | 0.00% | | indvars.NumElimCmp | 3536 | 3544 | 8 | 0.23% | 0.23% | | indvars.NumElimExt | 36725 | 36580 | -145 | -0.39% | 0.39% | | indvars.NumElimIV | 1197 | 1187 | -10 | -0.84% | 0.84% | | indvars.NumElimIdentity | 143 | 136 | -7 | -4.90% | 4.90% | | indvars.NumElimRem | 4 | 5 | 1 | 25.00% | 25.00% | | indvars.NumLFTR | 29842 | 29890 | 48 | 0.16% | 0.16% | | indvars.NumReplaced | 2293 | 2227 | -66 | -2.88% | 2.88% | | indvars.NumSimplifiedSDiv | 6 | 8 | 2 | 33.33% | 33.33% | | indvars.NumWidened | 26438 | 26329 | -109 | -0.41% | 0.41% | | instcount.TotalBlocks | 1178338 | 1173840 | -4498 | -0.38% | 0.38% | | instcount.TotalFuncs | 111825 | 111829 | 4 | 0.00% | 0.00% | | instcount.TotalInsts | 9905442 | 9896139 | -9303 | -0.09% | 0.09% | | lcssa.NumLCSSA | 425871 | 423961 | -1910 | -0.45% | 0.45% | | licm.NumHoisted | 378357 | 378753 | 396 | 0.10% | 0.10% | | licm.NumMovedCalls | 2193 | 2208 | 15 | 0.68% | 0.68% | | licm.NumMovedLoads | 35899 | 31821 | -4078 | -11.36% | 11.36% | | licm.NumPromoted | 11178 | 11154 | -24 | -0.21% | 0.21% | | licm.NumSunk | 13359 | 13587 | 228 | 1.71% | 1.71% | | loop-delete.NumDeleted | 8547 | 8402 | -145 | -1.70% | 1.70% | | loop-instsimplify.NumSimplified | 12876 | 11890 | -986 | -7.66% | 7.66% | | loop-peel.NumPeeled | 1008 | 925 | -83 | -8.23% | 8.23% | | loop-rotate.NumNotRotatedDueToHeaderSize | 368 | 365 | -3 | -0.82% | 0.82% | | loop-rotate.NumRotated | 42015 | 42003 | -12 | -0.03% | 0.03% | | loop-simplifycfg.NumLoopBlocksDeleted | 240 | 242 | 2 | 0.83% | 0.83% | | loop-simplifycfg.NumLoopExitsDeleted | 497 | 20 | -477 | -95.98% | 95.98% | | loop-simplifycfg.NumTerminatorsFolded | 618 | 336 | -282 | -45.63% | 45.63% | | loop-unroll.NumCompletelyUnrolled | 11028 | 11032 | 4 | 0.04% | 0.04% | | loop-unroll.NumUnrolled | 12608 | 12529 | -79 | -0.63% | 0.63% | | mem2reg.NumDeadAlloca | 10222 | 10221 | -1 | -0.01% | 0.01% | | mem2reg.NumPHIInsert | 192110 | 192106 | -4 | 0.00% | 0.00% | | mem2reg.NumSingleStore | 637650 | 637643 | -7 | 0.00% | 0.00% | | scalar-evolution.NumBruteForceTripCountsComputed | 814 | 812 | -2 | -0.25% | 0.25% | | scalar-evolution.NumTripCountsComputed | 283108 | 282934 | -174 | -0.06% | 0.06% | | scalar-evolution.NumTripCountsNotComputed | 106712 | 106718 | 6 | 0.01% | 0.01% | | simple-loop-unswitch.NumBranches | 5178 | 4752 | -426 | -8.23% | 8.23% | | simple-loop-unswitch.NumCostMultiplierSkipped | 914 | 503 | -411 | -44.97% | 44.97% | | simple-loop-unswitch.NumSwitches | 20 | 18 | -2 | -10.00% | 10.00% | | simple-loop-unswitch.NumTrivial | 183 | 95 | -88 | -48.09% | 48.09% | ... but that actually regresses LICM (-12% `licm.NumMovedLoads`), loop-simplifycfg (`NumLoopExitsDeleted`, `NumTerminatorsFolded`), simple-loop-unswitch (`NumTrivial`). What if we instead have LICM both before and after LoopRotate? | statistic name | LoopRotate-LICM | LICM-LoopRotate-LICM | Δ | % | abs(%) | | asm-printer.EmittedInsts | 9015930 | 9014474 | -1456 | -0.02% | 0.02% | | indvars.NumElimCmp | 3536 | 3546 | 10 | 0.28% | 0.28% | | indvars.NumElimExt | 36725 | 36681 | -44 | -0.12% | 0.12% | | indvars.NumElimIV | 1197 | 1185 | -12 | -1.00% | 1.00% | | indvars.NumElimIdentity | 143 | 146 | 3 | 2.10% | 2.10% | | indvars.NumElimRem | 4 | 5 | 1 | 25.00% | 25.00% | | indvars.NumLFTR | 29842 | 29899 | 57 | 0.19% | 0.19% | | indvars.NumReplaced | 2293 | 2299 | 6 | 0.26% | 0.26% | | indvars.NumSimplifiedSDiv | 6 | 8 | 2 | 33.33% | 33.33% | | indvars.NumWidened | 26438 | 26404 | -34 | -0.13% | 0.13% | | instcount.TotalBlocks | 1178338 | 1173652 | -4686 | -0.40% | 0.40% | | instcount.TotalFuncs | 111825 | 111829 | 4 | 0.00% | 0.00% | | instcount.TotalInsts | 9905442 | 9895452 | -9990 | -0.10% | 0.10% | | lcssa.NumLCSSA | 425871 | 425373 | -498 | -0.12% | 0.12% | | licm.NumHoisted | 378357 | 383352 | 4995 | 1.32% | 1.32% | | licm.NumMovedCalls | 2193 | 2204 | 11 | 0.50% | 0.50% | | licm.NumMovedLoads | 35899 | 35755 | -144 | -0.40% | 0.40% | | licm.NumPromoted | 11178 | 11163 | -15 | -0.13% | 0.13% | | licm.NumSunk | 13359 | 14321 | 962 | 7.20% | 7.20% | | loop-delete.NumDeleted | 8547 | 8538 | -9 | -0.11% | 0.11% | | loop-instsimplify.NumSimplified | 12876 | 12041 | -835 | -6.48% | 6.48% | | loop-peel.NumPeeled | 1008 | 924 | -84 | -8.33% | 8.33% | | loop-rotate.NumNotRotatedDueToHeaderSize | 368 | 365 | -3 | -0.82% | 0.82% | | loop-rotate.NumRotated | 42015 | 42005 | -10 | -0.02% | 0.02% | | loop-simplifycfg.NumLoopBlocksDeleted | 240 | 241 | 1 | 0.42% | 0.42% | | loop-simplifycfg.NumTerminatorsFolded | 618 | 619 | 1 | 0.16% | 0.16% | | loop-unroll.NumCompletelyUnrolled | 11028 | 11029 | 1 | 0.01% | 0.01% | | loop-unroll.NumUnrolled | 12608 | 12525 | -83 | -0.66% | 0.66% | | mem2reg.NumPHIInsert | 192110 | 192073 | -37 | -0.02% | 0.02% | | mem2reg.NumSingleStore | 637650 | 637652 | 2 | 0.00% | 0.00% | | scalar-evolution.NumTripCountsComputed | 283108 | 282998 | -110 | -0.04% | 0.04% | | scalar-evolution.NumTripCountsNotComputed | 106712 | 106691 | -21 | -0.02% | 0.02% | | simple-loop-unswitch.NumBranches | 5178 | 5185 | 7 | 0.14% | 0.14% | | simple-loop-unswitch.NumCostMultiplierSkipped | 914 | 925 | 11 | 1.20% | 1.20% | | simple-loop-unswitch.NumTrivial | 183 | 179 | -4 | -2.19% | 2.19% | | simple-loop-unswitch.NumBranches | 5178 | 4752 | -426 | -8.23% | 8.23% | | simple-loop-unswitch.NumCostMultiplierSkipped | 914 | 503 | -411 | -44.97% | 44.97% | | simple-loop-unswitch.NumSwitches | 20 | 18 | -2 | -10.00% | 10.00% | | simple-loop-unswitch.NumTrivial | 183 | 95 | -88 | -48.09% | 48.09% | I.e. we end up with less instructions, less peeling, more LICM activity, also note how none of those 4 regressions are here. Namely: | statistic name | LICM-LoopRotate | LICM-LoopRotate-LICM | Δ | % | abs(%) | | asm-printer.EmittedInsts | 9015799 | 9014474 | -1325 | -0.01% | 0.01% | | indvars.NumElimCmp | 3544 | 3546 | 2 | 0.06% | 0.06% | | indvars.NumElimExt | 36580 | 36681 | 101 | 0.28% | 0.28% | | indvars.NumElimIV | 1187 | 1185 | -2 | -0.17% | 0.17% | | indvars.NumElimIdentity | 136 | 146 | 10 | 7.35% | 7.35% | | indvars.NumLFTR | 29890 | 29899 | 9 | 0.03% | 0.03% | | indvars.NumReplaced | 2227 | 2299 | 72 | 3.23% | 3.23% | | indvars.NumWidened | 26329 | 26404 | 75 | 0.28% | 0.28% | | instcount.TotalBlocks | 1173840 | 1173652 | -188 | -0.02% | 0.02% | | instcount.TotalInsts | 9896139 | 9895452 | -687 | -0.01% | 0.01% | | lcssa.NumLCSSA | 423961 | 425373 | 1412 | 0.33% | 0.33% | | licm.NumHoisted | 378753 | 383352 | 4599 | 1.21% | 1.21% | | licm.NumMovedCalls | 2208 | 2204 | -4 | -0.18% | 0.18% | | licm.NumMovedLoads | 31821 | 35755 | 3934 | 12.36% | 12.36% | | licm.NumPromoted | 11154 | 11163 | 9 | 0.08% | 0.08% | | licm.NumSunk | 13587 | 14321 | 734 | 5.40% | 5.40% | | loop-delete.NumDeleted | 8402 | 8538 | 136 | 1.62% | 1.62% | | loop-instsimplify.NumSimplified | 11890 | 12041 | 151 | 1.27% | 1.27% | | loop-peel.NumPeeled | 925 | 924 | -1 | -0.11% | 0.11% | | loop-rotate.NumRotated | 42003 | 42005 | 2 | 0.00% | 0.00% | | loop-simplifycfg.NumLoopBlocksDeleted | 242 | 241 | -1 | -0.41% | 0.41% | | loop-simplifycfg.NumLoopExitsDeleted | 20 | 497 | 477 | 2385.00% | 2385.00% | | loop-simplifycfg.NumTerminatorsFolded | 336 | 619 | 283 | 84.23% | 84.23% | | loop-unroll.NumCompletelyUnrolled | 11032 | 11029 | -3 | -0.03% | 0.03% | | loop-unroll.NumUnrolled | 12529 | 12525 | -4 | -0.03% | 0.03% | | mem2reg.NumDeadAlloca | 10221 | 10222 | 1 | 0.01% | 0.01% | | mem2reg.NumPHIInsert | 192106 | 192073 | -33 | -0.02% | 0.02% | | mem2reg.NumSingleStore | 637643 | 637652 | 9 | 0.00% | 0.00% | | scalar-evolution.NumBruteForceTripCountsComputed | 812 | 814 | 2 | 0.25% | 0.25% | | scalar-evolution.NumTripCountsComputed | 282934 | 282998 | 64 | 0.02% | 0.02% | | scalar-evolution.NumTripCountsNotComputed | 106718 | 106691 | -27 | -0.03% | 0.03% | | simple-loop-unswitch.NumBranches | 4752 | 5185 | 433 | 9.11% | 9.11% | | simple-loop-unswitch.NumCostMultiplierSkipped | 503 | 925 | 422 | 83.90% | 83.90% | | simple-loop-unswitch.NumSwitches | 18 | 20 | 2 | 11.11% | 11.11% | | simple-loop-unswitch.NumTrivial | 95 | 179 | 84 | 88.42% | 88.42% | {F15983613} {F15983615} {F15983616} (this is vanilla llvm testsuite + rawspeed + darktable) As an example of the code where early LICM only is bad, see: https://godbolt.org/z/GzEbacs4K This does have an observable compile-time regression of +~0.5% geomean https://llvm-compile-time-tracker.com/compare.php?from=7c5222e4d1a3a14f029e5f614c9aefd0fa505f1e&to=5d81826c3411982ca26e46b9d0aff34c80577664&stat=instructions but i think that's basically nothing, and there's potential that it might be avoidable in the future by fixing clang to produce alignment information on function arguments, thus making the second run unneeded. Differential Revision: https://reviews.llvm.org/D99249
224 lines
9.9 KiB
LLVM
224 lines
9.9 KiB
LLVM
; NOTE: Assertions have been autogenerated by utils/update_test_checks.py
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; RUN: opt -O3 -rotation-max-header-size=0 -S -enable-new-pm=0 < %s | FileCheck %s --check-prefix=HOIST
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; RUN: opt -passes='default<O3>' -rotation-max-header-size=0 -S < %s | FileCheck %s --check-prefix=HOIST
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; RUN: opt -O3 -rotation-max-header-size=1 -S -enable-new-pm=0 < %s | FileCheck %s --check-prefix=HOIST
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; RUN: opt -passes='default<O3>' -rotation-max-header-size=1 -S < %s | FileCheck %s --check-prefix=HOIST
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; RUN: opt -O3 -rotation-max-header-size=2 -S -enable-new-pm=0 < %s | FileCheck %s --check-prefix=ROTATED_LATER_OLDPM
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; RUN: opt -passes='default<O3>' -rotation-max-header-size=2 -S < %s | FileCheck %s --check-prefix=ROTATED_LATER_NEWPM
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; RUN: opt -O3 -rotation-max-header-size=3 -S -enable-new-pm=0 < %s | FileCheck %s --check-prefix=ROTATE_OLDPM
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; RUN: opt -passes='default<O3>' -rotation-max-header-size=3 -S < %s | FileCheck %s --check-prefix=ROTATE_NEWPM
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; This example is produced from a very basic C code:
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;
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; void f0();
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; void f1();
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; void f2();
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;
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; void loop(int width) {
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; if(width < 1)
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; return;
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; for(int i = 0; i < width - 1; ++i) {
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; f0();
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; f1();
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; }
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; f0();
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; f2();
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; }
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; We have a choice here. We can either
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; * hoist the f0() call into loop header,
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; * which potentially makes loop rotation unprofitable since loop header might
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; have grown above certain threshold, and such unrotated loops will be
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; ignored by LoopVectorizer, preventing vectorization
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; * or loop rotation will succeed, resulting in some weird PHIs that will also
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; harm vectorization
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; * or not hoist f0() call before performing loop rotation,
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; at the cost of potential code bloat and/or potentially successfully rotating
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; the loops, vectorizing them at the cost of compile time.
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target datalayout = "e-m:e-p270:32:32-p271:32:32-p272:64:64-i64:64-f80:128-n8:16:32:64-S128"
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declare void @f0()
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declare void @f1()
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declare void @f2()
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declare void @llvm.lifetime.start.p0i8(i64 immarg, i8* nocapture)
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declare void @llvm.lifetime.end.p0i8(i64 immarg, i8* nocapture)
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define void @_Z4loopi(i32 %width) {
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; HOIST-LABEL: @_Z4loopi(
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; HOIST-NEXT: entry:
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; HOIST-NEXT: [[CMP:%.*]] = icmp slt i32 [[WIDTH:%.*]], 1
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; HOIST-NEXT: br i1 [[CMP]], label [[RETURN:%.*]], label [[FOR_COND_PREHEADER:%.*]]
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; HOIST: for.cond.preheader:
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; HOIST-NEXT: [[TMP0:%.*]] = add nsw i32 [[WIDTH]], -1
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; HOIST-NEXT: br label [[FOR_COND:%.*]]
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; HOIST: for.cond:
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; HOIST-NEXT: [[I_0:%.*]] = phi i32 [ [[INC:%.*]], [[FOR_BODY:%.*]] ], [ 0, [[FOR_COND_PREHEADER]] ]
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; HOIST-NEXT: [[EXITCOND_NOT:%.*]] = icmp eq i32 [[I_0]], [[TMP0]]
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; HOIST-NEXT: tail call void @f0()
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; HOIST-NEXT: br i1 [[EXITCOND_NOT]], label [[FOR_COND_CLEANUP:%.*]], label [[FOR_BODY]]
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; HOIST: for.cond.cleanup:
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; HOIST-NEXT: tail call void @f2()
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; HOIST-NEXT: br label [[RETURN]]
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; HOIST: for.body:
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; HOIST-NEXT: tail call void @f1()
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; HOIST-NEXT: [[INC]] = add nuw i32 [[I_0]], 1
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; HOIST-NEXT: br label [[FOR_COND]]
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; HOIST: return:
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; HOIST-NEXT: ret void
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;
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; ROTATED_LATER_OLDPM-LABEL: @_Z4loopi(
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; ROTATED_LATER_OLDPM-NEXT: entry:
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; ROTATED_LATER_OLDPM-NEXT: [[CMP:%.*]] = icmp slt i32 [[WIDTH:%.*]], 1
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; ROTATED_LATER_OLDPM-NEXT: br i1 [[CMP]], label [[RETURN:%.*]], label [[FOR_COND_PREHEADER:%.*]]
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; ROTATED_LATER_OLDPM: for.cond.preheader:
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; ROTATED_LATER_OLDPM-NEXT: [[CMP13_NOT:%.*]] = icmp eq i32 [[WIDTH]], 1
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; ROTATED_LATER_OLDPM-NEXT: br i1 [[CMP13_NOT]], label [[FOR_COND_CLEANUP:%.*]], label [[FOR_BODY_PREHEADER:%.*]]
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; ROTATED_LATER_OLDPM: for.body.preheader:
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; ROTATED_LATER_OLDPM-NEXT: [[TMP0:%.*]] = add nsw i32 [[WIDTH]], -1
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; ROTATED_LATER_OLDPM-NEXT: br label [[FOR_BODY:%.*]]
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; ROTATED_LATER_OLDPM: for.cond.cleanup:
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; ROTATED_LATER_OLDPM-NEXT: tail call void @f0()
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; ROTATED_LATER_OLDPM-NEXT: tail call void @f2()
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; ROTATED_LATER_OLDPM-NEXT: br label [[RETURN]]
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; ROTATED_LATER_OLDPM: for.body:
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; ROTATED_LATER_OLDPM-NEXT: [[I_04:%.*]] = phi i32 [ [[INC:%.*]], [[FOR_BODY]] ], [ 0, [[FOR_BODY_PREHEADER]] ]
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; ROTATED_LATER_OLDPM-NEXT: tail call void @f0()
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; ROTATED_LATER_OLDPM-NEXT: tail call void @f1()
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; ROTATED_LATER_OLDPM-NEXT: [[INC]] = add nuw nsw i32 [[I_04]], 1
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; ROTATED_LATER_OLDPM-NEXT: [[EXITCOND_NOT:%.*]] = icmp eq i32 [[INC]], [[TMP0]]
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; ROTATED_LATER_OLDPM-NEXT: br i1 [[EXITCOND_NOT]], label [[FOR_COND_CLEANUP]], label [[FOR_BODY]]
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; ROTATED_LATER_OLDPM: return:
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; ROTATED_LATER_OLDPM-NEXT: ret void
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;
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; ROTATED_LATER_NEWPM-LABEL: @_Z4loopi(
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; ROTATED_LATER_NEWPM-NEXT: entry:
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; ROTATED_LATER_NEWPM-NEXT: [[CMP:%.*]] = icmp slt i32 [[WIDTH:%.*]], 1
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; ROTATED_LATER_NEWPM-NEXT: br i1 [[CMP]], label [[RETURN:%.*]], label [[FOR_COND_PREHEADER:%.*]]
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; ROTATED_LATER_NEWPM: for.cond.preheader:
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; ROTATED_LATER_NEWPM-NEXT: [[CMP13_NOT:%.*]] = icmp eq i32 [[WIDTH]], 1
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; ROTATED_LATER_NEWPM-NEXT: br i1 [[CMP13_NOT]], label [[FOR_COND_CLEANUP:%.*]], label [[FOR_BODY_PREHEADER:%.*]]
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; ROTATED_LATER_NEWPM: for.body.preheader:
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; ROTATED_LATER_NEWPM-NEXT: [[TMP0:%.*]] = add nsw i32 [[WIDTH]], -1
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; ROTATED_LATER_NEWPM-NEXT: [[INC_1:%.*]] = add nuw nsw i32 0, 1
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; ROTATED_LATER_NEWPM-NEXT: br label [[FOR_BODY:%.*]]
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; ROTATED_LATER_NEWPM: for.cond.cleanup:
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; ROTATED_LATER_NEWPM-NEXT: tail call void @f0()
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; ROTATED_LATER_NEWPM-NEXT: tail call void @f2()
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; ROTATED_LATER_NEWPM-NEXT: br label [[RETURN]]
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; ROTATED_LATER_NEWPM: for.body:
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; ROTATED_LATER_NEWPM-NEXT: [[INC_PHI:%.*]] = phi i32 [ [[INC_0:%.*]], [[FOR_BODY_FOR_BODY_CRIT_EDGE:%.*]] ], [ [[INC_1]], [[FOR_BODY_PREHEADER]] ]
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; ROTATED_LATER_NEWPM-NEXT: tail call void @f0()
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; ROTATED_LATER_NEWPM-NEXT: tail call void @f1()
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; ROTATED_LATER_NEWPM-NEXT: [[EXITCOND_NOT:%.*]] = icmp eq i32 [[INC_PHI]], [[TMP0]]
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; ROTATED_LATER_NEWPM-NEXT: br i1 [[EXITCOND_NOT]], label [[FOR_COND_CLEANUP]], label [[FOR_BODY_FOR_BODY_CRIT_EDGE]]
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; ROTATED_LATER_NEWPM: for.body.for.body_crit_edge:
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; ROTATED_LATER_NEWPM-NEXT: [[INC_0]] = add nuw nsw i32 [[INC_PHI]], 1
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; ROTATED_LATER_NEWPM-NEXT: br label [[FOR_BODY]]
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; ROTATED_LATER_NEWPM: return:
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; ROTATED_LATER_NEWPM-NEXT: ret void
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;
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; ROTATE_OLDPM-LABEL: @_Z4loopi(
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; ROTATE_OLDPM-NEXT: entry:
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; ROTATE_OLDPM-NEXT: [[CMP:%.*]] = icmp slt i32 [[WIDTH:%.*]], 1
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; ROTATE_OLDPM-NEXT: br i1 [[CMP]], label [[RETURN:%.*]], label [[FOR_COND_PREHEADER:%.*]]
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; ROTATE_OLDPM: for.cond.preheader:
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; ROTATE_OLDPM-NEXT: [[CMP13_NOT:%.*]] = icmp eq i32 [[WIDTH]], 1
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; ROTATE_OLDPM-NEXT: br i1 [[CMP13_NOT]], label [[FOR_COND_CLEANUP:%.*]], label [[FOR_BODY_PREHEADER:%.*]]
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; ROTATE_OLDPM: for.body.preheader:
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; ROTATE_OLDPM-NEXT: [[TMP0:%.*]] = add nsw i32 [[WIDTH]], -1
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; ROTATE_OLDPM-NEXT: br label [[FOR_BODY:%.*]]
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; ROTATE_OLDPM: for.cond.cleanup:
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; ROTATE_OLDPM-NEXT: tail call void @f0()
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; ROTATE_OLDPM-NEXT: tail call void @f2()
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; ROTATE_OLDPM-NEXT: br label [[RETURN]]
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; ROTATE_OLDPM: for.body:
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; ROTATE_OLDPM-NEXT: [[I_04:%.*]] = phi i32 [ [[INC:%.*]], [[FOR_BODY]] ], [ 0, [[FOR_BODY_PREHEADER]] ]
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; ROTATE_OLDPM-NEXT: tail call void @f0()
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; ROTATE_OLDPM-NEXT: tail call void @f1()
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; ROTATE_OLDPM-NEXT: [[INC]] = add nuw nsw i32 [[I_04]], 1
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; ROTATE_OLDPM-NEXT: [[EXITCOND_NOT:%.*]] = icmp eq i32 [[INC]], [[TMP0]]
|
|
; ROTATE_OLDPM-NEXT: br i1 [[EXITCOND_NOT]], label [[FOR_COND_CLEANUP]], label [[FOR_BODY]]
|
|
; ROTATE_OLDPM: return:
|
|
; ROTATE_OLDPM-NEXT: ret void
|
|
;
|
|
; ROTATE_NEWPM-LABEL: @_Z4loopi(
|
|
; ROTATE_NEWPM-NEXT: entry:
|
|
; ROTATE_NEWPM-NEXT: [[CMP:%.*]] = icmp slt i32 [[WIDTH:%.*]], 1
|
|
; ROTATE_NEWPM-NEXT: br i1 [[CMP]], label [[RETURN:%.*]], label [[FOR_COND_PREHEADER:%.*]]
|
|
; ROTATE_NEWPM: for.cond.preheader:
|
|
; ROTATE_NEWPM-NEXT: [[CMP13_NOT:%.*]] = icmp eq i32 [[WIDTH]], 1
|
|
; ROTATE_NEWPM-NEXT: br i1 [[CMP13_NOT]], label [[FOR_COND_CLEANUP:%.*]], label [[FOR_BODY_PREHEADER:%.*]]
|
|
; ROTATE_NEWPM: for.body.preheader:
|
|
; ROTATE_NEWPM-NEXT: [[TMP0:%.*]] = add nsw i32 [[WIDTH]], -1
|
|
; ROTATE_NEWPM-NEXT: [[INC_1:%.*]] = add nuw nsw i32 0, 1
|
|
; ROTATE_NEWPM-NEXT: br label [[FOR_BODY:%.*]]
|
|
; ROTATE_NEWPM: for.cond.cleanup:
|
|
; ROTATE_NEWPM-NEXT: tail call void @f0()
|
|
; ROTATE_NEWPM-NEXT: tail call void @f2()
|
|
; ROTATE_NEWPM-NEXT: br label [[RETURN]]
|
|
; ROTATE_NEWPM: for.body:
|
|
; ROTATE_NEWPM-NEXT: [[INC_PHI:%.*]] = phi i32 [ [[INC_0:%.*]], [[FOR_BODY_FOR_BODY_CRIT_EDGE:%.*]] ], [ [[INC_1]], [[FOR_BODY_PREHEADER]] ]
|
|
; ROTATE_NEWPM-NEXT: tail call void @f0()
|
|
; ROTATE_NEWPM-NEXT: tail call void @f1()
|
|
; ROTATE_NEWPM-NEXT: [[EXITCOND_NOT:%.*]] = icmp eq i32 [[INC_PHI]], [[TMP0]]
|
|
; ROTATE_NEWPM-NEXT: br i1 [[EXITCOND_NOT]], label [[FOR_COND_CLEANUP]], label [[FOR_BODY_FOR_BODY_CRIT_EDGE]]
|
|
; ROTATE_NEWPM: for.body.for.body_crit_edge:
|
|
; ROTATE_NEWPM-NEXT: [[INC_0]] = add nuw nsw i32 [[INC_PHI]], 1
|
|
; ROTATE_NEWPM-NEXT: br label [[FOR_BODY]]
|
|
; ROTATE_NEWPM: return:
|
|
; ROTATE_NEWPM-NEXT: ret void
|
|
;
|
|
entry:
|
|
%width.addr = alloca i32, align 4
|
|
%i = alloca i32, align 4
|
|
store i32 %width, i32* %width.addr, align 4
|
|
%i1 = load i32, i32* %width.addr, align 4
|
|
%cmp = icmp slt i32 %i1, 1
|
|
br i1 %cmp, label %if.then, label %if.end
|
|
|
|
if.then:
|
|
br label %return
|
|
|
|
if.end:
|
|
%i2 = bitcast i32* %i to i8*
|
|
call void @llvm.lifetime.start.p0i8(i64 4, i8* %i2)
|
|
store i32 0, i32* %i, align 4
|
|
br label %for.cond
|
|
|
|
for.cond:
|
|
%i3 = load i32, i32* %i, align 4
|
|
%i4 = load i32, i32* %width.addr, align 4
|
|
%sub = sub nsw i32 %i4, 1
|
|
%cmp1 = icmp slt i32 %i3, %sub
|
|
br i1 %cmp1, label %for.body, label %for.cond.cleanup
|
|
|
|
for.cond.cleanup:
|
|
%i5 = bitcast i32* %i to i8*
|
|
call void @llvm.lifetime.end.p0i8(i64 4, i8* %i5)
|
|
br label %for.end
|
|
|
|
for.body:
|
|
call void @f0()
|
|
call void @f1()
|
|
br label %for.inc
|
|
|
|
for.inc:
|
|
%i6 = load i32, i32* %i, align 4
|
|
%inc = add nsw i32 %i6, 1
|
|
store i32 %inc, i32* %i, align 4
|
|
br label %for.cond
|
|
|
|
for.end:
|
|
call void @f0()
|
|
call void @f2()
|
|
br label %return
|
|
|
|
return:
|
|
ret void
|
|
}
|