; RUN: opt -passes='loop(unswitch),verify' -enable-nontrivial-unswitch -S < %s | FileCheck %s ; RUN: opt -simple-loop-unswitch -enable-nontrivial-unswitch -S < %s | FileCheck %s declare void @a() declare void @b() declare void @c() declare void @d() declare void @sink1(i32) declare void @sink2(i32) ; Negative test: we cannot unswitch convergent calls. define void @test_no_unswitch_convergent(i1* %ptr, i1 %cond) { ; CHECK-LABEL: @test_no_unswitch_convergent( entry: br label %loop_begin ; CHECK-NEXT: entry: ; CHECK-NEXT: br label %loop_begin ; ; We shouldn't have unswitched into any other block either. ; CHECK-NOT: br i1 %cond loop_begin: br i1 %cond, label %loop_a, label %loop_b ; CHECK: loop_begin: ; CHECK-NEXT: br i1 %cond, label %loop_a, label %loop_b loop_a: call void @a() convergent br label %loop_latch loop_b: call void @b() br label %loop_latch loop_latch: %v = load i1, i1* %ptr br i1 %v, label %loop_begin, label %loop_exit loop_exit: ret void } ; Negative test: we cannot unswitch noduplicate calls. define void @test_no_unswitch_noduplicate(i1* %ptr, i1 %cond) { ; CHECK-LABEL: @test_no_unswitch_noduplicate( entry: br label %loop_begin ; CHECK-NEXT: entry: ; CHECK-NEXT: br label %loop_begin ; ; We shouldn't have unswitched into any other block either. ; CHECK-NOT: br i1 %cond loop_begin: br i1 %cond, label %loop_a, label %loop_b ; CHECK: loop_begin: ; CHECK-NEXT: br i1 %cond, label %loop_a, label %loop_b loop_a: call void @a() noduplicate br label %loop_latch loop_b: call void @b() br label %loop_latch loop_latch: %v = load i1, i1* %ptr br i1 %v, label %loop_begin, label %loop_exit loop_exit: ret void } declare i32 @__CxxFrameHandler3(...) ; Negative test: we cannot unswitch when tokens are used across blocks as we ; might introduce PHIs. define void @test_no_unswitch_cross_block_token(i1* %ptr, i1 %cond) nounwind personality i32 (...)* @__CxxFrameHandler3 { ; CHECK-LABEL: @test_no_unswitch_cross_block_token( entry: br label %loop_begin ; CHECK-NEXT: entry: ; CHECK-NEXT: br label %loop_begin ; ; We shouldn't have unswitched into any other block either. ; CHECK-NOT: br i1 %cond loop_begin: br i1 %cond, label %loop_a, label %loop_b ; CHECK: loop_begin: ; CHECK-NEXT: br i1 %cond, label %loop_a, label %loop_b loop_a: call void @a() br label %loop_cont loop_b: call void @b() br label %loop_cont loop_cont: invoke void @a() to label %loop_latch unwind label %loop_catch loop_latch: br label %loop_begin loop_catch: %catch = catchswitch within none [label %loop_catch_latch, label %loop_exit] unwind to caller loop_catch_latch: %catchpad_latch = catchpad within %catch [] catchret from %catchpad_latch to label %loop_begin loop_exit: %catchpad_exit = catchpad within %catch [] catchret from %catchpad_exit to label %exit exit: ret void } ; Non-trivial loop unswitching where there are two distinct trivial conditions ; to unswitch within the loop. define i32 @test1(i1* %ptr, i1 %cond1, i1 %cond2) { ; CHECK-LABEL: @test1( entry: br label %loop_begin ; CHECK-NEXT: entry: ; CHECK-NEXT: br i1 %cond1, label %entry.split.us, label %entry.split loop_begin: br i1 %cond1, label %loop_a, label %loop_b loop_a: call void @a() br label %latch ; The 'loop_a' unswitched loop. ; ; CHECK: entry.split.us: ; CHECK-NEXT: br label %loop_begin.us ; ; CHECK: loop_begin.us: ; CHECK-NEXT: br label %loop_a.us ; ; CHECK: loop_a.us: ; CHECK-NEXT: call void @a() ; CHECK-NEXT: br label %latch.us ; ; CHECK: latch.us: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_begin.us, label %loop_exit.split.us ; ; CHECK: loop_exit.split.us: ; CHECK-NEXT: br label %loop_exit loop_b: br i1 %cond2, label %loop_b_a, label %loop_b_b ; The second unswitched condition. ; ; CHECK: entry.split: ; CHECK-NEXT: br i1 %cond2, label %entry.split.split.us, label %entry.split.split loop_b_a: call void @b() br label %latch ; The 'loop_b_a' unswitched loop. ; ; CHECK: entry.split.split.us: ; CHECK-NEXT: br label %loop_begin.us1 ; ; CHECK: loop_begin.us1: ; CHECK-NEXT: br label %loop_b.us ; ; CHECK: loop_b.us: ; CHECK-NEXT: br label %loop_b_a.us ; ; CHECK: loop_b_a.us: ; CHECK-NEXT: call void @b() ; CHECK-NEXT: br label %latch.us2 ; ; CHECK: latch.us2: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_begin.us1, label %loop_exit.split.split.us ; ; CHECK: loop_exit.split.split.us: ; CHECK-NEXT: br label %loop_exit.split loop_b_b: call void @c() br label %latch ; The 'loop_b_b' unswitched loop. ; ; CHECK: entry.split.split: ; CHECK-NEXT: br label %loop_begin ; ; CHECK: loop_begin: ; CHECK-NEXT: br label %loop_b ; ; CHECK: loop_b: ; CHECK-NEXT: br label %loop_b_b ; ; CHECK: loop_b_b: ; CHECK-NEXT: call void @c() ; CHECK-NEXT: br label %latch ; ; CHECK: latch: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_begin, label %loop_exit.split.split ; ; CHECK: loop_exit.split.split: ; CHECK-NEXT: br label %loop_exit.split latch: %v = load i1, i1* %ptr br i1 %v, label %loop_begin, label %loop_exit loop_exit: ret i32 0 ; CHECK: loop_exit.split: ; CHECK-NEXT: br label %loop_exit ; ; CHECK: loop_exit: ; CHECK-NEXT: ret } define i32 @test2(i1* %ptr, i1 %cond1, i32* %a.ptr, i32* %b.ptr, i32* %c.ptr) { ; CHECK-LABEL: @test2( entry: br label %loop_begin ; CHECK-NEXT: entry: ; CHECK-NEXT: br i1 %cond1, label %entry.split.us, label %entry.split loop_begin: %v = load i1, i1* %ptr br i1 %cond1, label %loop_a, label %loop_b loop_a: %a = load i32, i32* %a.ptr %ac = load i32, i32* %c.ptr br i1 %v, label %loop_begin, label %loop_exit ; The 'loop_a' unswitched loop. ; ; CHECK: entry.split.us: ; CHECK-NEXT: br label %loop_begin.us ; ; CHECK: loop_begin.us: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br label %loop_a.us ; ; CHECK: loop_a.us: ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: %[[AC:.*]] = load i32, i32* %c.ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_begin.backedge.us, label %loop_exit.split.us ; ; CHECK: loop_exit.split.us: ; CHECK-NEXT: %[[A_LCSSA:.*]] = phi i32 [ %[[A]], %loop_a.us ] ; CHECK-NEXT: %[[AC_LCSSA:.*]] = phi i32 [ %[[AC]], %loop_a.us ] ; CHECK-NEXT: br label %loop_exit loop_b: %b = load i32, i32* %b.ptr %bc = load i32, i32* %c.ptr br i1 %v, label %loop_begin, label %loop_exit ; The 'loop_b' unswitched loop. ; ; CHECK: entry.split: ; CHECK-NEXT: br label %loop_begin ; ; CHECK: loop_begin: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br label %loop_b ; ; CHECK: loop_b: ; CHECK-NEXT: %[[B:.*]] = load i32, i32* %b.ptr ; CHECK-NEXT: %[[BC:.*]] = load i32, i32* %c.ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_begin.backedge, label %loop_exit.split ; ; CHECK: loop_exit.split: ; CHECK-NEXT: %[[B_LCSSA:.*]] = phi i32 [ %[[B]], %loop_b ] ; CHECK-NEXT: %[[BC_LCSSA:.*]] = phi i32 [ %[[BC]], %loop_b ] ; CHECK-NEXT: br label %loop_exit loop_exit: %ab.phi = phi i32 [ %a, %loop_a ], [ %b, %loop_b ] %c.phi = phi i32 [ %ac, %loop_a ], [ %bc, %loop_b ] %result = add i32 %ab.phi, %c.phi ret i32 %result ; CHECK: loop_exit: ; CHECK-NEXT: %[[AB_PHI:.*]] = phi i32 [ %[[B_LCSSA]], %loop_exit.split ], [ %[[A_LCSSA]], %loop_exit.split.us ] ; CHECK-NEXT: %[[C_PHI:.*]] = phi i32 [ %[[BC_LCSSA]], %loop_exit.split ], [ %[[AC_LCSSA]], %loop_exit.split.us ] ; CHECK-NEXT: %[[RESULT:.*]] = add i32 %[[AB_PHI]], %[[C_PHI]] ; CHECK-NEXT: ret i32 %[[RESULT]] } ; Test a non-trivial unswitch of an exiting edge to an exit block with other ; in-loop predecessors. define i32 @test3a(i1* %ptr, i1 %cond1, i32* %a.ptr, i32* %b.ptr) { ; CHECK-LABEL: @test3a( entry: br label %loop_begin ; CHECK-NEXT: entry: ; CHECK-NEXT: br i1 %cond1, label %entry.split.us, label %entry.split loop_begin: %v = load i1, i1* %ptr %a = load i32, i32* %a.ptr br i1 %cond1, label %loop_exit, label %loop_b ; The 'loop_exit' clone. ; ; CHECK: entry.split.us: ; CHECK-NEXT: br label %loop_begin.us ; ; CHECK: loop_begin.us: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br label %loop_exit.split.us ; ; CHECK: loop_exit.split.us: ; CHECK-NEXT: %[[A_LCSSA:.*]] = phi i32 [ %[[A]], %loop_begin.us ] ; CHECK-NEXT: br label %loop_exit loop_b: %b = load i32, i32* %b.ptr br i1 %v, label %loop_begin, label %loop_exit ; The 'loop_b' unswitched loop. ; ; CHECK: entry.split: ; CHECK-NEXT: br label %loop_begin ; ; CHECK: loop_begin: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br label %loop_b ; ; CHECK: loop_b: ; CHECK-NEXT: %[[B:.*]] = load i32, i32* %b.ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_begin, label %loop_exit.split ; ; CHECK: loop_exit.split: ; CHECK-NEXT: %[[B_LCSSA:.*]] = phi i32 [ %[[B]], %loop_b ] ; CHECK-NEXT: br label %loop_exit loop_exit: %ab.phi = phi i32 [ %a, %loop_begin ], [ %b, %loop_b ] ret i32 %ab.phi ; CHECK: loop_exit: ; CHECK-NEXT: %[[AB_PHI:.*]] = phi i32 [ %[[B_LCSSA]], %loop_exit.split ], [ %[[A_LCSSA]], %loop_exit.split.us ] ; CHECK-NEXT: ret i32 %[[AB_PHI]] } ; Test a non-trivial unswitch of an exiting edge to an exit block with other ; in-loop predecessors. This is the same as @test3a but with the reversed order ; of successors so that the exiting edge is *not* the cloned edge. define i32 @test3b(i1* %ptr, i1 %cond1, i32* %a.ptr, i32* %b.ptr) { ; CHECK-LABEL: @test3b( entry: br label %loop_begin ; CHECK-NEXT: entry: ; CHECK-NEXT: br i1 %cond1, label %entry.split.us, label %entry.split loop_begin: %v = load i1, i1* %ptr %a = load i32, i32* %a.ptr br i1 %cond1, label %loop_b, label %loop_exit ; The 'loop_b' unswitched loop. ; ; CHECK: entry.split.us: ; CHECK-NEXT: br label %loop_begin.us ; ; CHECK: loop_begin.us: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br label %loop_b.us ; ; CHECK: loop_b.us: ; CHECK-NEXT: %[[B:.*]] = load i32, i32* %b.ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_begin.us, label %loop_exit.split.us ; ; CHECK: loop_exit.split.us: ; CHECK-NEXT: %[[B_LCSSA:.*]] = phi i32 [ %[[B]], %loop_b.us ] ; CHECK-NEXT: br label %loop_exit loop_b: %b = load i32, i32* %b.ptr br i1 %v, label %loop_begin, label %loop_exit ; The 'loop_b' unswitched loop. ; ; CHECK: entry.split: ; CHECK-NEXT: br label %loop_begin ; ; CHECK: loop_begin: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br label %loop_exit.split ; ; CHECK: loop_exit.split: ; CHECK-NEXT: %[[A_LCSSA:.*]] = phi i32 [ %[[A]], %loop_begin ] ; CHECK-NEXT: br label %loop_exit loop_exit: %ab.phi = phi i32 [ %b, %loop_b ], [ %a, %loop_begin ] ret i32 %ab.phi ; CHECK: loop_exit: ; CHECK-NEXT: %[[AB_PHI:.*]] = phi i32 [ %[[A_LCSSA]], %loop_exit.split ], [ %[[B_LCSSA]], %loop_exit.split.us ] ; CHECK-NEXT: ret i32 %[[AB_PHI]] } ; Test a non-trivial unswitch of an exiting edge to an exit block with no other ; in-loop predecessors. define void @test4a(i1* %ptr, i1 %cond1, i32* %a.ptr, i32* %b.ptr) { ; CHECK-LABEL: @test4a( entry: br label %loop_begin ; CHECK-NEXT: entry: ; CHECK-NEXT: br i1 %cond1, label %entry.split.us, label %entry.split loop_begin: %v = load i1, i1* %ptr %a = load i32, i32* %a.ptr br i1 %cond1, label %loop_exit1, label %loop_b ; The 'loop_exit' clone. ; ; CHECK: entry.split.us: ; CHECK-NEXT: br label %loop_begin.us ; ; CHECK: loop_begin.us: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br label %loop_exit1.split.us ; ; CHECK: loop_exit1.split.us: ; CHECK-NEXT: %[[A_LCSSA:.*]] = phi i32 [ %[[A]], %loop_begin.us ] ; CHECK-NEXT: br label %loop_exit1 loop_b: %b = load i32, i32* %b.ptr br i1 %v, label %loop_begin, label %loop_exit2 ; The 'loop_b' unswitched loop. ; ; CHECK: entry.split: ; CHECK-NEXT: br label %loop_begin ; ; CHECK: loop_begin: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br label %loop_b ; ; CHECK: loop_b: ; CHECK-NEXT: %[[B:.*]] = load i32, i32* %b.ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_begin, label %loop_exit2 loop_exit1: %a.phi = phi i32 [ %a, %loop_begin ] call void @sink1(i32 %a.phi) ret void ; CHECK: loop_exit1: ; CHECK-NEXT: %[[A_PHI:.*]] = phi i32 [ %[[A_LCSSA]], %loop_exit1.split.us ] ; CHECK-NEXT: call void @sink1(i32 %[[A_PHI]]) ; CHECK-NEXT: ret void loop_exit2: %b.phi = phi i32 [ %b, %loop_b ] call void @sink2(i32 %b.phi) ret void ; CHECK: loop_exit2: ; CHECK-NEXT: %[[B_PHI:.*]] = phi i32 [ %[[B]], %loop_b ] ; CHECK-NEXT: call void @sink2(i32 %[[B_PHI]]) ; CHECK-NEXT: ret void } ; Test a non-trivial unswitch of an exiting edge to an exit block with no other ; in-loop predecessors. This is the same as @test4a but with the edges reversed ; so that the exiting edge is *not* the cloned edge. define void @test4b(i1* %ptr, i1 %cond1, i32* %a.ptr, i32* %b.ptr) { ; CHECK-LABEL: @test4b( entry: br label %loop_begin ; CHECK-NEXT: entry: ; CHECK-NEXT: br i1 %cond1, label %entry.split.us, label %entry.split loop_begin: %v = load i1, i1* %ptr %a = load i32, i32* %a.ptr br i1 %cond1, label %loop_b, label %loop_exit1 ; The 'loop_b' clone. ; ; CHECK: entry.split.us: ; CHECK-NEXT: br label %loop_begin.us ; ; CHECK: loop_begin.us: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br label %loop_b.us ; ; CHECK: loop_b.us: ; CHECK-NEXT: %[[B:.*]] = load i32, i32* %b.ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_begin.us, label %loop_exit2.split.us ; ; CHECK: loop_exit2.split.us: ; CHECK-NEXT: %[[B_LCSSA:.*]] = phi i32 [ %[[B]], %loop_b.us ] ; CHECK-NEXT: br label %loop_exit2 loop_b: %b = load i32, i32* %b.ptr br i1 %v, label %loop_begin, label %loop_exit2 ; The 'loop_exit' unswitched path. ; ; CHECK: entry.split: ; CHECK-NEXT: br label %loop_begin ; ; CHECK: loop_begin: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br label %loop_exit1 loop_exit1: %a.phi = phi i32 [ %a, %loop_begin ] call void @sink1(i32 %a.phi) ret void ; CHECK: loop_exit1: ; CHECK-NEXT: %[[A_PHI:.*]] = phi i32 [ %[[A]], %loop_begin ] ; CHECK-NEXT: call void @sink1(i32 %[[A_PHI]]) ; CHECK-NEXT: ret void loop_exit2: %b.phi = phi i32 [ %b, %loop_b ] call void @sink2(i32 %b.phi) ret void ; CHECK: loop_exit2: ; CHECK-NEXT: %[[B_PHI:.*]] = phi i32 [ %[[B_LCSSA]], %loop_exit2.split.us ] ; CHECK-NEXT: call void @sink2(i32 %[[B_PHI]]) ; CHECK-NEXT: ret void } ; Test a non-trivial unswitch of an exiting edge to an exit block with no other ; in-loop predecessors. This is the same as @test4a but with a common merge ; block after the independent loop exits. This requires a different structural ; update to the dominator tree. define void @test4c(i1* %ptr, i1 %cond1, i32* %a.ptr, i32* %b.ptr) { ; CHECK-LABEL: @test4c( entry: br label %loop_begin ; CHECK-NEXT: entry: ; CHECK-NEXT: br i1 %cond1, label %entry.split.us, label %entry.split loop_begin: %v = load i1, i1* %ptr %a = load i32, i32* %a.ptr br i1 %cond1, label %loop_exit1, label %loop_b ; The 'loop_exit' clone. ; ; CHECK: entry.split.us: ; CHECK-NEXT: br label %loop_begin.us ; ; CHECK: loop_begin.us: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br label %loop_exit1.split.us ; ; CHECK: loop_exit1.split.us: ; CHECK-NEXT: %[[A_LCSSA:.*]] = phi i32 [ %[[A]], %loop_begin.us ] ; CHECK-NEXT: br label %loop_exit1 loop_b: %b = load i32, i32* %b.ptr br i1 %v, label %loop_begin, label %loop_exit2 ; The 'loop_b' unswitched loop. ; ; CHECK: entry.split: ; CHECK-NEXT: br label %loop_begin ; ; CHECK: loop_begin: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br label %loop_b ; ; CHECK: loop_b: ; CHECK-NEXT: %[[B:.*]] = load i32, i32* %b.ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_begin, label %loop_exit2 loop_exit1: %a.phi = phi i32 [ %a, %loop_begin ] call void @sink1(i32 %a.phi) br label %exit ; CHECK: loop_exit1: ; CHECK-NEXT: %[[A_PHI:.*]] = phi i32 [ %[[A_LCSSA]], %loop_exit1.split.us ] ; CHECK-NEXT: call void @sink1(i32 %[[A_PHI]]) ; CHECK-NEXT: br label %exit loop_exit2: %b.phi = phi i32 [ %b, %loop_b ] call void @sink2(i32 %b.phi) br label %exit ; CHECK: loop_exit2: ; CHECK-NEXT: %[[B_PHI:.*]] = phi i32 [ %[[B]], %loop_b ] ; CHECK-NEXT: call void @sink2(i32 %[[B_PHI]]) ; CHECK-NEXT: br label %exit exit: ret void ; CHECK: exit: ; CHECK-NEXT: ret void } ; Test that we can unswitch a condition out of multiple layers of a loop nest. define i32 @test5(i1* %ptr, i1 %cond1, i32* %a.ptr, i32* %b.ptr) { ; CHECK-LABEL: @test5( entry: br label %loop_begin ; CHECK-NEXT: entry: ; CHECK-NEXT: br i1 %cond1, label %loop_begin.split.us, label %entry.split ; ; CHECK: entry.split: ; CHECK-NEXT: br label %loop_begin ; ; CHECK: loop_begin: ; CHECK-NEXT: br label %loop_begin.split loop_begin: br label %inner_loop_begin inner_loop_begin: %v = load i1, i1* %ptr %a = load i32, i32* %a.ptr br i1 %cond1, label %loop_exit, label %inner_loop_b ; The 'loop_exit' clone. ; ; CHECK: loop_begin.split.us: ; CHECK-NEXT: br label %inner_loop_begin.us ; ; CHECK: inner_loop_begin.us: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br label %loop_exit.loopexit.split.us ; ; CHECK: loop_exit.loopexit.split.us: ; CHECK-NEXT: %[[A_LCSSA:.*]] = phi i32 [ %[[A]], %inner_loop_begin.us ] ; CHECK-NEXT: br label %loop_exit inner_loop_b: %b = load i32, i32* %b.ptr br i1 %v, label %inner_loop_begin, label %loop_latch ; The 'inner_loop_b' unswitched loop. ; ; CHECK: loop_begin.split: ; CHECK-NEXT: br label %inner_loop_begin ; ; CHECK: inner_loop_begin: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br label %inner_loop_b ; ; CHECK: inner_loop_b: ; CHECK-NEXT: %[[B:.*]] = load i32, i32* %b.ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_loop_begin, label %loop_latch loop_latch: %b.phi = phi i32 [ %b, %inner_loop_b ] %v2 = load i1, i1* %ptr br i1 %v2, label %loop_begin, label %loop_exit ; CHECK: loop_latch: ; CHECK-NEXT: %[[B_LCSSA:.*]] = phi i32 [ %[[B]], %inner_loop_b ] ; CHECK-NEXT: %[[V2:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V2]], label %loop_begin, label %loop_exit.loopexit1 loop_exit: %ab.phi = phi i32 [ %a, %inner_loop_begin ], [ %b.phi, %loop_latch ] ret i32 %ab.phi ; CHECK: loop_exit.loopexit: ; CHECK-NEXT: %[[A_PHI:.*]] = phi i32 [ %[[A_LCSSA]], %loop_exit.loopexit.split.us ] ; CHECK-NEXT: br label %loop_exit ; ; CHECK: loop_exit.loopexit1: ; CHECK-NEXT: %[[B_PHI:.*]] = phi i32 [ %[[B_LCSSA]], %loop_latch ] ; CHECK-NEXT: br label %loop_exit ; ; CHECK: loop_exit: ; CHECK-NEXT: %[[AB_PHI:.*]] = phi i32 [ %[[A_PHI]], %loop_exit.loopexit ], [ %[[B_PHI]], %loop_exit.loopexit1 ] ; CHECK-NEXT: ret i32 %[[AB_PHI]] } ; Test that we can unswitch a condition where we end up only cloning some of ; the nested loops and needing to delete some of the nested loops. define i32 @test6(i1* %ptr, i1 %cond1, i32* %a.ptr, i32* %b.ptr) { ; CHECK-LABEL: @test6( entry: br label %loop_begin ; CHECK-NEXT: entry: ; CHECK-NEXT: br i1 %cond1, label %entry.split.us, label %entry.split loop_begin: %v = load i1, i1* %ptr br i1 %cond1, label %loop_a, label %loop_b loop_a: br label %loop_a_inner loop_a_inner: %va = load i1, i1* %ptr %a = load i32, i32* %a.ptr br i1 %va, label %loop_a_inner, label %loop_a_inner_exit loop_a_inner_exit: %a.lcssa = phi i32 [ %a, %loop_a_inner ] br label %latch ; The 'loop_a' cloned loop. ; ; CHECK: entry.split.us: ; CHECK-NEXT: br label %loop_begin.us ; ; CHECK: loop_begin.us: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br label %loop_a.us ; ; CHECK: loop_a.us: ; CHECK-NEXT: br label %loop_a_inner.us ; ; CHECK: loop_a_inner.us ; CHECK-NEXT: %[[VA:.*]] = load i1, i1* %ptr ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br i1 %[[VA]], label %loop_a_inner.us, label %loop_a_inner_exit.us ; ; CHECK: loop_a_inner_exit.us: ; CHECK-NEXT: %[[A_INNER_LCSSA:.*]] = phi i32 [ %[[A]], %loop_a_inner.us ] ; CHECK-NEXT: br label %latch.us ; ; CHECK: latch.us: ; CHECK-NEXT: %[[A_PHI:.*]] = phi i32 [ %[[A_INNER_LCSSA]], %loop_a_inner_exit.us ] ; CHECK-NEXT: br i1 %[[V]], label %loop_begin.us, label %loop_exit.split.us ; ; CHECK: loop_exit.split.us: ; CHECK-NEXT: %[[A_LCSSA:.*]] = phi i32 [ %[[A_PHI]], %latch.us ] ; CHECK-NEXT: br label %loop_exit loop_b: br label %loop_b_inner loop_b_inner: %vb = load i1, i1* %ptr %b = load i32, i32* %b.ptr br i1 %vb, label %loop_b_inner, label %loop_b_inner_exit loop_b_inner_exit: %b.lcssa = phi i32 [ %b, %loop_b_inner ] br label %latch latch: %ab.phi = phi i32 [ %a.lcssa, %loop_a_inner_exit ], [ %b.lcssa, %loop_b_inner_exit ] br i1 %v, label %loop_begin, label %loop_exit ; The 'loop_b' unswitched loop. ; ; CHECK: entry.split: ; CHECK-NEXT: br label %loop_begin ; ; CHECK: loop_begin: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br label %loop_b ; ; CHECK: loop_b: ; CHECK-NEXT: br label %loop_b_inner ; ; CHECK: loop_b_inner ; CHECK-NEXT: %[[VB:.*]] = load i1, i1* %ptr ; CHECK-NEXT: %[[B:.*]] = load i32, i32* %b.ptr ; CHECK-NEXT: br i1 %[[VB]], label %loop_b_inner, label %loop_b_inner_exit ; ; CHECK: loop_b_inner_exit: ; CHECK-NEXT: %[[B_INNER_LCSSA:.*]] = phi i32 [ %[[B]], %loop_b_inner ] ; CHECK-NEXT: br label %latch ; ; CHECK: latch: ; CHECK-NEXT: %[[B_PHI:.*]] = phi i32 [ %[[B_INNER_LCSSA]], %loop_b_inner_exit ] ; CHECK-NEXT: br i1 %[[V]], label %loop_begin, label %loop_exit.split ; ; CHECK: loop_exit.split: ; CHECK-NEXT: %[[B_LCSSA:.*]] = phi i32 [ %[[B_PHI]], %latch ] ; CHECK-NEXT: br label %loop_exit loop_exit: %ab.lcssa = phi i32 [ %ab.phi, %latch ] ret i32 %ab.lcssa ; CHECK: loop_exit: ; CHECK-NEXT: %[[AB_PHI:.*]] = phi i32 [ %[[B_LCSSA]], %loop_exit.split ], [ %[[A_LCSSA]], %loop_exit.split.us ] ; CHECK-NEXT: ret i32 %[[AB_PHI]] } ; Test that when unswitching a deeply nested loop condition in a way that ; produces a non-loop clone that can reach multiple exit blocks which are part ; of different outer loops we correctly divide the cloned loop blocks between ; the outer loops based on reachability. define i32 @test7a(i1* %ptr, i1* %cond.ptr, i32* %a.ptr, i32* %b.ptr) { ; CHECK-LABEL: @test7a( entry: br label %loop_begin ; CHECK-NEXT: entry: ; CHECK-NEXT: br label %loop_begin loop_begin: %a = load i32, i32* %a.ptr br label %inner_loop_begin ; CHECK: loop_begin: ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br label %inner_loop_begin inner_loop_begin: %a.phi = phi i32 [ %a, %loop_begin ], [ %a2, %inner_inner_loop_exit ] %cond = load i1, i1* %cond.ptr %b = load i32, i32* %b.ptr br label %inner_inner_loop_begin ; CHECK: inner_loop_begin: ; CHECK-NEXT: %[[A_INNER_PHI:.*]] = phi i32 [ %[[A]], %loop_begin ], [ %[[A2:.*]], %inner_inner_loop_exit ] ; CHECK-NEXT: %[[COND:.*]] = load i1, i1* %cond.ptr ; CHECK-NEXT: %[[B:.*]] = load i32, i32* %b.ptr ; CHECK-NEXT: br i1 %[[COND]], label %inner_loop_begin.split.us, label %inner_loop_begin.split inner_inner_loop_begin: %v1 = load i1, i1* %ptr br i1 %v1, label %inner_inner_loop_a, label %inner_inner_loop_b inner_inner_loop_a: %v2 = load i1, i1* %ptr br i1 %v2, label %loop_exit, label %inner_inner_loop_c inner_inner_loop_b: %v3 = load i1, i1* %ptr br i1 %v3, label %inner_inner_loop_exit, label %inner_inner_loop_c inner_inner_loop_c: %v4 = load i1, i1* %ptr br i1 %v4, label %inner_loop_exit, label %inner_inner_loop_d inner_inner_loop_d: br i1 %cond, label %inner_loop_exit, label %inner_inner_loop_begin ; The cloned copy that always exits with the adjustments required to fix up ; loop exits. ; ; CHECK: inner_loop_begin.split.us: ; CHECK-NEXT: br label %inner_inner_loop_begin.us ; ; CHECK: inner_inner_loop_begin.us: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_inner_loop_a.us, label %inner_inner_loop_b.us ; ; CHECK: inner_inner_loop_b.us: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_inner_loop_exit.split.us, label %inner_inner_loop_c.us.loopexit ; ; CHECK: inner_inner_loop_a.us: ; CHECK-NEXT: %[[A_NEW_LCSSA:.*]] = phi i32 [ %[[A_INNER_PHI]], %inner_inner_loop_begin.us ] ; CHECK-NEXT: %[[B_NEW_LCSSA:.*]] = phi i32 [ %[[B]], %inner_inner_loop_begin.us ] ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_exit.split.us, label %inner_inner_loop_c.us ; ; CHECK: inner_inner_loop_c.us.loopexit: ; CHECK-NEXT: br label %inner_inner_loop_c.us ; ; CHECK: inner_inner_loop_c.us: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_loop_exit.loopexit.split.us, label %inner_inner_loop_d.us ; ; CHECK: inner_inner_loop_d.us: ; CHECK-NEXT: br label %inner_loop_exit.loopexit.split ; ; CHECK: inner_inner_loop_exit.split.us: ; CHECK-NEXT: br label %inner_inner_loop_exit ; ; CHECK: loop_exit.split.us: ; CHECK-NEXT: %[[A_LCSSA_US:.*]] = phi i32 [ %[[A_NEW_LCSSA]], %inner_inner_loop_a.us ] ; CHECK-NEXT: %[[B_LCSSA_US:.*]] = phi i32 [ %[[B_NEW_LCSSA]], %inner_inner_loop_a.us ] ; CHECK-NEXT: br label %loop_exit ; ; CHECK: inner_loop_exit.loopexit.split.us: ; CHECK-NEXT: br label %inner_loop_exit.loopexit ; ; The original copy that continues to loop. ; ; CHECK: inner_loop_begin.split: ; CHECK-NEXT: br label %inner_inner_loop_begin ; ; CHECK: inner_inner_loop_begin: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_inner_loop_a, label %inner_inner_loop_b ; ; CHECK: inner_inner_loop_a: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_exit.split, label %inner_inner_loop_c ; ; CHECK: inner_inner_loop_b: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_inner_loop_exit.split, label %inner_inner_loop_c ; ; CHECK: inner_inner_loop_c: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_loop_exit.loopexit.split, label %inner_inner_loop_d ; ; CHECK: inner_inner_loop_d: ; CHECK-NEXT: br label %inner_inner_loop_begin ; ; CHECK: inner_inner_loop_exit.split: ; CHECK-NEXT: br label %inner_inner_loop_exit inner_inner_loop_exit: %a2 = load i32, i32* %a.ptr %v5 = load i1, i1* %ptr br i1 %v5, label %inner_loop_exit, label %inner_loop_begin ; CHECK: inner_inner_loop_exit: ; CHECK-NEXT: %[[A2]] = load i32, i32* %a.ptr ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_loop_exit.loopexit1, label %inner_loop_begin inner_loop_exit: br label %loop_begin ; CHECK: inner_loop_exit.loopexit.split: ; CHECK-NEXT: br label %inner_loop_exit.loopexit ; ; CHECK: inner_loop_exit.loopexit: ; CHECK-NEXT: br label %inner_loop_exit ; ; CHECK: inner_loop_exit.loopexit1: ; CHECK-NEXT: br label %inner_loop_exit ; ; CHECK: inner_loop_exit: ; CHECK-NEXT: br label %loop_begin loop_exit: %a.lcssa = phi i32 [ %a.phi, %inner_inner_loop_a ] %b.lcssa = phi i32 [ %b, %inner_inner_loop_a ] %result = add i32 %a.lcssa, %b.lcssa ret i32 %result ; CHECK: loop_exit.split: ; CHECK-NEXT: %[[A_LCSSA:.*]] = phi i32 [ %[[A_INNER_PHI]], %inner_inner_loop_a ] ; CHECK-NEXT: %[[B_LCSSA:.*]] = phi i32 [ %[[B]], %inner_inner_loop_a ] ; CHECK-NEXT: br label %loop_exit ; ; CHECK: loop_exit: ; CHECK-NEXT: %[[A_PHI:.*]] = phi i32 [ %[[A_LCSSA]], %loop_exit.split ], [ %[[A_LCSSA_US]], %loop_exit.split.us ] ; CHECK-NEXT: %[[B_PHI:.*]] = phi i32 [ %[[B_LCSSA]], %loop_exit.split ], [ %[[B_LCSSA_US]], %loop_exit.split.us ] ; CHECK-NEXT: %[[RESULT:.*]] = add i32 %[[A_PHI]], %[[B_PHI]] ; CHECK-NEXT: ret i32 %[[RESULT]] } ; Same pattern as @test7a but here the original loop becomes a non-loop that ; can reach multiple exit blocks which are part of different outer loops. define i32 @test7b(i1* %ptr, i1* %cond.ptr, i32* %a.ptr, i32* %b.ptr) { ; CHECK-LABEL: @test7b( entry: br label %loop_begin ; CHECK-NEXT: entry: ; CHECK-NEXT: br label %loop_begin loop_begin: %a = load i32, i32* %a.ptr br label %inner_loop_begin ; CHECK: loop_begin: ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br label %inner_loop_begin inner_loop_begin: %a.phi = phi i32 [ %a, %loop_begin ], [ %a2, %inner_inner_loop_exit ] %cond = load i1, i1* %cond.ptr %b = load i32, i32* %b.ptr br label %inner_inner_loop_begin ; CHECK: inner_loop_begin: ; CHECK-NEXT: %[[A_INNER_PHI:.*]] = phi i32 [ %[[A]], %loop_begin ], [ %[[A2:.*]], %inner_inner_loop_exit ] ; CHECK-NEXT: %[[COND:.*]] = load i1, i1* %cond.ptr ; CHECK-NEXT: %[[B:.*]] = load i32, i32* %b.ptr ; CHECK-NEXT: br i1 %[[COND]], label %inner_loop_begin.split.us, label %inner_loop_begin.split inner_inner_loop_begin: %v1 = load i1, i1* %ptr br i1 %v1, label %inner_inner_loop_a, label %inner_inner_loop_b inner_inner_loop_a: %v2 = load i1, i1* %ptr br i1 %v2, label %loop_exit, label %inner_inner_loop_c inner_inner_loop_b: %v3 = load i1, i1* %ptr br i1 %v3, label %inner_inner_loop_exit, label %inner_inner_loop_c inner_inner_loop_c: %v4 = load i1, i1* %ptr br i1 %v4, label %inner_loop_exit, label %inner_inner_loop_d inner_inner_loop_d: br i1 %cond, label %inner_inner_loop_begin, label %inner_loop_exit ; The cloned copy that continues looping. ; ; CHECK: inner_loop_begin.split.us: ; CHECK-NEXT: br label %inner_inner_loop_begin.us ; ; CHECK: inner_inner_loop_begin.us: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_inner_loop_a.us, label %inner_inner_loop_b.us ; ; CHECK: inner_inner_loop_b.us: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_inner_loop_exit.split.us, label %inner_inner_loop_c.us ; ; CHECK: inner_inner_loop_a.us: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_exit.split.us, label %inner_inner_loop_c.us ; ; CHECK: inner_inner_loop_c.us: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_loop_exit.loopexit.split.us, label %inner_inner_loop_d.us ; ; CHECK: inner_inner_loop_d.us: ; CHECK-NEXT: br label %inner_inner_loop_begin.us ; ; CHECK: inner_inner_loop_exit.split.us: ; CHECK-NEXT: br label %inner_inner_loop_exit ; ; CHECK: loop_exit.split.us: ; CHECK-NEXT: %[[A_LCSSA_US:.*]] = phi i32 [ %[[A_INNER_PHI]], %inner_inner_loop_a.us ] ; CHECK-NEXT: %[[B_LCSSA_US:.*]] = phi i32 [ %[[B]], %inner_inner_loop_a.us ] ; CHECK-NEXT: br label %loop_exit ; ; CHECK: inner_loop_exit.loopexit.split.us: ; CHECK-NEXT: br label %inner_loop_exit.loopexit ; ; The original copy that now always exits and needs adjustments for exit ; blocks. ; ; CHECK: inner_loop_begin.split: ; CHECK-NEXT: br label %inner_inner_loop_begin ; ; CHECK: inner_inner_loop_begin: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_inner_loop_a, label %inner_inner_loop_b ; ; CHECK: inner_inner_loop_a: ; CHECK-NEXT: %[[A_NEW_LCSSA:.*]] = phi i32 [ %[[A_INNER_PHI]], %inner_inner_loop_begin ] ; CHECK-NEXT: %[[B_NEW_LCSSA:.*]] = phi i32 [ %[[B]], %inner_inner_loop_begin ] ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_exit.split, label %inner_inner_loop_c ; ; CHECK: inner_inner_loop_b: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_inner_loop_exit.split, label %inner_inner_loop_c.loopexit ; ; CHECK: inner_inner_loop_c.loopexit: ; CHECK-NEXT: br label %inner_inner_loop_c ; ; CHECK: inner_inner_loop_c: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_loop_exit.loopexit.split, label %inner_inner_loop_d ; ; CHECK: inner_inner_loop_d: ; CHECK-NEXT: br label %inner_loop_exit.loopexit.split ; ; CHECK: inner_inner_loop_exit.split: ; CHECK-NEXT: br label %inner_inner_loop_exit inner_inner_loop_exit: %a2 = load i32, i32* %a.ptr %v5 = load i1, i1* %ptr br i1 %v5, label %inner_loop_exit, label %inner_loop_begin ; CHECK: inner_inner_loop_exit: ; CHECK-NEXT: %[[A2]] = load i32, i32* %a.ptr ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_loop_exit.loopexit1, label %inner_loop_begin inner_loop_exit: br label %loop_begin ; CHECK: inner_loop_exit.loopexit.split: ; CHECK-NEXT: br label %inner_loop_exit.loopexit ; ; CHECK: inner_loop_exit.loopexit: ; CHECK-NEXT: br label %inner_loop_exit ; ; CHECK: inner_loop_exit.loopexit1: ; CHECK-NEXT: br label %inner_loop_exit ; ; CHECK: inner_loop_exit: ; CHECK-NEXT: br label %loop_begin loop_exit: %a.lcssa = phi i32 [ %a.phi, %inner_inner_loop_a ] %b.lcssa = phi i32 [ %b, %inner_inner_loop_a ] %result = add i32 %a.lcssa, %b.lcssa ret i32 %result ; CHECK: loop_exit.split: ; CHECK-NEXT: %[[A_LCSSA:.*]] = phi i32 [ %[[A_NEW_LCSSA]], %inner_inner_loop_a ] ; CHECK-NEXT: %[[B_LCSSA:.*]] = phi i32 [ %[[B_NEW_LCSSA]], %inner_inner_loop_a ] ; CHECK-NEXT: br label %loop_exit ; ; CHECK: loop_exit: ; CHECK-NEXT: %[[A_PHI:.*]] = phi i32 [ %[[A_LCSSA]], %loop_exit.split ], [ %[[A_LCSSA_US]], %loop_exit.split.us ] ; CHECK-NEXT: %[[B_PHI:.*]] = phi i32 [ %[[B_LCSSA]], %loop_exit.split ], [ %[[B_LCSSA_US]], %loop_exit.split.us ] ; CHECK-NEXT: %[[RESULT:.*]] = add i32 %[[A_PHI]], %[[B_PHI]] ; CHECK-NEXT: ret i32 %[[RESULT]] } ; Test that when the exit block set of an inner loop changes to start at a less ; high level of the loop nest we correctly hoist the loop up the nest. define i32 @test8a(i1* %ptr, i1* %cond.ptr, i32* %a.ptr, i32* %b.ptr) { ; CHECK-LABEL: @test8a( entry: br label %loop_begin ; CHECK-NEXT: entry: ; CHECK-NEXT: br label %loop_begin loop_begin: %a = load i32, i32* %a.ptr br label %inner_loop_begin ; CHECK: loop_begin: ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br label %inner_loop_begin inner_loop_begin: %a.phi = phi i32 [ %a, %loop_begin ], [ %a2, %inner_inner_loop_exit ] %cond = load i1, i1* %cond.ptr %b = load i32, i32* %b.ptr br label %inner_inner_loop_begin ; CHECK: inner_loop_begin: ; CHECK-NEXT: %[[A_INNER_PHI:.*]] = phi i32 [ %[[A]], %loop_begin ], [ %[[A2:.*]], %inner_inner_loop_exit ] ; CHECK-NEXT: %[[COND:.*]] = load i1, i1* %cond.ptr ; CHECK-NEXT: %[[B:.*]] = load i32, i32* %b.ptr ; CHECK-NEXT: br i1 %[[COND]], label %inner_loop_begin.split.us, label %inner_loop_begin.split inner_inner_loop_begin: %v1 = load i1, i1* %ptr br i1 %v1, label %inner_inner_loop_a, label %inner_inner_loop_b inner_inner_loop_a: %v2 = load i1, i1* %ptr br i1 %v2, label %inner_inner_loop_latch, label %inner_loop_exit inner_inner_loop_b: br i1 %cond, label %inner_inner_loop_latch, label %inner_inner_loop_exit inner_inner_loop_latch: br label %inner_inner_loop_begin ; The cloned region is now an exit from the inner loop. ; ; CHECK: inner_loop_begin.split.us: ; CHECK-NEXT: %[[A_INNER_INNER_LCSSA:.*]] = phi i32 [ %[[A_INNER_PHI]], %inner_loop_begin ] ; CHECK-NEXT: br label %inner_inner_loop_begin.us ; ; CHECK: inner_inner_loop_begin.us: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_inner_loop_a.us, label %inner_inner_loop_b.us ; ; CHECK: inner_inner_loop_b.us: ; CHECK-NEXT: br label %inner_inner_loop_latch.us ; ; CHECK: inner_inner_loop_a.us: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_inner_loop_latch.us, label %inner_loop_exit.loopexit.split.us ; ; CHECK: inner_inner_loop_latch.us: ; CHECK-NEXT: br label %inner_inner_loop_begin.us ; ; CHECK: inner_loop_exit.loopexit.split.us: ; CHECK-NEXT: %[[A_INNER_LCSSA_US:.*]] = phi i32 [ %[[A_INNER_INNER_LCSSA]], %inner_inner_loop_a.us ] ; CHECK-NEXT: br label %inner_loop_exit.loopexit ; ; The original region exits the loop earlier. ; ; CHECK: inner_loop_begin.split: ; CHECK-NEXT: br label %inner_inner_loop_begin ; ; CHECK: inner_inner_loop_begin: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_inner_loop_a, label %inner_inner_loop_b ; ; CHECK: inner_inner_loop_a: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_inner_loop_latch, label %inner_loop_exit.loopexit.split ; ; CHECK: inner_inner_loop_b: ; CHECK-NEXT: br label %inner_inner_loop_exit ; ; CHECK: inner_inner_loop_latch: ; CHECK-NEXT: br label %inner_inner_loop_begin inner_inner_loop_exit: %a2 = load i32, i32* %a.ptr %v4 = load i1, i1* %ptr br i1 %v4, label %inner_loop_exit, label %inner_loop_begin ; CHECK: inner_inner_loop_exit: ; CHECK-NEXT: %[[A2]] = load i32, i32* %a.ptr ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_loop_exit.loopexit1, label %inner_loop_begin inner_loop_exit: %v5 = load i1, i1* %ptr br i1 %v5, label %loop_exit, label %loop_begin ; CHECK: inner_loop_exit.loopexit.split: ; CHECK-NEXT: %[[A_INNER_LCSSA:.*]] = phi i32 [ %[[A_INNER_PHI]], %inner_inner_loop_a ] ; CHECK-NEXT: br label %inner_loop_exit.loopexit ; ; CHECK: inner_loop_exit.loopexit: ; CHECK-NEXT: %[[A_INNER_US_PHI:.*]] = phi i32 [ %[[A_INNER_LCSSA]], %inner_loop_exit.loopexit.split ], [ %[[A_INNER_LCSSA_US]], %inner_loop_exit.loopexit.split.us ] ; CHECK-NEXT: br label %inner_loop_exit ; ; CHECK: inner_loop_exit.loopexit1: ; CHECK-NEXT: %[[A_INNER_LCSSA2:.*]] = phi i32 [ %[[A_INNER_PHI]], %inner_inner_loop_exit ] ; CHECK-NEXT: br label %inner_loop_exit ; ; CHECK: inner_loop_exit: ; CHECK-NEXT: %[[A_INNER_PHI:.*]] = phi i32 [ %[[A_INNER_LCSSA2]], %inner_loop_exit.loopexit1 ], [ %[[A_INNER_US_PHI]], %inner_loop_exit.loopexit ] ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_exit, label %loop_begin loop_exit: %a.lcssa = phi i32 [ %a.phi, %inner_loop_exit ] ret i32 %a.lcssa ; CHECK: loop_exit: ; CHECK-NEXT: %[[A_LCSSA:.*]] = phi i32 [ %[[A_INNER_PHI]], %inner_loop_exit ] ; CHECK-NEXT: ret i32 %[[A_LCSSA]] } ; Same pattern as @test8a but where the original loop looses an exit block and ; needs to be hoisted up the nest. define i32 @test8b(i1* %ptr, i1* %cond.ptr, i32* %a.ptr, i32* %b.ptr) { ; CHECK-LABEL: @test8b( entry: br label %loop_begin ; CHECK-NEXT: entry: ; CHECK-NEXT: br label %loop_begin loop_begin: %a = load i32, i32* %a.ptr br label %inner_loop_begin ; CHECK: loop_begin: ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br label %inner_loop_begin inner_loop_begin: %a.phi = phi i32 [ %a, %loop_begin ], [ %a2, %inner_inner_loop_exit ] %cond = load i1, i1* %cond.ptr %b = load i32, i32* %b.ptr br label %inner_inner_loop_begin ; CHECK: inner_loop_begin: ; CHECK-NEXT: %[[A_INNER_PHI:.*]] = phi i32 [ %[[A]], %loop_begin ], [ %[[A2:.*]], %inner_inner_loop_exit ] ; CHECK-NEXT: %[[COND:.*]] = load i1, i1* %cond.ptr ; CHECK-NEXT: %[[B:.*]] = load i32, i32* %b.ptr ; CHECK-NEXT: br i1 %[[COND]], label %inner_loop_begin.split.us, label %inner_loop_begin.split inner_inner_loop_begin: %v1 = load i1, i1* %ptr br i1 %v1, label %inner_inner_loop_a, label %inner_inner_loop_b inner_inner_loop_a: %v2 = load i1, i1* %ptr br i1 %v2, label %inner_inner_loop_latch, label %inner_loop_exit inner_inner_loop_b: br i1 %cond, label %inner_inner_loop_exit, label %inner_inner_loop_latch inner_inner_loop_latch: br label %inner_inner_loop_begin ; The cloned region is similar to before but with one earlier exit. ; ; CHECK: inner_loop_begin.split.us: ; CHECK-NEXT: br label %inner_inner_loop_begin.us ; ; CHECK: inner_inner_loop_begin.us: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_inner_loop_a.us, label %inner_inner_loop_b.us ; ; CHECK: inner_inner_loop_b.us: ; CHECK-NEXT: br label %inner_inner_loop_exit.split.us ; ; CHECK: inner_inner_loop_a.us: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_inner_loop_latch.us, label %inner_loop_exit.loopexit.split.us ; ; CHECK: inner_inner_loop_latch.us: ; CHECK-NEXT: br label %inner_inner_loop_begin.us ; ; CHECK: inner_inner_loop_exit.split.us: ; CHECK-NEXT: br label %inner_inner_loop_exit ; ; CHECK: inner_loop_exit.loopexit.split.us: ; CHECK-NEXT: %[[A_INNER_LCSSA_US:.*]] = phi i32 [ %[[A_INNER_PHI]], %inner_inner_loop_a.us ] ; CHECK-NEXT: br label %inner_loop_exit.loopexit ; ; The original region is now an exit in the preheader. ; ; CHECK: inner_loop_begin.split: ; CHECK-NEXT: %[[A_INNER_INNER_LCSSA:.*]] = phi i32 [ %[[A_INNER_PHI]], %inner_loop_begin ] ; CHECK-NEXT: br label %inner_inner_loop_begin ; ; CHECK: inner_inner_loop_begin: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_inner_loop_a, label %inner_inner_loop_b ; ; CHECK: inner_inner_loop_a: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_inner_loop_latch, label %inner_loop_exit.loopexit.split ; ; CHECK: inner_inner_loop_b: ; CHECK-NEXT: br label %inner_inner_loop_latch ; ; CHECK: inner_inner_loop_latch: ; CHECK-NEXT: br label %inner_inner_loop_begin inner_inner_loop_exit: %a2 = load i32, i32* %a.ptr %v4 = load i1, i1* %ptr br i1 %v4, label %inner_loop_exit, label %inner_loop_begin ; CHECK: inner_inner_loop_exit: ; CHECK-NEXT: %[[A2]] = load i32, i32* %a.ptr ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_loop_exit.loopexit1, label %inner_loop_begin inner_loop_exit: %v5 = load i1, i1* %ptr br i1 %v5, label %loop_exit, label %loop_begin ; CHECK: inner_loop_exit.loopexit.split: ; CHECK-NEXT: %[[A_INNER_LCSSA:.*]] = phi i32 [ %[[A_INNER_INNER_LCSSA]], %inner_inner_loop_a ] ; CHECK-NEXT: br label %inner_loop_exit.loopexit ; ; CHECK: inner_loop_exit.loopexit: ; CHECK-NEXT: %[[A_INNER_US_PHI:.*]] = phi i32 [ %[[A_INNER_LCSSA]], %inner_loop_exit.loopexit.split ], [ %[[A_INNER_LCSSA_US]], %inner_loop_exit.loopexit.split.us ] ; CHECK-NEXT: br label %inner_loop_exit ; ; CHECK: inner_loop_exit.loopexit1: ; CHECK-NEXT: %[[A_INNER_LCSSA2:.*]] = phi i32 [ %[[A_INNER_PHI]], %inner_inner_loop_exit ] ; CHECK-NEXT: br label %inner_loop_exit ; ; CHECK: inner_loop_exit: ; CHECK-NEXT: %[[A_INNER_PHI:.*]] = phi i32 [ %[[A_INNER_LCSSA2]], %inner_loop_exit.loopexit1 ], [ %[[A_INNER_US_PHI]], %inner_loop_exit.loopexit ] ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_exit, label %loop_begin loop_exit: %a.lcssa = phi i32 [ %a.phi, %inner_loop_exit ] ret i32 %a.lcssa ; CHECK: loop_exit: ; CHECK-NEXT: %[[A_LCSSA:.*]] = phi i32 [ %[[A_INNER_PHI]], %inner_loop_exit ] ; CHECK-NEXT: ret i32 %[[A_LCSSA]] } ; Test for when unswitching produces a clone of an inner loop but ; the clone no longer has an exiting edge *at all* and loops infinitely. ; Because it doesn't ever exit to the outer loop it is no longer an inner loop ; but needs to be hoisted up the nest to be a top-level loop. define i32 @test9a(i1* %ptr, i1* %cond.ptr, i32* %a.ptr, i32* %b.ptr) { ; CHECK-LABEL: @test9a( entry: br label %loop_begin ; CHECK-NEXT: entry: ; CHECK-NEXT: br label %loop_begin loop_begin: %b = load i32, i32* %b.ptr %cond = load i1, i1* %cond.ptr br label %inner_loop_begin ; CHECK: loop_begin: ; CHECK-NEXT: %[[B:.*]] = load i32, i32* %b.ptr ; CHECK-NEXT: %[[COND:.*]] = load i1, i1* %cond.ptr ; CHECK-NEXT: br i1 %[[COND]], label %loop_begin.split.us, label %loop_begin.split inner_loop_begin: %a = load i32, i32* %a.ptr br i1 %cond, label %inner_loop_latch, label %inner_loop_exit inner_loop_latch: call void @sink1(i32 %b) br label %inner_loop_begin ; The cloned inner loop ends up as an infinite loop and thus being a top-level ; loop with the preheader as an exit block of the outer loop. ; ; CHECK: loop_begin.split.us ; CHECK-NEXT: %[[B_LCSSA:.*]] = phi i32 [ %[[B]], %loop_begin ] ; CHECK-NEXT: br label %inner_loop_begin.us ; ; CHECK: inner_loop_begin.us: ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br label %inner_loop_latch.us ; ; CHECK: inner_loop_latch.us: ; CHECK-NEXT: call void @sink1(i32 %[[B_LCSSA]]) ; CHECK-NEXT: br label %inner_loop_begin.us ; ; The original loop becomes boring non-loop code. ; ; CHECK: loop_begin.split ; CHECK-NEXT: br label %inner_loop_begin ; ; CHECK: inner_loop_begin: ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br label %inner_loop_exit inner_loop_exit: %a.inner_lcssa = phi i32 [ %a, %inner_loop_begin ] %v = load i1, i1* %ptr br i1 %v, label %loop_begin, label %loop_exit ; CHECK: inner_loop_exit: ; CHECK-NEXT: %[[A_INNER_LCSSA:.*]] = phi i32 [ %[[A]], %inner_loop_begin ] ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_begin, label %loop_exit loop_exit: %a.lcssa = phi i32 [ %a.inner_lcssa, %inner_loop_exit ] ret i32 %a.lcssa ; CHECK: loop_exit: ; CHECK-NEXT: %[[A_LCSSA:.*]] = phi i32 [ %[[A_INNER_LCSSA]], %inner_loop_exit ] ; CHECK-NEXT: ret i32 %[[A_LCSSA]] } ; The same core pattern as @test9a, but instead of the cloned loop becoming an ; infinite loop, the original loop has its only exit unswitched and the ; original loop becomes infinite and must be hoisted out of the loop nest. define i32 @test9b(i1* %ptr, i1* %cond.ptr, i32* %a.ptr, i32* %b.ptr) { ; CHECK-LABEL: @test9b( entry: br label %loop_begin ; CHECK-NEXT: entry: ; CHECK-NEXT: br label %loop_begin loop_begin: %b = load i32, i32* %b.ptr %cond = load i1, i1* %cond.ptr br label %inner_loop_begin ; CHECK: loop_begin: ; CHECK-NEXT: %[[B:.*]] = load i32, i32* %b.ptr ; CHECK-NEXT: %[[COND:.*]] = load i1, i1* %cond.ptr ; CHECK-NEXT: br i1 %[[COND]], label %loop_begin.split.us, label %loop_begin.split inner_loop_begin: %a = load i32, i32* %a.ptr br i1 %cond, label %inner_loop_exit, label %inner_loop_latch inner_loop_latch: call void @sink1(i32 %b) br label %inner_loop_begin ; The cloned inner loop becomes a boring non-loop. ; ; CHECK: loop_begin.split.us ; CHECK-NEXT: br label %inner_loop_begin.us ; ; CHECK: inner_loop_begin.us: ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br label %inner_loop_exit.split.us ; ; CHECK: inner_loop_exit.split.us ; CHECK-NEXT: %[[A_INNER_LCSSA_US:.*]] = phi i32 [ %[[A]], %inner_loop_begin.us ] ; CHECK-NEXT: br label %inner_loop_exit ; ; The original loop becomes an infinite loop and thus a top-level loop with the ; preheader as an exit block for the outer loop. ; ; CHECK: loop_begin.split ; CHECK-NEXT: %[[B_LCSSA:.*]] = phi i32 [ %[[B]], %loop_begin ] ; CHECK-NEXT: br label %inner_loop_begin ; ; CHECK: inner_loop_begin: ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br label %inner_loop_latch ; ; CHECK: inner_loop_latch: ; CHECK-NEXT: call void @sink1(i32 %[[B_LCSSA]]) ; CHECK-NEXT: br label %inner_loop_begin inner_loop_exit: %a.inner_lcssa = phi i32 [ %a, %inner_loop_begin ] %v = load i1, i1* %ptr br i1 %v, label %loop_begin, label %loop_exit ; CHECK: inner_loop_exit: ; CHECK-NEXT: %[[A_INNER_LCSSA:.*]] = phi i32 [ %[[A_INNER_LCSSA_US]], %inner_loop_exit.split.us ] ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_begin, label %loop_exit loop_exit: %a.lcssa = phi i32 [ %a.inner_lcssa, %inner_loop_exit ] ret i32 %a.lcssa ; CHECK: loop_exit: ; CHECK-NEXT: %[[A_LCSSA:.*]] = phi i32 [ %[[A_INNER_LCSSA]], %inner_loop_exit ] ; CHECK-NEXT: ret i32 %[[A_LCSSA]] } ; Test that requires re-forming dedicated exits for the cloned loop. define i32 @test10a(i1* %ptr, i1 %cond, i32* %a.ptr) { ; CHECK-LABEL: @test10a( entry: br label %loop_begin ; CHECK-NEXT: entry: ; CHECK-NEXT: br i1 %cond, label %entry.split.us, label %entry.split loop_begin: %a = load i32, i32* %a.ptr %v1 = load i1, i1* %ptr br i1 %v1, label %loop_a, label %loop_b loop_a: %v2 = load i1, i1* %ptr br i1 %v2, label %loop_exit, label %loop_begin loop_b: br i1 %cond, label %loop_exit, label %loop_begin ; The cloned loop with one edge as a direct exit. ; ; CHECK: entry.split.us: ; CHECK-NEXT: br label %loop_begin.us ; ; CHECK: loop_begin.us: ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_a.us, label %loop_b.us ; ; CHECK: loop_b.us: ; CHECK-NEXT: %[[A_LCSSA_B:.*]] = phi i32 [ %[[A]], %loop_begin.us ] ; CHECK-NEXT: br label %loop_exit.split.us ; ; CHECK: loop_a.us: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_exit.split.us.loopexit, label %loop_begin.backedge.us ; ; CHECK: loop_begin.backedge.us: ; CHECK-NEXT: br label %loop_begin.us ; ; CHECK: loop_exit.split.us.loopexit: ; CHECK-NEXT: %[[A_LCSSA_A:.*]] = phi i32 [ %[[A]], %loop_a.us ] ; CHECK-NEXT: br label %loop_exit ; ; CHECK: loop_exit.split.us: ; CHECK-NEXT: %[[A_PHI_US:.*]] = phi i32 [ %[[A_LCSSA_B]], %loop_b.us ], [ %[[A_LCSSA_A]], %loop_exit.split.us.loopexit ] ; CHECK-NEXT: br label %loop_exit ; The original loop without one 'loop_exit' edge. ; ; CHECK: entry.split: ; CHECK-NEXT: br label %loop_begin ; ; CHECK: loop_begin: ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_a, label %loop_b ; ; CHECK: loop_a: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_exit.split, label %loop_begin.backedge ; ; CHECK: loop_begin.backedge: ; CHECK-NEXT: br label %loop_begin ; ; CHECK: loop_b: ; CHECK-NEXT: br label %loop_begin.backedge ; ; CHECK: loop_exit.split: ; CHECK-NEXT: %[[A_LCSSA:.*]] = phi i32 [ %[[A]], %loop_a ] ; CHECK-NEXT: br label %loop_exit loop_exit: %a.lcssa = phi i32 [ %a, %loop_a ], [ %a, %loop_b ] ret i32 %a.lcssa ; CHECK: loop_exit: ; CHECK-NEXT: %[[A_PHI:.*]] = phi i32 [ %[[A_LCSSA]], %loop_exit.split ], [ %[[A_PHI_US]], %loop_exit.split.us ] ; CHECK-NEXT: ret i32 %[[AB_PHI]] } ; Test that requires re-forming dedicated exits for the original loop. define i32 @test10b(i1* %ptr, i1 %cond, i32* %a.ptr) { ; CHECK-LABEL: @test10b( entry: br label %loop_begin ; CHECK-NEXT: entry: ; CHECK-NEXT: br i1 %cond, label %entry.split.us, label %entry.split loop_begin: %a = load i32, i32* %a.ptr %v1 = load i1, i1* %ptr br i1 %v1, label %loop_a, label %loop_b loop_a: %v2 = load i1, i1* %ptr br i1 %v2, label %loop_begin, label %loop_exit loop_b: br i1 %cond, label %loop_begin, label %loop_exit ; The cloned loop without one of the exits. ; ; CHECK: entry.split.us: ; CHECK-NEXT: br label %loop_begin.us ; ; CHECK: loop_begin.us: ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_a.us, label %loop_b.us ; ; CHECK: loop_b.us: ; CHECK-NEXT: br label %loop_begin.backedge.us ; ; CHECK: loop_a.us: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_begin.backedge.us, label %loop_exit.split.us ; ; CHECK: loop_begin.backedge.us: ; CHECK-NEXT: br label %loop_begin.us ; ; CHECK: loop_exit.split.us: ; CHECK-NEXT: %[[A_LCSSA_US:.*]] = phi i32 [ %[[A]], %loop_a.us ] ; CHECK-NEXT: br label %loop_exit ; The original loop without one 'loop_exit' edge. ; ; CHECK: entry.split: ; CHECK-NEXT: br label %loop_begin ; ; CHECK: loop_begin: ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_a, label %loop_b ; ; CHECK: loop_a: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_begin.backedge, label %loop_exit.split.loopexit ; ; CHECK: loop_begin.backedge: ; CHECK-NEXT: br label %loop_begin ; ; CHECK: loop_b: ; CHECK-NEXT: %[[A_LCSSA_B:.*]] = phi i32 [ %[[A]], %loop_begin ] ; CHECK-NEXT: br label %loop_exit.split ; ; CHECK: loop_exit.split.loopexit: ; CHECK-NEXT: %[[A_LCSSA_A:.*]] = phi i32 [ %[[A]], %loop_a ] ; CHECK-NEXT: br label %loop_exit.split ; ; CHECK: loop_exit.split: ; CHECK-NEXT: %[[A_PHI_SPLIT:.*]] = phi i32 [ %[[A_LCSSA_B]], %loop_b ], [ %[[A_LCSSA_A]], %loop_exit.split.loopexit ] ; CHECK-NEXT: br label %loop_exit loop_exit: %a.lcssa = phi i32 [ %a, %loop_a ], [ %a, %loop_b ] ret i32 %a.lcssa ; CHECK: loop_exit: ; CHECK-NEXT: %[[A_PHI:.*]] = phi i32 [ %[[A_PHI_SPLIT]], %loop_exit.split ], [ %[[A_LCSSA_US]], %loop_exit.split.us ] ; CHECK-NEXT: ret i32 %[[AB_PHI]] } ; Check that if a cloned inner loop after unswitching doesn't loop and directly ; exits even an outer loop, we don't add the cloned preheader to the outer ; loop and do add the needed LCSSA phi nodes for the new exit block from the ; outer loop. define i32 @test11a(i1* %ptr, i1* %cond.ptr, i32* %a.ptr, i32* %b.ptr) { ; CHECK-LABEL: @test11a( entry: br label %loop_begin ; CHECK-NEXT: entry: ; CHECK-NEXT: br label %loop_begin loop_begin: %b = load i32, i32* %b.ptr %v1 = load i1, i1* %ptr br i1 %v1, label %loop_latch, label %inner_loop_ph ; CHECK: loop_begin: ; CHECK-NEXT: %[[B:.*]] = load i32, i32* %b.ptr ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_latch, label %inner_loop_ph inner_loop_ph: %cond = load i1, i1* %cond.ptr br label %inner_loop_begin ; CHECK: inner_loop_ph: ; CHECK-NEXT: %[[COND:.*]] = load i1, i1* %cond.ptr ; CHECK-NEXT: br i1 %[[COND]], label %inner_loop_ph.split.us, label %inner_loop_ph.split inner_loop_begin: call void @sink1(i32 %b) %a = load i32, i32* %a.ptr br i1 %cond, label %loop_exit, label %inner_loop_a inner_loop_a: %v2 = load i1, i1* %ptr br i1 %v2, label %inner_loop_exit, label %inner_loop_begin ; The cloned path doesn't actually loop and is an exit from the outer loop as ; well. ; ; CHECK: inner_loop_ph.split.us: ; CHECK-NEXT: %[[B_LCSSA:.*]] = phi i32 [ %[[B]], %inner_loop_ph ] ; CHECK-NEXT: br label %inner_loop_begin.us ; ; CHECK: inner_loop_begin.us: ; CHECK-NEXT: call void @sink1(i32 %[[B_LCSSA]]) ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br label %loop_exit.loopexit.split.us ; ; CHECK: loop_exit.loopexit.split.us: ; CHECK-NEXT: %[[A_INNER_LCSSA_US:.*]] = phi i32 [ %[[A]], %inner_loop_begin.us ] ; CHECK-NEXT: br label %loop_exit.loopexit ; ; The original remains a loop losing the exit edge. ; ; CHECK: inner_loop_ph.split: ; CHECK-NEXT: br label %inner_loop_begin ; ; CHECK: inner_loop_begin: ; CHECK-NEXT: call void @sink1(i32 %[[B]]) ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br label %inner_loop_a ; ; CHECK: inner_loop_a: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_loop_exit, label %inner_loop_begin inner_loop_exit: %a.inner_lcssa = phi i32 [ %a, %inner_loop_a ] %v3 = load i1, i1* %ptr br i1 %v3, label %loop_latch, label %loop_exit ; CHECK: inner_loop_exit: ; CHECK-NEXT: %[[A_INNER_LCSSA:.*]] = phi i32 [ %[[A]], %inner_loop_a ] ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_latch, label %loop_exit.loopexit1 loop_latch: br label %loop_begin ; CHECK: loop_latch: ; CHECK-NEXT: br label %loop_begin loop_exit: %a.lcssa = phi i32 [ %a, %inner_loop_begin ], [ %a.inner_lcssa, %inner_loop_exit ] ret i32 %a.lcssa ; CHECK: loop_exit.loopexit: ; CHECK-NEXT: %[[A_LCSSA_US:.*]] = phi i32 [ %[[A_INNER_LCSSA_US]], %loop_exit.loopexit.split.us ] ; CHECK-NEXT: br label %loop_exit ; ; CHECK: loop_exit.loopexit1: ; CHECK-NEXT: %[[A_LCSSA:.*]] = phi i32 [ %[[A_INNER_LCSSA]], %inner_loop_exit ] ; CHECK-NEXT: br label %loop_exit ; ; CHECK: loop_exit: ; CHECK-NEXT: %[[A_PHI:.*]] = phi i32 [ %[[A_LCSSA_US]], %loop_exit.loopexit ], [ %[[A_LCSSA]], %loop_exit.loopexit1 ] ; CHECK-NEXT: ret i32 %[[A_PHI]] } ; Check that if the original inner loop after unswitching doesn't loop and ; directly exits even an outer loop, we remove the original preheader from the ; outer loop and add needed LCSSA phi nodes for the new exit block from the ; outer loop. define i32 @test11b(i1* %ptr, i1* %cond.ptr, i32* %a.ptr, i32* %b.ptr) { ; CHECK-LABEL: @test11b( entry: br label %loop_begin ; CHECK-NEXT: entry: ; CHECK-NEXT: br label %loop_begin loop_begin: %b = load i32, i32* %b.ptr %v1 = load i1, i1* %ptr br i1 %v1, label %loop_latch, label %inner_loop_ph ; CHECK: loop_begin: ; CHECK-NEXT: %[[B:.*]] = load i32, i32* %b.ptr ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_latch, label %inner_loop_ph inner_loop_ph: %cond = load i1, i1* %cond.ptr br label %inner_loop_begin ; CHECK: inner_loop_ph: ; CHECK-NEXT: %[[COND:.*]] = load i1, i1* %cond.ptr ; CHECK-NEXT: br i1 %[[COND]], label %inner_loop_ph.split.us, label %inner_loop_ph.split inner_loop_begin: call void @sink1(i32 %b) %a = load i32, i32* %a.ptr br i1 %cond, label %inner_loop_a, label %loop_exit inner_loop_a: %v2 = load i1, i1* %ptr br i1 %v2, label %inner_loop_exit, label %inner_loop_begin ; The cloned path continues to loop without the exit out of the entire nest. ; ; CHECK: inner_loop_ph.split.us: ; CHECK-NEXT: br label %inner_loop_begin.us ; ; CHECK: inner_loop_begin.us: ; CHECK-NEXT: call void @sink1(i32 %[[B]]) ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br label %inner_loop_a.us ; ; CHECK: inner_loop_a.us: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_loop_exit.split.us, label %inner_loop_begin.us ; ; CHECK: inner_loop_exit.split.us: ; CHECK-NEXT: %[[A_INNER_LCSSA_US:.*]] = phi i32 [ %[[A]], %inner_loop_a.us ] ; CHECK-NEXT: br label %inner_loop_exit ; ; The original remains a loop losing the exit edge. ; ; CHECK: inner_loop_ph.split: ; CHECK-NEXT: %[[B_LCSSA:.*]] = phi i32 [ %[[B]], %inner_loop_ph ] ; CHECK-NEXT: br label %inner_loop_begin ; ; CHECK: inner_loop_begin: ; CHECK-NEXT: call void @sink1(i32 %[[B_LCSSA]]) ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br label %loop_exit.loopexit inner_loop_exit: %a.inner_lcssa = phi i32 [ %a, %inner_loop_a ] %v3 = load i1, i1* %ptr br i1 %v3, label %loop_latch, label %loop_exit ; CHECK: inner_loop_exit: ; CHECK-NEXT: %[[A_INNER_PHI:.*]] = phi i32 [ %[[A_INNER_LCSSA_US]], %inner_loop_exit.split.us ] ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_latch, label %loop_exit.loopexit1 loop_latch: br label %loop_begin ; CHECK: loop_latch: ; CHECK-NEXT: br label %loop_begin loop_exit: %a.lcssa = phi i32 [ %a, %inner_loop_begin ], [ %a.inner_lcssa, %inner_loop_exit ] ret i32 %a.lcssa ; CHECK: loop_exit.loopexit: ; CHECK-NEXT: %[[A_LCSSA:.*]] = phi i32 [ %[[A]], %inner_loop_begin ] ; CHECK-NEXT: br label %loop_exit ; ; CHECK: loop_exit.loopexit1: ; CHECK-NEXT: %[[A_LCSSA_US:.*]] = phi i32 [ %[[A_INNER_PHI]], %inner_loop_exit ] ; CHECK-NEXT: br label %loop_exit ; ; CHECK: loop_exit: ; CHECK-NEXT: %[[A_PHI:.*]] = phi i32 [ %[[A_LCSSA]], %loop_exit.loopexit ], [ %[[A_LCSSA_US]], %loop_exit.loopexit1 ] ; CHECK-NEXT: ret i32 %[[A_PHI]] } ; Like test11a, but checking that when the whole thing is wrapped in yet ; another loop, we correctly attribute the cloned preheader to that outermost ; loop rather than only handling the case where the preheader is not in any loop ; at all. define i32 @test12a(i1* %ptr, i1* %cond.ptr, i32* %a.ptr, i32* %b.ptr) { ; CHECK-LABEL: @test12a( entry: br label %loop_begin ; CHECK-NEXT: entry: ; CHECK-NEXT: br label %loop_begin loop_begin: br label %inner_loop_begin ; CHECK: loop_begin: ; CHECK-NEXT: br label %inner_loop_begin inner_loop_begin: %b = load i32, i32* %b.ptr %v1 = load i1, i1* %ptr br i1 %v1, label %inner_loop_latch, label %inner_inner_loop_ph ; CHECK: inner_loop_begin: ; CHECK-NEXT: %[[B:.*]] = load i32, i32* %b.ptr ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_loop_latch, label %inner_inner_loop_ph inner_inner_loop_ph: %cond = load i1, i1* %cond.ptr br label %inner_inner_loop_begin ; CHECK: inner_inner_loop_ph: ; CHECK-NEXT: %[[COND:.*]] = load i1, i1* %cond.ptr ; CHECK-NEXT: br i1 %[[COND]], label %inner_inner_loop_ph.split.us, label %inner_inner_loop_ph.split inner_inner_loop_begin: call void @sink1(i32 %b) %a = load i32, i32* %a.ptr br i1 %cond, label %inner_loop_exit, label %inner_inner_loop_a inner_inner_loop_a: %v2 = load i1, i1* %ptr br i1 %v2, label %inner_inner_loop_exit, label %inner_inner_loop_begin ; The cloned path doesn't actually loop and is an exit from the outer loop as ; well. ; ; CHECK: inner_inner_loop_ph.split.us: ; CHECK-NEXT: %[[B_LCSSA:.*]] = phi i32 [ %[[B]], %inner_inner_loop_ph ] ; CHECK-NEXT: br label %inner_inner_loop_begin.us ; ; CHECK: inner_inner_loop_begin.us: ; CHECK-NEXT: call void @sink1(i32 %[[B_LCSSA]]) ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br label %inner_loop_exit.loopexit.split.us ; ; CHECK: inner_loop_exit.loopexit.split.us: ; CHECK-NEXT: %[[A_INNER_INNER_LCSSA_US:.*]] = phi i32 [ %[[A]], %inner_inner_loop_begin.us ] ; CHECK-NEXT: br label %inner_loop_exit.loopexit ; ; The original remains a loop losing the exit edge. ; ; CHECK: inner_inner_loop_ph.split: ; CHECK-NEXT: br label %inner_inner_loop_begin ; ; CHECK: inner_inner_loop_begin: ; CHECK-NEXT: call void @sink1(i32 %[[B]]) ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br label %inner_inner_loop_a ; ; CHECK: inner_inner_loop_a: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_inner_loop_exit, label %inner_inner_loop_begin inner_inner_loop_exit: %a.inner_inner_lcssa = phi i32 [ %a, %inner_inner_loop_a ] %v3 = load i1, i1* %ptr br i1 %v3, label %inner_loop_latch, label %inner_loop_exit ; CHECK: inner_inner_loop_exit: ; CHECK-NEXT: %[[A_INNER_INNER_LCSSA:.*]] = phi i32 [ %[[A]], %inner_inner_loop_a ] ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_loop_latch, label %inner_loop_exit.loopexit1 inner_loop_latch: br label %inner_loop_begin ; CHECK: inner_loop_latch: ; CHECK-NEXT: br label %inner_loop_begin inner_loop_exit: %a.inner_lcssa = phi i32 [ %a, %inner_inner_loop_begin ], [ %a.inner_inner_lcssa, %inner_inner_loop_exit ] %v4 = load i1, i1* %ptr br i1 %v4, label %loop_begin, label %loop_exit ; CHECK: inner_loop_exit.loopexit: ; CHECK-NEXT: %[[A_INNER_LCSSA_US:.*]] = phi i32 [ %[[A_INNER_INNER_LCSSA_US]], %inner_loop_exit.loopexit.split.us ] ; CHECK-NEXT: br label %inner_loop_exit ; ; CHECK: inner_loop_exit.loopexit1: ; CHECK-NEXT: %[[A_INNER_LCSSA:.*]] = phi i32 [ %[[A_INNER_INNER_LCSSA]], %inner_inner_loop_exit ] ; CHECK-NEXT: br label %inner_loop_exit ; ; CHECK: inner_loop_exit: ; CHECK-NEXT: %[[A_INNER_PHI:.*]] = phi i32 [ %[[A_INNER_LCSSA_US]], %inner_loop_exit.loopexit ], [ %[[A_INNER_LCSSA]], %inner_loop_exit.loopexit1 ] ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_begin, label %loop_exit loop_exit: %a.lcssa = phi i32 [ %a.inner_lcssa, %inner_loop_exit ] ret i32 %a.lcssa ; CHECK: loop_exit: ; CHECK-NEXT: %[[A_LCSSA:.*]] = phi i32 [ %[[A_INNER_PHI]], %inner_loop_exit ] ; CHECK-NEXT: ret i32 %[[A_LCSSA]] } ; Like test11b, but checking that when the whole thing is wrapped in yet ; another loop, we correctly sink the preheader to the outermost loop rather ; than only handling the case where the preheader is completely removed from ; a loop. define i32 @test12b(i1* %ptr, i1* %cond.ptr, i32* %a.ptr, i32* %b.ptr) { ; CHECK-LABEL: @test12b( entry: br label %loop_begin ; CHECK-NEXT: entry: ; CHECK-NEXT: br label %loop_begin loop_begin: br label %inner_loop_begin ; CHECK: loop_begin: ; CHECK-NEXT: br label %inner_loop_begin inner_loop_begin: %b = load i32, i32* %b.ptr %v1 = load i1, i1* %ptr br i1 %v1, label %inner_loop_latch, label %inner_inner_loop_ph ; CHECK: inner_loop_begin: ; CHECK-NEXT: %[[B:.*]] = load i32, i32* %b.ptr ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_loop_latch, label %inner_inner_loop_ph inner_inner_loop_ph: %cond = load i1, i1* %cond.ptr br label %inner_inner_loop_begin ; CHECK: inner_inner_loop_ph: ; CHECK-NEXT: %[[COND:.*]] = load i1, i1* %cond.ptr ; CHECK-NEXT: br i1 %[[COND]], label %inner_inner_loop_ph.split.us, label %inner_inner_loop_ph.split inner_inner_loop_begin: call void @sink1(i32 %b) %a = load i32, i32* %a.ptr br i1 %cond, label %inner_inner_loop_a, label %inner_loop_exit inner_inner_loop_a: %v2 = load i1, i1* %ptr br i1 %v2, label %inner_inner_loop_exit, label %inner_inner_loop_begin ; The cloned path continues to loop without the exit out of the entire nest. ; ; CHECK: inner_inner_loop_ph.split.us: ; CHECK-NEXT: br label %inner_inner_loop_begin.us ; ; CHECK: inner_inner_loop_begin.us: ; CHECK-NEXT: call void @sink1(i32 %[[B]]) ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br label %inner_inner_loop_a.us ; ; CHECK: inner_inner_loop_a.us: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_inner_loop_exit.split.us, label %inner_inner_loop_begin.us ; ; CHECK: inner_inner_loop_exit.split.us: ; CHECK-NEXT: %[[A_INNER_INNER_LCSSA_US:.*]] = phi i32 [ %[[A]], %inner_inner_loop_a.us ] ; CHECK-NEXT: br label %inner_inner_loop_exit ; ; The original remains a loop losing the exit edge. ; ; CHECK: inner_inner_loop_ph.split: ; CHECK-NEXT: %[[B_LCSSA:.*]] = phi i32 [ %[[B]], %inner_inner_loop_ph ] ; CHECK-NEXT: br label %inner_inner_loop_begin ; ; CHECK: inner_inner_loop_begin: ; CHECK-NEXT: call void @sink1(i32 %[[B_LCSSA]]) ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: br label %inner_loop_exit.loopexit inner_inner_loop_exit: %a.inner_inner_lcssa = phi i32 [ %a, %inner_inner_loop_a ] %v3 = load i1, i1* %ptr br i1 %v3, label %inner_loop_latch, label %inner_loop_exit ; CHECK: inner_inner_loop_exit: ; CHECK-NEXT: %[[A_INNER_INNER_PHI:.*]] = phi i32 [ %[[A_INNER_INNER_LCSSA_US]], %inner_inner_loop_exit.split.us ] ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %inner_loop_latch, label %inner_loop_exit.loopexit1 inner_loop_latch: br label %inner_loop_begin ; CHECK: inner_loop_latch: ; CHECK-NEXT: br label %inner_loop_begin inner_loop_exit: %a.inner_lcssa = phi i32 [ %a, %inner_inner_loop_begin ], [ %a.inner_inner_lcssa, %inner_inner_loop_exit ] %v4 = load i1, i1* %ptr br i1 %v4, label %loop_begin, label %loop_exit ; CHECK: inner_loop_exit.loopexit: ; CHECK-NEXT: %[[A_INNER_LCSSA:.*]] = phi i32 [ %[[A]], %inner_inner_loop_begin ] ; CHECK-NEXT: br label %inner_loop_exit ; ; CHECK: inner_loop_exit.loopexit1: ; CHECK-NEXT: %[[A_INNER_LCSSA_US:.*]] = phi i32 [ %[[A_INNER_INNER_PHI]], %inner_inner_loop_exit ] ; CHECK-NEXT: br label %inner_loop_exit ; ; CHECK: inner_loop_exit: ; CHECK-NEXT: %[[A_INNER_PHI:.*]] = phi i32 [ %[[A_INNER_LCSSA]], %inner_loop_exit.loopexit ], [ %[[A_INNER_LCSSA_US]], %inner_loop_exit.loopexit1 ] ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_begin, label %loop_exit loop_exit: %a.lcssa = phi i32 [ %a.inner_lcssa, %inner_loop_exit ] ret i32 %a.lcssa ; CHECK: loop_exit: ; CHECK-NEXT: %[[A_LCSSA:.*]] = phi i32 [ %[[A_INNER_PHI]], %inner_loop_exit ] ; CHECK-NEXT: ret i32 %[[A_LCSSA]] } ; Test where the cloned loop has an inner loop that has to be traversed to form ; the cloned loop, and where this inner loop has multiple blocks, and where the ; exiting block that connects the inner loop to the cloned loop is not the header ; block. This ensures that we correctly handle interesting corner cases of ; traversing back to the header when establishing the cloned loop. define i32 @test13a(i1* %ptr, i1 %cond, i32* %a.ptr, i32* %b.ptr) { ; CHECK-LABEL: @test13a( entry: br label %loop_begin ; CHECK-NEXT: entry: ; CHECK-NEXT: br i1 %cond, label %entry.split.us, label %entry.split loop_begin: %a = load i32, i32* %a.ptr %v1 = load i1, i1* %ptr br i1 %v1, label %loop_a, label %loop_b loop_a: %v2 = load i1, i1* %ptr br i1 %v2, label %loop_exit, label %loop_latch loop_b: %b = load i32, i32* %b.ptr br i1 %cond, label %loop_b_inner_ph, label %loop_exit loop_b_inner_ph: br label %loop_b_inner_header loop_b_inner_header: %v3 = load i1, i1* %ptr br i1 %v3, label %loop_b_inner_latch, label %loop_b_inner_body loop_b_inner_body: %v4 = load i1, i1* %ptr br i1 %v4, label %loop_b_inner_latch, label %loop_b_inner_exit loop_b_inner_latch: br label %loop_b_inner_header loop_b_inner_exit: br label %loop_latch loop_latch: br label %loop_begin ; The cloned loop contains an inner loop within it. ; ; CHECK: entry.split.us: ; CHECK-NEXT: br label %loop_begin.us ; ; CHECK: loop_begin.us: ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_a.us, label %loop_b.us ; ; CHECK: loop_b.us: ; CHECK-NEXT: %[[B:.*]] = load i32, i32* %b.ptr ; CHECK-NEXT: br label %loop_b_inner_ph.us ; ; CHECK: loop_b_inner_ph.us: ; CHECK-NEXT: br label %loop_b_inner_header.us ; ; CHECK: loop_b_inner_header.us: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_b_inner_latch.us, label %loop_b_inner_body.us ; ; CHECK: loop_b_inner_body.us: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_b_inner_latch.us, label %loop_b_inner_exit.us ; ; CHECK: loop_b_inner_exit.us: ; CHECK-NEXT: br label %loop_latch.us ; ; CHECK: loop_b_inner_latch.us: ; CHECK-NEXT: br label %loop_b_inner_header.us ; ; CHECK: loop_a.us: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_exit.split.us, label %loop_latch.us ; ; CHECK: loop_latch.us: ; CHECK-NEXT: br label %loop_begin.us ; ; CHECK: loop_exit.split.us: ; CHECK-NEXT: %[[A_LCSSA_US:.*]] = phi i32 [ %[[A]], %loop_a.us ] ; CHECK-NEXT: br label %loop_exit ; ; And the original loop no longer contains an inner loop. ; ; CHECK: entry.split: ; CHECK-NEXT: br label %loop_begin ; ; CHECK: loop_begin: ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_a, label %loop_b ; ; CHECK: loop_a: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_exit.split.loopexit, label %loop_latch ; ; CHECK: loop_b: ; CHECK-NEXT: %[[B:.*]] = load i32, i32* %b.ptr ; CHECK-NEXT: br label %loop_exit.split ; ; CHECK: loop_latch: ; CHECK-NEXT: br label %loop_begin loop_exit: %lcssa = phi i32 [ %a, %loop_a ], [ %b, %loop_b ] ret i32 %lcssa ; CHECK: loop_exit.split.loopexit: ; CHECK-NEXT: %[[A_LCSSA:.*]] = phi i32 [ %[[A]], %loop_a ] ; CHECK-NEXT: br label %loop_exit.split ; ; CHECK: loop_exit.split: ; CHECK-NEXT: %[[AB_PHI:.*]] = phi i32 [ %[[B]], %loop_b ], [ %[[A_LCSSA]], %loop_exit.split.loopexit ] ; CHECK-NEXT: br label %loop_exit ; ; CHECK: loop_exit: ; CHECK-NEXT: %[[AB_PHI_US:.*]] = phi i32 [ %[[AB_PHI]], %loop_exit.split ], [ %[[A_LCSSA_US]], %loop_exit.split.us ] ; CHECK-NEXT: ret i32 %[[AB_PHI_US]] } ; Test where the original loop has an inner loop that has to be traversed to ; rebuild the loop, and where this inner loop has multiple blocks, and where ; the exiting block that connects the inner loop to the original loop is not ; the header block. This ensures that we correctly handle interesting corner ; cases of traversing back to the header when re-establishing the original loop ; still exists after unswitching. define i32 @test13b(i1* %ptr, i1 %cond, i32* %a.ptr, i32* %b.ptr) { ; CHECK-LABEL: @test13b( entry: br label %loop_begin ; CHECK-NEXT: entry: ; CHECK-NEXT: br i1 %cond, label %entry.split.us, label %entry.split loop_begin: %a = load i32, i32* %a.ptr %v1 = load i1, i1* %ptr br i1 %v1, label %loop_a, label %loop_b loop_a: %v2 = load i1, i1* %ptr br i1 %v2, label %loop_exit, label %loop_latch loop_b: %b = load i32, i32* %b.ptr br i1 %cond, label %loop_exit, label %loop_b_inner_ph loop_b_inner_ph: br label %loop_b_inner_header loop_b_inner_header: %v3 = load i1, i1* %ptr br i1 %v3, label %loop_b_inner_latch, label %loop_b_inner_body loop_b_inner_body: %v4 = load i1, i1* %ptr br i1 %v4, label %loop_b_inner_latch, label %loop_b_inner_exit loop_b_inner_latch: br label %loop_b_inner_header loop_b_inner_exit: br label %loop_latch loop_latch: br label %loop_begin ; The cloned loop doesn't contain an inner loop. ; ; CHECK: entry.split.us: ; CHECK-NEXT: br label %loop_begin.us ; ; CHECK: loop_begin.us: ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_a.us, label %loop_b.us ; ; CHECK: loop_b.us: ; CHECK-NEXT: %[[B:.*]] = load i32, i32* %b.ptr ; CHECK-NEXT: br label %loop_exit.split.us ; ; CHECK: loop_a.us: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_exit.split.us.loopexit, label %loop_latch.us ; ; CHECK: loop_latch.us: ; CHECK-NEXT: br label %loop_begin.us ; ; CHECK: loop_exit.split.us.loopexit: ; CHECK-NEXT: %[[A_LCSSA_US:.*]] = phi i32 [ %[[A]], %loop_a.us ] ; CHECK-NEXT: br label %loop_exit.split.us ; ; CHECK: loop_exit.split.us: ; CHECK-NEXT: %[[AB_PHI_US:.*]] = phi i32 [ %[[B]], %loop_b.us ], [ %[[A_LCSSA_US]], %loop_exit.split.us.loopexit ] ; CHECK-NEXT: br label %loop_exit ; ; But the original loop contains an inner loop that must be traversed.; ; ; CHECK: entry.split: ; CHECK-NEXT: br label %loop_begin ; ; CHECK: loop_begin: ; CHECK-NEXT: %[[A:.*]] = load i32, i32* %a.ptr ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_a, label %loop_b ; ; CHECK: loop_a: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_exit.split, label %loop_latch ; ; CHECK: loop_b: ; CHECK-NEXT: %[[B:.*]] = load i32, i32* %b.ptr ; CHECK-NEXT: br label %loop_b_inner_ph ; ; CHECK: loop_b_inner_ph: ; CHECK-NEXT: br label %loop_b_inner_header ; ; CHECK: loop_b_inner_header: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_b_inner_latch, label %loop_b_inner_body ; ; CHECK: loop_b_inner_body: ; CHECK-NEXT: %[[V:.*]] = load i1, i1* %ptr ; CHECK-NEXT: br i1 %[[V]], label %loop_b_inner_latch, label %loop_b_inner_exit ; ; CHECK: loop_b_inner_latch: ; CHECK-NEXT: br label %loop_b_inner_header ; ; CHECK: loop_b_inner_exit: ; CHECK-NEXT: br label %loop_latch ; ; CHECK: loop_latch: ; CHECK-NEXT: br label %loop_begin loop_exit: %lcssa = phi i32 [ %a, %loop_a ], [ %b, %loop_b ] ret i32 %lcssa ; CHECK: loop_exit.split: ; CHECK-NEXT: %[[A_LCSSA:.*]] = phi i32 [ %[[A]], %loop_a ] ; CHECK-NEXT: br label %loop_exit ; ; CHECK: loop_exit: ; CHECK-NEXT: %[[AB_PHI:.*]] = phi i32 [ %[[A_LCSSA]], %loop_exit.split ], [ %[[AB_PHI_US]], %loop_exit.split.us ] ; CHECK-NEXT: ret i32 %[[AB_PHI]] } define i32 @test20(i32* %var, i32 %cond1, i32 %cond2) { ; CHECK-LABEL: @test20( entry: br label %loop_begin ; CHECK-NEXT: entry: ; CHECK-NEXT: br label %loop_begin loop_begin: %var_val = load i32, i32* %var switch i32 %cond2, label %loop_a [ i32 0, label %loop_b i32 1, label %loop_b i32 13, label %loop_c i32 2, label %loop_b i32 42, label %loop_exit ] ; CHECK: loop_begin: ; CHECK-NEXT: %[[V:.*]] = load i32, i32* %var ; CHECK-NEXT: switch i32 %cond2, label %loop_a [ ; CHECK-NEXT: i32 0, label %loop_b ; CHECK-NEXT: i32 1, label %loop_b ; CHECK-NEXT: i32 13, label %loop_c ; CHECK-NEXT: i32 2, label %loop_b ; CHECK-NEXT: i32 42, label %loop_exit ; CHECK-NEXT: ] loop_a: call void @a() br label %loop_latch ; CHECK: loop_a: ; CHECK-NEXT: call void @a() ; CHECK-NEXT: br label %loop_latch loop_b: call void @b() br label %loop_latch ; CHECK: loop_b: ; CHECK-NEXT: call void @b() ; CHECK-NEXT: br label %loop_latch loop_c: call void @c() noreturn nounwind br label %loop_latch ; CHECK: loop_c: ; CHECK-NEXT: call void @c() ; CHECK-NEXT: br label %loop_latch loop_latch: br label %loop_begin ; CHECK: loop_latch: ; CHECK-NEXT: br label %loop_begin loop_exit: %lcssa = phi i32 [ %var_val, %loop_begin ] ret i32 %lcssa ; CHECK: loop_exit: ; CHECK-NEXT: %[[LCSSA:.*]] = phi i32 [ %[[V]], %loop_begin ] ; CHECK-NEXT: ret i32 %[[LCSSA]] }