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20376d1131
The exit blocks of the versioned and non-versioned loops are not dedicated and thus the two loops are not in simplify form. Insert dummy exit blocks after loop versioning with `formDedicatedExits()` to preserve the simplify form for subsequence passes. Reviewed By: aeubanks Differential Revision: https://reviews.llvm.org/D89569
293 lines
9.0 KiB
LLVM
293 lines
9.0 KiB
LLVM
; RUN: opt -basic-aa -loop-distribute -enable-loop-distribute -verify-loop-info -verify-dom-info -S \
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; RUN: < %s | FileCheck %s
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; RUN: opt -basic-aa -loop-distribute -enable-loop-distribute -loop-vectorize -force-vector-width=4 \
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; RUN: -verify-loop-info -verify-dom-info -S < %s | \
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; RUN: FileCheck --check-prefix=VECTORIZE %s
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; RUN: opt -basic-aa -loop-distribute -enable-loop-distribute -verify-loop-info -verify-dom-info \
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; RUN: -loop-accesses -analyze < %s -enable-new-pm=0 | FileCheck %s --check-prefix=ANALYSIS
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; TODO: the following changes the order loop-access printing prints loops, remove legacy RUN and change after NPM switch
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; TODO: opt -aa-pipeline=basic-aa -passes='loop-distribute,print-access-info' -enable-loop-distribute \
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; TODO: -verify-loop-info -verify-dom-info -disable-output < %s 2>&1 | FileCheck %s --check-prefix=ANALYSIS
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; The memcheck version of basic.ll. We should distribute and vectorize the
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; second part of this loop with 5 memchecks (A+1 x {C, D, E} + C x {A, B})
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;
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; for (i = 0; i < n; i++) {
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; A[i + 1] = A[i] * B[i];
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; -------------------------------
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; C[i] = D[i] * E[i];
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; }
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target datalayout = "e-m:o-i64:64-f80:128-n8:16:32:64-S128"
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target triple = "x86_64-apple-macosx10.10.0"
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@B = common global i32* null, align 8
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@A = common global i32* null, align 8
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@C = common global i32* null, align 8
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@D = common global i32* null, align 8
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@E = common global i32* null, align 8
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; CHECK-LABEL: @f(
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define void @f() {
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entry:
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%a = load i32*, i32** @A, align 8
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%b = load i32*, i32** @B, align 8
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%c = load i32*, i32** @C, align 8
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%d = load i32*, i32** @D, align 8
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%e = load i32*, i32** @E, align 8
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br label %for.body
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; We have two compares for each array overlap check.
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; Since the checks to A and A + 4 get merged, this will give us a
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; total of 8 compares.
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;
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; CHECK: for.body.lver.check:
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; CHECK: = icmp
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; CHECK: = icmp
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; CHECK: = icmp
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; CHECK: = icmp
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; CHECK: = icmp
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; CHECK: = icmp
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; CHECK: = icmp
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; CHECK: = icmp
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; CHECK-NOT: = icmp
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; CHECK: br i1 %memcheck.conflict, label %for.body.ph.lver.orig, label %for.body.ph.ldist1
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; The non-distributed loop that the memchecks fall back on.
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; CHECK: for.body.ph.lver.orig:
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; CHECK: br label %for.body.lver.orig
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; CHECK: for.body.lver.orig:
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; CHECK: br i1 %exitcond.lver.orig, label %for.end.loopexit, label %for.body.lver.orig
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; Verify the two distributed loops.
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; CHECK: for.body.ph.ldist1:
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; CHECK: br label %for.body.ldist1
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; CHECK: for.body.ldist1:
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; CHECK: %mulA.ldist1 = mul i32 %loadB.ldist1, %loadA.ldist1
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; CHECK: br i1 %exitcond.ldist1, label %for.body.ph, label %for.body.ldist1
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; CHECK: for.body.ph:
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; CHECK: br label %for.body
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; CHECK: for.body:
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; CHECK: %mulC = mul i32 %loadD, %loadE
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; CHECK: for.end:
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; VECTORIZE: mul <4 x i32>
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for.body: ; preds = %for.body, %entry
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%ind = phi i64 [ 0, %entry ], [ %add, %for.body ]
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%arrayidxA = getelementptr inbounds i32, i32* %a, i64 %ind
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%loadA = load i32, i32* %arrayidxA, align 4
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%arrayidxB = getelementptr inbounds i32, i32* %b, i64 %ind
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%loadB = load i32, i32* %arrayidxB, align 4
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%mulA = mul i32 %loadB, %loadA
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%add = add nuw nsw i64 %ind, 1
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%arrayidxA_plus_4 = getelementptr inbounds i32, i32* %a, i64 %add
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store i32 %mulA, i32* %arrayidxA_plus_4, align 4
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%arrayidxD = getelementptr inbounds i32, i32* %d, i64 %ind
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%loadD = load i32, i32* %arrayidxD, align 4
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%arrayidxE = getelementptr inbounds i32, i32* %e, i64 %ind
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%loadE = load i32, i32* %arrayidxE, align 4
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%mulC = mul i32 %loadD, %loadE
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%arrayidxC = getelementptr inbounds i32, i32* %c, i64 %ind
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store i32 %mulC, i32* %arrayidxC, align 4
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%exitcond = icmp eq i64 %add, 20
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br i1 %exitcond, label %for.end, label %for.body
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for.end: ; preds = %for.body
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ret void
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}
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; Make sure there's no "Multiple reports generated" assert with a
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; volatile load, and no distribution
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; TODO: Distribution of volatile may be possible under some
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; circumstance, but the current implementation does not touch them.
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; CHECK-LABEL: @f_volatile_load(
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; CHECK: br label %for.body{{$}}
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; CHECK-NOT: load
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; CHECK: {{^}}for.body:
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; CHECK: load i32
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; CHECK: load i32
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; CHECK: load volatile i32
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; CHECK: load i32
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; CHECK: br i1 %exitcond, label %for.end, label %for.body{{$}}
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; CHECK-NOT: load
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; VECTORIZE-NOT: load <4 x i32>
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; VECTORIZE-NOT: mul <4 x i32>
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define void @f_volatile_load() {
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entry:
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%a = load i32*, i32** @A, align 8
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%b = load i32*, i32** @B, align 8
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%c = load i32*, i32** @C, align 8
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%d = load i32*, i32** @D, align 8
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%e = load i32*, i32** @E, align 8
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br label %for.body
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for.body:
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%ind = phi i64 [ 0, %entry ], [ %add, %for.body ]
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%arrayidxA = getelementptr inbounds i32, i32* %a, i64 %ind
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%loadA = load i32, i32* %arrayidxA, align 4
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%arrayidxB = getelementptr inbounds i32, i32* %b, i64 %ind
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%loadB = load i32, i32* %arrayidxB, align 4
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%mulA = mul i32 %loadB, %loadA
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%add = add nuw nsw i64 %ind, 1
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%arrayidxA_plus_4 = getelementptr inbounds i32, i32* %a, i64 %add
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store i32 %mulA, i32* %arrayidxA_plus_4, align 4
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%arrayidxD = getelementptr inbounds i32, i32* %d, i64 %ind
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%loadD = load volatile i32, i32* %arrayidxD, align 4
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%arrayidxE = getelementptr inbounds i32, i32* %e, i64 %ind
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%loadE = load i32, i32* %arrayidxE, align 4
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%mulC = mul i32 %loadD, %loadE
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%arrayidxC = getelementptr inbounds i32, i32* %c, i64 %ind
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store i32 %mulC, i32* %arrayidxC, align 4
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%exitcond = icmp eq i64 %add, 20
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br i1 %exitcond, label %for.end, label %for.body
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for.end:
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ret void
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}
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declare i32 @llvm.convergent(i32) #0
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; This is the same as f, and would require the same bounds
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; check. However, it is not OK to introduce new control dependencies
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; on the convergent call.
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; CHECK-LABEL: @f_with_convergent(
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; CHECK: call i32 @llvm.convergent
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; CHECK-NOT: call i32 @llvm.convergent
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; ANALYSIS: for.body:
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; ANALYSIS: Report: cannot add control dependency to convergent operation
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define void @f_with_convergent() #1 {
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entry:
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%a = load i32*, i32** @A, align 8
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%b = load i32*, i32** @B, align 8
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%c = load i32*, i32** @C, align 8
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%d = load i32*, i32** @D, align 8
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%e = load i32*, i32** @E, align 8
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br label %for.body
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for.body: ; preds = %for.body, %entry
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%ind = phi i64 [ 0, %entry ], [ %add, %for.body ]
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%arrayidxA = getelementptr inbounds i32, i32* %a, i64 %ind
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%loadA = load i32, i32* %arrayidxA, align 4
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%arrayidxB = getelementptr inbounds i32, i32* %b, i64 %ind
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%loadB = load i32, i32* %arrayidxB, align 4
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%mulA = mul i32 %loadB, %loadA
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%add = add nuw nsw i64 %ind, 1
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%arrayidxA_plus_4 = getelementptr inbounds i32, i32* %a, i64 %add
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store i32 %mulA, i32* %arrayidxA_plus_4, align 4
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%arrayidxD = getelementptr inbounds i32, i32* %d, i64 %ind
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%loadD = load i32, i32* %arrayidxD, align 4
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%arrayidxE = getelementptr inbounds i32, i32* %e, i64 %ind
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%loadE = load i32, i32* %arrayidxE, align 4
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%convergentD = call i32 @llvm.convergent(i32 %loadD)
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%mulC = mul i32 %convergentD, %loadE
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%arrayidxC = getelementptr inbounds i32, i32* %c, i64 %ind
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store i32 %mulC, i32* %arrayidxC, align 4
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%exitcond = icmp eq i64 %add, 20
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br i1 %exitcond, label %for.end, label %for.body
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for.end: ; preds = %for.body
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ret void
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}
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; Make sure an explicit request for distribution is ignored if it
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; requires possibly illegal checks.
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; CHECK-LABEL: @f_with_convergent_forced_distribute(
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; CHECK: call i32 @llvm.convergent
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; CHECK-NOT: call i32 @llvm.convergent
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define void @f_with_convergent_forced_distribute() #1 {
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entry:
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%a = load i32*, i32** @A, align 8
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%b = load i32*, i32** @B, align 8
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%c = load i32*, i32** @C, align 8
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%d = load i32*, i32** @D, align 8
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%e = load i32*, i32** @E, align 8
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br label %for.body
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for.body: ; preds = %for.body, %entry
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%ind = phi i64 [ 0, %entry ], [ %add, %for.body ]
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%arrayidxA = getelementptr inbounds i32, i32* %a, i64 %ind
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%loadA = load i32, i32* %arrayidxA, align 4
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%arrayidxB = getelementptr inbounds i32, i32* %b, i64 %ind
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%loadB = load i32, i32* %arrayidxB, align 4
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%mulA = mul i32 %loadB, %loadA
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%add = add nuw nsw i64 %ind, 1
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%arrayidxA_plus_4 = getelementptr inbounds i32, i32* %a, i64 %add
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store i32 %mulA, i32* %arrayidxA_plus_4, align 4
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%arrayidxD = getelementptr inbounds i32, i32* %d, i64 %ind
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%loadD = load i32, i32* %arrayidxD, align 4
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%arrayidxE = getelementptr inbounds i32, i32* %e, i64 %ind
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%loadE = load i32, i32* %arrayidxE, align 4
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%convergentD = call i32 @llvm.convergent(i32 %loadD)
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%mulC = mul i32 %convergentD, %loadE
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%arrayidxC = getelementptr inbounds i32, i32* %c, i64 %ind
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store i32 %mulC, i32* %arrayidxC, align 4
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%exitcond = icmp eq i64 %add, 20
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br i1 %exitcond, label %for.end, label %for.body, !llvm.loop !0
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for.end: ; preds = %for.body
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ret void
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}
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attributes #0 = { nounwind readnone convergent }
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attributes #1 = { nounwind convergent }
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!0 = distinct !{!0, !1}
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!1 = !{!"llvm.loop.distribute.enable", i1 true}
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