Use VPIRBasicBlock to wrap the middle block and implement patching up branches in predecessors in VPIRBasicBlock::execute. The IR middle block is only created after skeleton creation. Initially a regular VPBasicBlock is created, which will later be replaced by a VPIRBasicBlock once the middle IR basic block has been created. Note that this slightly changes the order of instructions created in the middle block; code generated by recipe execution in the middle block will now be inserted before the terminator (and in between the compare to used by the terminator). The original order will be restored in https://github.com/llvm/llvm-project/pull/92651. PR: https://github.com/llvm/llvm-project/pull/95816
284 lines
16 KiB
LLVM
284 lines
16 KiB
LLVM
; NOTE: Assertions have been autogenerated by utils/update_test_checks.py
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; RUN: opt < %s -aa-pipeline=basic-aa -passes='loop-mssa(licm),loop-vectorize,dce,instcombine,loop-mssa(licm)' -force-vector-width=4 -S | FileCheck %s
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; First licm pass is to hoist/sink invariant stores if possible. Today LICM does
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; not hoist/sink the invariant stores. Even if that changes, we should still
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; vectorize this loop in case licm is not run.
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; The next licm pass after vectorization is to hoist/sink loop invariant
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; instructions.
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target datalayout = "e-p:64:64:64-i1:8:8-i8:8:8-i16:16:16-i32:32:32-i64:64:64-f32:32:32-f64:64:64-v64:64:64-v128:128:128-a0:0:64-s0:64:64-f80:128:128-n8:16:32:64-S128"
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; This file separates tests with auto-generated check lines from
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; invariant-store-vectorization.ll for maintenance.
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; all tests check that it is legal to vectorize the stores to invariant
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; address.
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; Instcombine'd version of @inv_val_store_to_inv_address_conditional_diff_values.
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; Now the store is no longer of invariant value.
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; scalar store the value extracted from the last element of the vector value.
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define void @inv_val_store_to_inv_address_conditional_diff_values_ic(ptr %a, i64 %n, ptr %b, i32 %k) {
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; CHECK-LABEL: @inv_val_store_to_inv_address_conditional_diff_values_ic(
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; CHECK-NEXT: entry:
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; CHECK-NEXT: [[NTRUNC:%.*]] = trunc i64 [[N:%.*]] to i32
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; CHECK-NEXT: [[SMAX2:%.*]] = call i64 @llvm.smax.i64(i64 [[N]], i64 1)
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; CHECK-NEXT: [[MIN_ITERS_CHECK:%.*]] = icmp slt i64 [[N]], 4
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; CHECK-NEXT: br i1 [[MIN_ITERS_CHECK]], label [[SCALAR_PH:%.*]], label [[VECTOR_MEMCHECK:%.*]]
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; CHECK: vector.memcheck:
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; CHECK-NEXT: [[TMP0:%.*]] = shl i64 [[N]], 2
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; CHECK-NEXT: [[SCEVGEP:%.*]] = getelementptr i8, ptr [[B:%.*]], i64 [[TMP0]]
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; CHECK-NEXT: [[SCEVGEP1:%.*]] = getelementptr i8, ptr [[A:%.*]], i64 4
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; CHECK-NEXT: [[BOUND0:%.*]] = icmp ugt ptr [[SCEVGEP1]], [[B]]
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; CHECK-NEXT: [[BOUND1:%.*]] = icmp ugt ptr [[SCEVGEP]], [[A]]
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; CHECK-NEXT: [[FOUND_CONFLICT:%.*]] = and i1 [[BOUND0]], [[BOUND1]]
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; CHECK-NEXT: br i1 [[FOUND_CONFLICT]], label [[SCALAR_PH]], label [[VECTOR_PH:%.*]]
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; CHECK: vector.ph:
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; CHECK-NEXT: [[N_VEC:%.*]] = and i64 [[SMAX2]], 9223372036854775804
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; CHECK-NEXT: [[BROADCAST_SPLATINSERT:%.*]] = insertelement <4 x i32> poison, i32 [[K:%.*]], i64 0
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; CHECK-NEXT: [[BROADCAST_SPLAT:%.*]] = shufflevector <4 x i32> [[BROADCAST_SPLATINSERT]], <4 x i32> poison, <4 x i32> zeroinitializer
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; CHECK-NEXT: [[BROADCAST_SPLATINSERT3:%.*]] = insertelement <4 x i32> poison, i32 [[NTRUNC]], i64 0
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; CHECK-NEXT: [[BROADCAST_SPLAT4:%.*]] = shufflevector <4 x i32> [[BROADCAST_SPLATINSERT3]], <4 x i32> poison, <4 x i32> zeroinitializer
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; CHECK-NEXT: br label [[VECTOR_BODY:%.*]]
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; CHECK: vector.body:
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; CHECK-NEXT: [[INDEX:%.*]] = phi i64 [ 0, [[VECTOR_PH]] ], [ [[INDEX_NEXT:%.*]], [[VECTOR_BODY]] ]
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; CHECK-NEXT: [[TMP1:%.*]] = getelementptr inbounds i32, ptr [[B]], i64 [[INDEX]]
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; CHECK-NEXT: [[WIDE_LOAD:%.*]] = load <4 x i32>, ptr [[TMP1]], align 8, !alias.scope [[META0:![0-9]+]], !noalias [[META3:![0-9]+]]
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; CHECK-NEXT: [[DOTNOT:%.*]] = icmp eq <4 x i32> [[WIDE_LOAD]], [[BROADCAST_SPLAT]]
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; CHECK-NEXT: store <4 x i32> [[BROADCAST_SPLAT4]], ptr [[TMP1]], align 4, !alias.scope [[META0]], !noalias [[META3]]
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; CHECK-NEXT: [[PREDPHI:%.*]] = select <4 x i1> [[DOTNOT]], <4 x i32> [[BROADCAST_SPLAT4]], <4 x i32> [[BROADCAST_SPLAT]]
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; CHECK-NEXT: [[TMP2:%.*]] = extractelement <4 x i32> [[PREDPHI]], i64 3
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; CHECK-NEXT: store i32 [[TMP2]], ptr [[A]], align 4, !alias.scope [[META3]]
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; CHECK-NEXT: [[INDEX_NEXT]] = add nuw i64 [[INDEX]], 4
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; CHECK-NEXT: [[TMP3:%.*]] = icmp eq i64 [[INDEX_NEXT]], [[N_VEC]]
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; CHECK-NEXT: br i1 [[TMP3]], label [[MIDDLE_BLOCK:%.*]], label [[VECTOR_BODY]], !llvm.loop [[LOOP5:![0-9]+]]
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; CHECK: middle.block:
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; CHECK-NEXT: [[CMP_N:%.*]] = icmp eq i64 [[SMAX2]], [[N_VEC]]
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; CHECK-NEXT: br i1 [[CMP_N]], label [[FOR_END:%.*]], label [[SCALAR_PH]]
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; CHECK: scalar.ph:
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; CHECK-NEXT: [[BC_RESUME_VAL:%.*]] = phi i64 [ [[N_VEC]], [[MIDDLE_BLOCK]] ], [ 0, [[ENTRY:%.*]] ], [ 0, [[VECTOR_MEMCHECK]] ]
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; CHECK-NEXT: br label [[FOR_BODY:%.*]]
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; CHECK: for.body:
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; CHECK-NEXT: [[I:%.*]] = phi i64 [ [[I_NEXT:%.*]], [[LATCH:%.*]] ], [ [[BC_RESUME_VAL]], [[SCALAR_PH]] ]
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; CHECK-NEXT: [[I1:%.*]] = getelementptr inbounds i32, ptr [[B]], i64 [[I]]
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; CHECK-NEXT: [[I2:%.*]] = load i32, ptr [[I1]], align 8
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; CHECK-NEXT: [[CMP:%.*]] = icmp eq i32 [[I2]], [[K]]
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; CHECK-NEXT: store i32 [[NTRUNC]], ptr [[I1]], align 4
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; CHECK-NEXT: br i1 [[CMP]], label [[COND_STORE:%.*]], label [[COND_STORE_K:%.*]]
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; CHECK: cond_store:
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; CHECK-NEXT: br label [[LATCH]]
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; CHECK: cond_store_k:
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; CHECK-NEXT: br label [[LATCH]]
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; CHECK: latch:
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; CHECK-NEXT: [[STOREVAL:%.*]] = phi i32 [ [[NTRUNC]], [[COND_STORE]] ], [ [[K]], [[COND_STORE_K]] ]
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; CHECK-NEXT: store i32 [[STOREVAL]], ptr [[A]], align 4
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; CHECK-NEXT: [[I_NEXT]] = add nuw nsw i64 [[I]], 1
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; CHECK-NEXT: [[COND:%.*]] = icmp slt i64 [[I_NEXT]], [[N]]
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; CHECK-NEXT: br i1 [[COND]], label [[FOR_BODY]], label [[FOR_END_LOOPEXIT:%.*]], !llvm.loop [[LOOP8:![0-9]+]]
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; CHECK: for.end.loopexit:
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; CHECK-NEXT: br label [[FOR_END]]
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; CHECK: for.end:
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; CHECK-NEXT: ret void
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;
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entry:
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%ntrunc = trunc i64 %n to i32
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br label %for.body
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for.body: ; preds = %for.body, %entry
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%i = phi i64 [ %i.next, %latch ], [ 0, %entry ]
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%i1 = getelementptr inbounds i32, ptr %b, i64 %i
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%i2 = load i32, ptr %i1, align 8
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%cmp = icmp eq i32 %i2, %k
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store i32 %ntrunc, ptr %i1
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br i1 %cmp, label %cond_store, label %cond_store_k
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cond_store:
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br label %latch
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cond_store_k:
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br label %latch
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latch:
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%storeval = phi i32 [ %ntrunc, %cond_store ], [ %k, %cond_store_k ]
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store i32 %storeval, ptr %a
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%i.next = add nuw nsw i64 %i, 1
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%cond = icmp slt i64 %i.next, %n
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br i1 %cond, label %for.body, label %for.end
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for.end: ; preds = %for.body
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ret void
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}
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; invariant val stored to invariant address predicated on invariant condition
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; This is not treated as a predicated store since the block the store belongs to
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; is the latch block (which doesn't need to be predicated).
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; variant/invariant values being stored to invariant address.
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; test checks that the last element of the phi is extracted and scalar stored
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; into the uniform address within the loop.
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; Since the condition and the phi is loop invariant, they are LICM'ed after
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; vectorization.
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define void @inv_val_store_to_inv_address_conditional_inv(ptr %a, i64 %n, ptr %b, i32 %k) {
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; CHECK-LABEL: @inv_val_store_to_inv_address_conditional_inv(
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; CHECK-NEXT: entry:
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; CHECK-NEXT: [[NTRUNC:%.*]] = trunc i64 [[N:%.*]] to i32
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; CHECK-NEXT: [[CMP:%.*]] = icmp eq i32 [[NTRUNC]], [[K:%.*]]
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; CHECK-NEXT: [[SMAX2:%.*]] = call i64 @llvm.smax.i64(i64 [[N]], i64 1)
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; CHECK-NEXT: [[MIN_ITERS_CHECK:%.*]] = icmp slt i64 [[N]], 4
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; CHECK-NEXT: br i1 [[MIN_ITERS_CHECK]], label [[SCALAR_PH:%.*]], label [[VECTOR_MEMCHECK:%.*]]
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; CHECK: vector.memcheck:
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; CHECK-NEXT: [[TMP0:%.*]] = shl i64 [[N]], 2
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; CHECK-NEXT: [[SCEVGEP:%.*]] = getelementptr i8, ptr [[B:%.*]], i64 [[TMP0]]
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; CHECK-NEXT: [[SCEVGEP1:%.*]] = getelementptr i8, ptr [[A:%.*]], i64 4
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; CHECK-NEXT: [[BOUND0:%.*]] = icmp ugt ptr [[SCEVGEP1]], [[B]]
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; CHECK-NEXT: [[BOUND1:%.*]] = icmp ugt ptr [[SCEVGEP]], [[A]]
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; CHECK-NEXT: [[FOUND_CONFLICT:%.*]] = and i1 [[BOUND0]], [[BOUND1]]
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; CHECK-NEXT: br i1 [[FOUND_CONFLICT]], label [[SCALAR_PH]], label [[VECTOR_PH:%.*]]
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; CHECK: vector.ph:
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; CHECK-NEXT: [[N_VEC:%.*]] = and i64 [[SMAX2]], 9223372036854775804
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; CHECK-NEXT: [[BROADCAST_SPLATINSERT:%.*]] = insertelement <4 x i32> poison, i32 [[NTRUNC]], i64 0
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; CHECK-NEXT: [[BROADCAST_SPLAT:%.*]] = shufflevector <4 x i32> [[BROADCAST_SPLATINSERT]], <4 x i32> poison, <4 x i32> zeroinitializer
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; CHECK-NEXT: [[TMP1:%.*]] = insertelement <4 x i1> poison, i1 [[CMP]], i64 3
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; CHECK-NEXT: [[BROADCAST_SPLAT6:%.*]] = insertelement <4 x i32> poison, i32 [[K]], i64 3
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; CHECK-NEXT: [[PREDPHI:%.*]] = select <4 x i1> [[TMP1]], <4 x i32> [[BROADCAST_SPLAT]], <4 x i32> [[BROADCAST_SPLAT6]]
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; CHECK-NEXT: [[TMP2:%.*]] = extractelement <4 x i32> [[PREDPHI]], i64 3
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; CHECK-NEXT: br label [[VECTOR_BODY:%.*]]
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; CHECK: vector.body:
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; CHECK-NEXT: [[INDEX:%.*]] = phi i64 [ 0, [[VECTOR_PH]] ], [ [[INDEX_NEXT:%.*]], [[VECTOR_BODY]] ]
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; CHECK-NEXT: [[TMP3:%.*]] = getelementptr inbounds i32, ptr [[B]], i64 [[INDEX]]
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; CHECK-NEXT: store <4 x i32> [[BROADCAST_SPLAT]], ptr [[TMP3]], align 4, !alias.scope [[META9:![0-9]+]], !noalias [[META12:![0-9]+]]
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; CHECK-NEXT: store i32 [[TMP2]], ptr [[A]], align 4, !alias.scope [[META12]]
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; CHECK-NEXT: [[INDEX_NEXT]] = add nuw i64 [[INDEX]], 4
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; CHECK-NEXT: [[TMP4:%.*]] = icmp eq i64 [[INDEX_NEXT]], [[N_VEC]]
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; CHECK-NEXT: br i1 [[TMP4]], label [[MIDDLE_BLOCK:%.*]], label [[VECTOR_BODY]], !llvm.loop [[LOOP14:![0-9]+]]
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; CHECK: middle.block:
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; CHECK-NEXT: [[CMP_N:%.*]] = icmp eq i64 [[SMAX2]], [[N_VEC]]
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; CHECK-NEXT: br i1 [[CMP_N]], label [[FOR_END:%.*]], label [[SCALAR_PH]]
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; CHECK: scalar.ph:
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; CHECK-NEXT: [[BC_RESUME_VAL:%.*]] = phi i64 [ [[N_VEC]], [[MIDDLE_BLOCK]] ], [ 0, [[ENTRY:%.*]] ], [ 0, [[VECTOR_MEMCHECK]] ]
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; CHECK-NEXT: br label [[FOR_BODY:%.*]]
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; CHECK: for.body:
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; CHECK-NEXT: [[I:%.*]] = phi i64 [ [[I_NEXT:%.*]], [[LATCH:%.*]] ], [ [[BC_RESUME_VAL]], [[SCALAR_PH]] ]
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; CHECK-NEXT: [[I1:%.*]] = getelementptr inbounds i32, ptr [[B]], i64 [[I]]
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; CHECK-NEXT: store i32 [[NTRUNC]], ptr [[I1]], align 4
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; CHECK-NEXT: br i1 [[CMP]], label [[COND_STORE:%.*]], label [[COND_STORE_K:%.*]]
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; CHECK: cond_store:
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; CHECK-NEXT: br label [[LATCH]]
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; CHECK: cond_store_k:
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; CHECK-NEXT: br label [[LATCH]]
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; CHECK: latch:
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; CHECK-NEXT: [[STOREVAL:%.*]] = phi i32 [ [[NTRUNC]], [[COND_STORE]] ], [ [[K]], [[COND_STORE_K]] ]
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; CHECK-NEXT: store i32 [[STOREVAL]], ptr [[A]], align 4
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; CHECK-NEXT: [[I_NEXT]] = add nuw nsw i64 [[I]], 1
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; CHECK-NEXT: [[COND:%.*]] = icmp slt i64 [[I_NEXT]], [[N]]
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; CHECK-NEXT: br i1 [[COND]], label [[FOR_BODY]], label [[FOR_END_LOOPEXIT:%.*]], !llvm.loop [[LOOP15:![0-9]+]]
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; CHECK: for.end.loopexit:
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; CHECK-NEXT: br label [[FOR_END]]
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; CHECK: for.end:
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; CHECK-NEXT: ret void
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;
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entry:
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%ntrunc = trunc i64 %n to i32
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%cmp = icmp eq i32 %ntrunc, %k
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br label %for.body
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for.body: ; preds = %for.body, %entry
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%i = phi i64 [ %i.next, %latch ], [ 0, %entry ]
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%i1 = getelementptr inbounds i32, ptr %b, i64 %i
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%i2 = load i32, ptr %i1, align 8
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store i32 %ntrunc, ptr %i1
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br i1 %cmp, label %cond_store, label %cond_store_k
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cond_store:
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br label %latch
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cond_store_k:
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br label %latch
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latch:
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%storeval = phi i32 [ %ntrunc, %cond_store ], [ %k, %cond_store_k ]
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store i32 %storeval, ptr %a
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%i.next = add nuw nsw i64 %i, 1
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%cond = icmp slt i64 %i.next, %n
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br i1 %cond, label %for.body, label %for.end
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for.end: ; preds = %for.body
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ret void
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}
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; variant value stored to uniform address tests that the code gen extracts the
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; last element from the variant vector and scalar stores it into the uniform
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; address.
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define i32 @variant_val_store_to_inv_address(ptr %a, i64 %n, ptr %b, i32 %k) {
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; CHECK-LABEL: @variant_val_store_to_inv_address(
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; CHECK-NEXT: entry:
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; CHECK-NEXT: [[SMAX2:%.*]] = call i64 @llvm.smax.i64(i64 [[N:%.*]], i64 1)
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; CHECK-NEXT: [[MIN_ITERS_CHECK:%.*]] = icmp slt i64 [[N]], 4
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; CHECK-NEXT: br i1 [[MIN_ITERS_CHECK]], label [[SCALAR_PH:%.*]], label [[VECTOR_MEMCHECK:%.*]]
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; CHECK: vector.memcheck:
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; CHECK-NEXT: [[SCEVGEP:%.*]] = getelementptr i8, ptr [[A:%.*]], i64 4
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; CHECK-NEXT: [[TMP0:%.*]] = shl i64 [[N]], 2
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; CHECK-NEXT: [[SCEVGEP1:%.*]] = getelementptr i8, ptr [[B:%.*]], i64 [[TMP0]]
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; CHECK-NEXT: [[BOUND0:%.*]] = icmp ugt ptr [[SCEVGEP1]], [[A]]
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; CHECK-NEXT: [[BOUND1:%.*]] = icmp ugt ptr [[SCEVGEP]], [[B]]
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; CHECK-NEXT: [[FOUND_CONFLICT:%.*]] = and i1 [[BOUND0]], [[BOUND1]]
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; CHECK-NEXT: br i1 [[FOUND_CONFLICT]], label [[SCALAR_PH]], label [[VECTOR_PH:%.*]]
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; CHECK: vector.ph:
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; CHECK-NEXT: [[N_VEC:%.*]] = and i64 [[SMAX2]], 9223372036854775804
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; CHECK-NEXT: br label [[VECTOR_BODY:%.*]]
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; CHECK: vector.body:
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; CHECK-NEXT: [[INDEX:%.*]] = phi i64 [ 0, [[VECTOR_PH]] ], [ [[INDEX_NEXT:%.*]], [[VECTOR_BODY]] ]
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; CHECK-NEXT: [[VEC_PHI:%.*]] = phi <4 x i32> [ zeroinitializer, [[VECTOR_PH]] ], [ [[TMP3:%.*]], [[VECTOR_BODY]] ]
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; CHECK-NEXT: [[TMP1:%.*]] = getelementptr inbounds i32, ptr [[B]], i64 [[INDEX]]
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; CHECK-NEXT: [[WIDE_LOAD:%.*]] = load <4 x i32>, ptr [[TMP1]], align 8, !alias.scope [[META16:![0-9]+]]
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; CHECK-NEXT: [[TMP2:%.*]] = extractelement <4 x i32> [[WIDE_LOAD]], i64 3
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; CHECK-NEXT: store i32 [[TMP2]], ptr [[A]], align 4, !alias.scope [[META19:![0-9]+]], !noalias [[META16]]
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; CHECK-NEXT: [[TMP3]] = add <4 x i32> [[VEC_PHI]], [[WIDE_LOAD]]
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; CHECK-NEXT: [[INDEX_NEXT]] = add nuw i64 [[INDEX]], 4
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; CHECK-NEXT: [[TMP4:%.*]] = icmp eq i64 [[INDEX_NEXT]], [[N_VEC]]
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; CHECK-NEXT: br i1 [[TMP4]], label [[MIDDLE_BLOCK:%.*]], label [[VECTOR_BODY]], !llvm.loop [[LOOP21:![0-9]+]]
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; CHECK: middle.block:
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; CHECK-NEXT: [[DOTLCSSA:%.*]] = phi <4 x i32> [ [[TMP3]], [[VECTOR_BODY]] ]
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; CHECK-NEXT: [[CMP_N:%.*]] = icmp eq i64 [[SMAX2]], [[N_VEC]]
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; CHECK-NEXT: [[TMP5:%.*]] = call i32 @llvm.vector.reduce.add.v4i32(<4 x i32> [[DOTLCSSA]])
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; CHECK-NEXT: br i1 [[CMP_N]], label [[FOR_END:%.*]], label [[SCALAR_PH]]
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; CHECK: scalar.ph:
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; CHECK-NEXT: [[BC_RESUME_VAL:%.*]] = phi i64 [ [[N_VEC]], [[MIDDLE_BLOCK]] ], [ 0, [[ENTRY:%.*]] ], [ 0, [[VECTOR_MEMCHECK]] ]
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; CHECK-NEXT: [[BC_MERGE_RDX:%.*]] = phi i32 [ [[TMP5]], [[MIDDLE_BLOCK]] ], [ 0, [[ENTRY]] ], [ 0, [[VECTOR_MEMCHECK]] ]
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; CHECK-NEXT: br label [[FOR_BODY:%.*]]
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; CHECK: for.body:
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; CHECK-NEXT: [[I:%.*]] = phi i64 [ [[I_NEXT:%.*]], [[FOR_BODY]] ], [ [[BC_RESUME_VAL]], [[SCALAR_PH]] ]
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; CHECK-NEXT: [[I0:%.*]] = phi i32 [ [[I3:%.*]], [[FOR_BODY]] ], [ [[BC_MERGE_RDX]], [[SCALAR_PH]] ]
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; CHECK-NEXT: [[I1:%.*]] = getelementptr inbounds i32, ptr [[B]], i64 [[I]]
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; CHECK-NEXT: [[I2:%.*]] = load i32, ptr [[I1]], align 8
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; CHECK-NEXT: store i32 [[I2]], ptr [[A]], align 4
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; CHECK-NEXT: [[I3]] = add i32 [[I0]], [[I2]]
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; CHECK-NEXT: [[I_NEXT]] = add nuw nsw i64 [[I]], 1
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; CHECK-NEXT: [[COND:%.*]] = icmp slt i64 [[I_NEXT]], [[N]]
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; CHECK-NEXT: br i1 [[COND]], label [[FOR_BODY]], label [[FOR_END_LOOPEXIT:%.*]], !llvm.loop [[LOOP22:![0-9]+]]
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; CHECK: for.end.loopexit:
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; CHECK-NEXT: [[I3_LCSSA:%.*]] = phi i32 [ [[I3]], [[FOR_BODY]] ]
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; CHECK-NEXT: br label [[FOR_END]]
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; CHECK: for.end:
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; CHECK-NEXT: [[RDX_LCSSA:%.*]] = phi i32 [ [[TMP5]], [[MIDDLE_BLOCK]] ], [ [[I3_LCSSA]], [[FOR_END_LOOPEXIT]] ]
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; CHECK-NEXT: ret i32 [[RDX_LCSSA]]
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;
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entry:
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%ntrunc = trunc i64 %n to i32
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%cmp = icmp eq i32 %ntrunc, %k
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br label %for.body
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for.body: ; preds = %for.body, %entry
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%i = phi i64 [ %i.next, %for.body ], [ 0, %entry ]
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%i0 = phi i32 [ %i3, %for.body ], [ 0, %entry ]
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%i1 = getelementptr inbounds i32, ptr %b, i64 %i
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%i2 = load i32, ptr %i1, align 8
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store i32 %i2, ptr %a
|
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%i3 = add i32 %i0, %i2
|
|
%i.next = add nuw nsw i64 %i, 1
|
|
%cond = icmp slt i64 %i.next, %n
|
|
br i1 %cond, label %for.body, label %for.end
|
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|
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for.end: ; preds = %for.body
|
|
%rdx.lcssa = phi i32 [ %i3, %for.body ]
|
|
ret i32 %rdx.lcssa
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}
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