; RUN: opt < %s -loop-unroll -unroll-runtime=true -unroll-runtime-epilog=false -unroll-runtime-multi-exit=true -unroll-count=4 -verify-dom-info -S | FileCheck %s ; REQUIRES: asserts ; The tests below are for verifying dom tree after runtime unrolling ; with multiple exit/exiting blocks. ; We explicitly set the unroll count so that expensiveTripCount computation is allowed. ; mergedexit block has edges from loop exit blocks. define i64 @test1() { ; CHECK-LABEL: test1( ; CHECK-LABEL: headerexit: ; CHECK-NEXT: %addphi = phi i64 [ %add.iv, %header ], [ %add.iv.1, %header.1 ], [ %add.iv.2, %header.2 ], [ %add.iv.3, %header.3 ] ; CHECK-NEXT: br label %mergedexit ; CHECK-LABEL: latchexit: ; CHECK-NEXT: %shftphi = phi i64 [ %shft, %latch ], [ %shft.1, %latch.1 ], [ %shft.2, %latch.2 ], [ %shft.3, %latch.3 ] ; CHECK-NEXT: br label %mergedexit ; CHECK-LABEL: mergedexit: ; CHECK-NEXT: %retval = phi i64 [ %addphi, %headerexit ], [ %shftphi, %latchexit ] ; CHECK-NEXT: ret i64 %retval entry: br label %preheader preheader: ; preds = %bb %trip = zext i32 undef to i64 br label %header header: ; preds = %latch, %preheader %iv = phi i64 [ 2, %preheader ], [ %add.iv, %latch ] %add.iv = add nuw nsw i64 %iv, 2 %cmp1 = icmp ult i64 %add.iv, %trip br i1 %cmp1, label %latch, label %headerexit latch: ; preds = %header %shft = ashr i64 %add.iv, 1 %cmp2 = icmp ult i64 %shft, %trip br i1 %cmp2, label %header, label %latchexit headerexit: ; preds = %header %addphi = phi i64 [ %add.iv, %header ] br label %mergedexit latchexit: ; preds = %latch %shftphi = phi i64 [ %shft, %latch ] br label %mergedexit mergedexit: ; preds = %latchexit, %headerexit %retval = phi i64 [ %addphi, %headerexit ], [ %shftphi, %latchexit ] ret i64 %retval } ; mergedexit has edges from loop exit blocks and a block outside the loop. define void @test2(i1 %cond, i32 %n) { ; CHECK-LABEL: header.1: ; CHECK-NEXT: %add.iv.1 = add nuw nsw i64 %add.iv, 2 ; CHECK: br i1 %cmp1.1, label %latch.1, label %headerexit ; CHECK-LABEL: latch.3: ; CHECK: %cmp2.3 = icmp ult i64 %shft.3, %trip ; CHECK-NEXT: br i1 %cmp2.3, label %header, label %latchexit, !llvm.loop entry: br i1 %cond, label %preheader, label %mergedexit preheader: ; preds = %entry %trip = zext i32 %n to i64 br label %header header: ; preds = %latch, %preheader %iv = phi i64 [ 2, %preheader ], [ %add.iv, %latch ] %add.iv = add nuw nsw i64 %iv, 2 %cmp1 = icmp ult i64 %add.iv, %trip br i1 %cmp1, label %latch, label %headerexit latch: ; preds = %header %shft = ashr i64 %add.iv, 1 %cmp2 = icmp ult i64 %shft, %trip br i1 %cmp2, label %header, label %latchexit headerexit: ; preds = %header br label %mergedexit latchexit: ; preds = %latch br label %mergedexit mergedexit: ; preds = %latchexit, %headerexit, %entry ret void } ; exitsucc is from loop exit block only. define i64 @test3(i32 %n) { ; CHECK-LABEL: test3( ; CHECK-LABEL: headerexit: ; CHECK-NEXT: br label %exitsucc ; CHECK-LABEL: latchexit: ; CHECK-NEXT: %shftphi = phi i64 [ %shft, %latch ], [ %shft.1, %latch.1 ], [ %shft.2, %latch.2 ], [ %shft.3, %latch.3 ] ; CHECK-NEXT: ret i64 %shftphi ; CHECK-LABEL: exitsucc: ; CHECK-NEXT: ret i64 96 entry: br label %preheader preheader: ; preds = %bb %trip = zext i32 %n to i64 br label %header header: ; preds = %latch, %preheader %iv = phi i64 [ 2, %preheader ], [ %add.iv, %latch ] %add.iv = add nuw nsw i64 %iv, 2 %cmp1 = icmp ult i64 %add.iv, %trip br i1 %cmp1, label %latch, label %headerexit latch: ; preds = %header %shft = ashr i64 %add.iv, 1 %cmp2 = icmp ult i64 %shft, %trip br i1 %cmp2, label %header, label %latchexit headerexit: ; preds = %header br label %exitsucc latchexit: ; preds = %latch %shftphi = phi i64 [ %shft, %latch ] ret i64 %shftphi exitsucc: ; preds = %headerexit ret i64 96 } ; exit block (%default) has an exiting block and another exit block as predecessors. define void @test4(i16 %c3) { ; CHECK-LABEL: test4 ; CHECK-LABEL: exiting.prol: ; CHECK-NEXT: switch i16 %c3, label %default.loopexit.loopexit1 [ ; CHECK-LABEL: exiting: ; CHECK-NEXT: switch i16 %c3, label %default.loopexit.loopexit [ ; CHECK-LABEL: default.loopexit.loopexit: ; CHECK-NEXT: br label %default.loopexit ; CHECK-LABEL: default.loopexit.loopexit1: ; CHECK-NEXT: br label %default.loopexit ; CHECK-LABEL: default.loopexit: ; CHECK-NEXT: br label %default preheader: %c1 = zext i32 undef to i64 br label %header header: ; preds = %latch, %preheader %indvars.iv = phi i64 [ 0, %preheader ], [ %indvars.iv.next, %latch ] br label %exiting exiting: ; preds = %header switch i16 %c3, label %default [ i16 45, label %otherexit i16 95, label %latch ] latch: ; preds = %exiting %indvars.iv.next = add nuw nsw i64 %indvars.iv, 1 %c2 = icmp ult i64 %indvars.iv.next, %c1 br i1 %c2, label %header, label %latchexit latchexit: ; preds = %latch ret void default: ; preds = %otherexit, %exiting ret void otherexit: ; preds = %exiting br label %default } ; exit block (%exitB) has an exiting block and another exit block as predecessors. ; exiting block comes from inner loop. define void @test5() { ; CHECK-LABEL: test5 ; CHECK-LABEL: bb1: ; CHECK-NEXT: br i1 false, label %outerH.prol.preheader, label %outerH.prol.loopexit ; CHECK-LABEL: outerH.prol.preheader: ; CHECK-NEXT: br label %outerH.prol ; CHECK-LABEL: outerH.prol: ; CHECK-NEXT: %tmp4.prol = phi i32 [ %tmp6.prol, %outerLatch.prol ], [ undef, %outerH.prol.preheader ] ; CHECK-NEXT: %prol.iter = phi i32 [ 0, %outerH.prol.preheader ], [ %prol.iter.sub, %outerLatch.prol ] ; CHECK-NEXT: br label %innerH.prol bb: %tmp = icmp sgt i32 undef, 79 br i1 %tmp, label %outerLatchExit, label %bb1 bb1: ; preds = %bb br label %outerH outerH: ; preds = %outerLatch, %bb1 %tmp4 = phi i32 [ %tmp6, %outerLatch ], [ undef, %bb1 ] br label %innerH innerH: ; preds = %innerLatch, %outerH br i1 undef, label %innerexiting, label %otherexitB innerexiting: ; preds = %innerH br i1 undef, label %innerLatch, label %exitB innerLatch: ; preds = %innerexiting %tmp13 = fcmp olt double undef, 2.000000e+00 br i1 %tmp13, label %innerH, label %outerLatch outerLatch: ; preds = %innerLatch %tmp6 = add i32 %tmp4, 1 %tmp7 = icmp sgt i32 %tmp6, 79 br i1 %tmp7, label %outerLatchExit, label %outerH outerLatchExit: ; preds = %outerLatch, %bb ret void exitB: ; preds = %innerexiting, %otherexitB ret void otherexitB: ; preds = %innerH br label %exitB } ; Blocks reachable from exits (not_zero44) have the IDom as the block within the loop (Header). ; Update the IDom to the preheader. define void @test6() { ; CHECK-LABEL: test6 ; CHECK-LABEL: header.prol.preheader: ; CHECK-NEXT: br label %header.prol ; CHECK-LABEL: header.prol: ; CHECK-NEXT: %indvars.iv.prol = phi i64 [ undef, %header.prol.preheader ], [ %indvars.iv.next.prol, %latch.prol ] ; CHECK-NEXT: %prol.iter = phi i64 [ 1, %header.prol.preheader ], [ %prol.iter.sub, %latch.prol ] ; CHECK-NEXT: br i1 false, label %latch.prol, label %otherexit.loopexit1 ; CHECK-LABEL: header.prol.loopexit.unr-lcssa: ; CHECK-NEXT: %indvars.iv.unr.ph = phi i64 [ %indvars.iv.next.prol, %latch.prol ] ; CHECK-NEXT: br label %header.prol.loopexit ; CHECK-LABEL: header.prol.loopexit: ; CHECK-NEXT: %indvars.iv.unr = phi i64 [ undef, %entry ], [ %indvars.iv.unr.ph, %header.prol.loopexit.unr-lcssa ] ; CHECK-NEXT: br i1 true, label %latchexit, label %entry.new ; CHECK-LABEL: entry.new: ; CHECK-NEXT: br label %header entry: br label %header header: ; preds = %latch, %entry %indvars.iv = phi i64 [ undef, %entry ], [ %indvars.iv.next, %latch ] br i1 undef, label %latch, label %otherexit latch: ; preds = %header %indvars.iv.next = add nsw i64 %indvars.iv, 2 %0 = icmp slt i64 %indvars.iv.next, 616 br i1 %0, label %header, label %latchexit latchexit: ; preds = %latch br label %latchexitsucc otherexit: ; preds = %header br label %otherexitsucc otherexitsucc: ; preds = %otherexit br label %not_zero44 not_zero44: ; preds = %latchexitsucc, %otherexitsucc unreachable latchexitsucc: ; preds = %latchexit br label %not_zero44 }