; REQUIRES: asserts ; RUN: opt -p loop-vectorize -force-vector-width=2 -force-vector-interleave=1 -debug -disable-output %s 2>&1 | FileCheck %s define void @switch4_default_common_dest_with_case(ptr %start, ptr %end) { ; CHECK: VPlan 'Final VPlan for VF={2},UF={1}' { ; CHECK-NEXT: ir<%0> = original trip-count ; CHECK-EMPTY: ; CHECK-NEXT: ir-bb: ; CHECK-NEXT: IR %start2 = ptrtoint ptr %start to i64 ; CHECK-NEXT: IR %end1 = ptrtoint ptr %end to i64 ; CHECK-NEXT: IR %0 = sub i64 %end1, %start2 ; CHECK-NEXT: EMIT vp<%min.iters.check> = icmp ult ir<%0>, ir<2> ; CHECK-NEXT: EMIT branch-on-cond vp<%min.iters.check> ; CHECK-NEXT: Successor(s): ir-bb, vector.ph ; CHECK-EMPTY: ; CHECK-NEXT: vector.ph: ; CHECK-NEXT: EMIT vp<%n.mod.vf> = urem ir<%0>, ir<2> ; CHECK-NEXT: EMIT vp<[[VTC:%.+]]> = sub ir<%0>, vp<%n.mod.vf> ; CHECK-NEXT: vp<[[END:%.+]]> = DERIVED-IV ir<%start> + vp<[[VTC]]> * ir<1> ; CHECK-NEXT: Successor(s): vector.body ; CHECK-EMPTY: ; CHECK-NEXT: vector.body: ; CHECK-NEXT: EMIT-SCALAR vp<[[CAN_IV:%.+]]> = phi [ ir<0>, vector.ph ], [ vp<[[CAN_IV_NEXT:%.+]]>, default.2 ] ; CHECK-NEXT: vp<[[STEPS:%.+]]> = SCALAR-STEPS vp<[[CAN_IV]]>, ir<1>, ir<2> ; CHECK-NEXT: EMIT vp<[[STEP1:%.+]]> = extractelement vp<[[STEPS]]>, ir<0> ; CHECK-NEXT: EMIT vp<[[PTR:%.+]]> = ptradd ir<%start>, vp<[[STEP1]]> ; CHECK-NEXT: EMIT vp<[[STEP2:%.+]]> = extractelement vp<[[STEPS]]>, ir<1> ; CHECK-NEXT: EMIT vp<[[PTR]]>.1 = ptradd ir<%start>, vp<[[STEP2]]> ; CHECK-NEXT: EMIT vp<[[PTR_VEC:%.+]]> = buildvector vp<[[PTR]]>, vp<[[PTR]]>.1 ; CHECK-NEXT: WIDEN ir<%l> = load vp<[[PTR]]> ; CHECK-NEXT: EMIT vp<[[C1:%.+]]> = icmp eq ir<%l>, ir<-12> ; CHECK-NEXT: EMIT vp<[[C2:%.+]]> = icmp eq ir<%l>, ir<13> ; CHECK-NEXT: EMIT vp<[[OR_CASES:%.+]]> = or vp<[[C1]]>, vp<[[C2]]> ; CHECK-NEXT: EMIT vp<[[DEFAULT_MASK:%.+]]> = not vp<[[OR_CASES]]> ; CHECK-NEXT: Successor(s): pred.store ; CHECK-EMPTY: ; CHECK-NEXT: pred.store: { ; CHECK-NEXT: pred.store.entry: ; CHECK-NEXT: BRANCH-ON-MASK vp<[[C2]]> ; CHECK-NEXT: Successor(s): pred.store.if, pred.store.continue ; CHECK-EMPTY: ; CHECK-NEXT: pred.store.if: ; CHECK-NEXT: REPLICATE store ir<0>, vp<[[PTR_VEC]]> ; CHECK-NEXT: Successor(s): pred.store.continue ; CHECK-EMPTY: ; CHECK-NEXT: pred.store.continue: ; CHECK-NEXT: No successors ; CHECK-NEXT: } ; CHECK-NEXT: Successor(s): if.then.2.0 ; CHECK-EMPTY: ; CHECK-NEXT: if.then.2.0: ; CHECK-NEXT: Successor(s): pred.store ; CHECK-EMPTY: ; CHECK-NEXT: pred.store: { ; CHECK-NEXT: pred.store.entry: ; CHECK-NEXT: BRANCH-ON-MASK vp<[[C1]]> ; CHECK-NEXT: Successor(s): pred.store.if, pred.store.continue ; CHECK-EMPTY: ; CHECK-NEXT: pred.store.if: ; CHECK-NEXT: REPLICATE store ir<42>, vp<[[PTR_VEC]]> ; CHECK-NEXT: Successor(s): pred.store.continue ; CHECK-EMPTY: ; CHECK-NEXT: pred.store.continue: ; CHECK-NEXT: No successors ; CHECK-NEXT: } ; CHECK-NEXT: Successor(s): if.then.1.1 ; CHECK-EMPTY: ; CHECK-NEXT: if.then.1.1: ; CHECK-NEXT: Successor(s): pred.store ; CHECK-EMPTY: ; CHECK-NEXT: pred.store: { ; CHECK-NEXT: pred.store.entry: ; CHECK-NEXT: BRANCH-ON-MASK vp<[[DEFAULT_MASK]]> ; CHECK-NEXT: Successor(s): pred.store.if, pred.store.continue ; CHECK-EMPTY: ; CHECK-NEXT: pred.store.if: ; CHECK-NEXT: REPLICATE store ir<2>, vp<[[PTR_VEC]]> ; CHECK-NEXT: Successor(s): pred.store.continue ; CHECK-EMPTY: ; CHECK-NEXT: pred.store.continue: ; CHECK-NEXT: No successors ; CHECK-NEXT: } ; CHECK-NEXT: Successor(s): default.2 ; CHECK-EMPTY: ; CHECK-NEXT: default.2: ; CHECK-NEXT: EMIT vp<[[CAN_IV_NEXT]]> = add nuw vp<[[CAN_IV]]>, ir<2> ; CHECK-NEXT: EMIT branch-on-count vp<[[CAN_IV_NEXT]]>, vp<[[VTC]]> ; CHECK-NEXT: Successor(s): middle.block, vector.body ; CHECK-EMPTY: ; CHECK-NEXT: middle.block: ; CHECK-NEXT: EMIT vp<[[MIDDLE_CMP:%.+]]> = icmp eq ir<%0>, vp<[[VTC]]> ; CHECK-NEXT: EMIT branch-on-cond vp<[[MIDDLE_CMP]]> ; CHECK-NEXT: Successor(s): ir-bb, ir-bb ; CHECK-EMPTY: ; CHECK-NEXT: ir-bb: ; CHECK-NEXT: No successors ; CHECK-EMPTY: ; CHECK-NEXT: ir-bb: ; CHECK-NEXT: EMIT-SCALAR vp<[[RESUME:%.+]]> = phi [ vp<[[END]]>, middle.block ], [ ir<%start>, ir-bb ] ; CHECK-NEXT: Successor(s): ir-bb ; CHECK-EMPTY: ; CHECK-NEXT: ir-bb: ; CHECK-NEXT: IR %ptr.iv = phi ptr [ %start, %scalar.ph ], [ %ptr.iv.next, %loop.latch ] (extra operand: vp<[[RESUME]]> from ir-bb) ; CHECK-NEXT: IR %l = load i8, ptr %ptr.iv, align 1 ; CHECK-NEXT: No successors ; CHECK-NEXT: } ; entry: br label %loop.header loop.header: %ptr.iv = phi ptr [ %start, %entry ], [ %ptr.iv.next, %loop.latch ] %l = load i8, ptr %ptr.iv, align 1 switch i8 %l, label %default [ i8 -12, label %if.then.1 i8 13, label %if.then.2 i8 0, label %default ] if.then.1: store i8 42, ptr %ptr.iv, align 1 br label %loop.latch if.then.2: store i8 0, ptr %ptr.iv, align 1 br label %loop.latch default: store i8 2, ptr %ptr.iv, align 1 br label %loop.latch loop.latch: %ptr.iv.next = getelementptr inbounds i8, ptr %ptr.iv, i64 1 %ec = icmp eq ptr %ptr.iv.next, %end br i1 %ec, label %exit, label %loop.header exit: ret void }