; RUN: opt < %s -inline -S | FileCheck %s ; Test that the inliner correctly handles inlining into invoke sites ; by appending selectors and forwarding _Unwind_Resume directly to the ; enclosing landing pad. ;; Test 0 - basic functionality. %struct.A = type { i8 } @_ZTIi = external constant i8* declare void @_ZN1AC1Ev(%struct.A*) declare void @_ZN1AD1Ev(%struct.A*) declare void @use(i32) nounwind declare void @opaque() declare i32 @llvm.eh.typeid.for(i8*) nounwind declare i32 @__gxx_personality_v0(...) declare i8* @__cxa_begin_catch(i8*) declare void @__cxa_end_catch() declare void @_ZSt9terminatev() define internal void @test0_in() alwaysinline uwtable ssp personality i32 (...)* @__gxx_personality_v0 { entry: %a = alloca %struct.A, align 1 %b = alloca %struct.A, align 1 call void @_ZN1AC1Ev(%struct.A* %a) invoke void @_ZN1AC1Ev(%struct.A* %b) to label %invoke.cont unwind label %lpad invoke.cont: invoke void @_ZN1AD1Ev(%struct.A* %b) to label %invoke.cont1 unwind label %lpad invoke.cont1: call void @_ZN1AD1Ev(%struct.A* %a) ret void lpad: %exn = landingpad {i8*, i32} cleanup invoke void @_ZN1AD1Ev(%struct.A* %a) to label %invoke.cont2 unwind label %terminate.lpad invoke.cont2: resume { i8*, i32 } %exn terminate.lpad: %exn1 = landingpad {i8*, i32} catch i8* null call void @_ZSt9terminatev() noreturn nounwind unreachable } define void @test0_out() uwtable ssp personality i32 (...)* @__gxx_personality_v0 { entry: invoke void @test0_in() to label %ret unwind label %lpad ret: ret void lpad: ; preds = %entry %exn = landingpad {i8*, i32} catch i8* bitcast (i8** @_ZTIi to i8*) %eh.exc = extractvalue { i8*, i32 } %exn, 0 %eh.selector = extractvalue { i8*, i32 } %exn, 1 %0 = call i32 @llvm.eh.typeid.for(i8* bitcast (i8** @_ZTIi to i8*)) nounwind %1 = icmp eq i32 %eh.selector, %0 br i1 %1, label %catch, label %eh.resume catch: %ignored = call i8* @__cxa_begin_catch(i8* %eh.exc) nounwind call void @__cxa_end_catch() nounwind br label %ret eh.resume: resume { i8*, i32 } %exn } ; CHECK: define void @test0_out() ; CHECK: [[A:%.*]] = alloca %struct.A, ; CHECK: [[B:%.*]] = alloca %struct.A, ; CHECK: invoke void @_ZN1AC1Ev(%struct.A* [[A]]) ; CHECK: invoke void @_ZN1AC1Ev(%struct.A* [[B]]) ; CHECK: invoke void @_ZN1AD1Ev(%struct.A* [[B]]) ; CHECK: invoke void @_ZN1AD1Ev(%struct.A* [[A]]) ; CHECK: landingpad { i8*, i32 } ; CHECK-NEXT: cleanup ; CHECK-NEXT: catch i8* bitcast (i8** @_ZTIi to i8*) ; CHECK-NEXT: invoke void @_ZN1AD1Ev(%struct.A* [[A]]) ; CHECK-NEXT: to label %[[LBL:[^\s]+]] unwind ; CHECK: [[LBL]]: ; CHECK-NEXT: br label %[[LPAD:[^\s]+]] ; CHECK: ret void ; CHECK: landingpad { i8*, i32 } ; CHECK-NEXT: catch i8* bitcast (i8** @_ZTIi to i8*) ; CHECK-NEXT: br label %[[LPAD]] ; CHECK: [[LPAD]]: ; CHECK-NEXT: phi { i8*, i32 } [ ; CHECK-NEXT: extractvalue { i8*, i32 } ; CHECK-NEXT: extractvalue { i8*, i32 } ; CHECK-NEXT: call i32 @llvm.eh.typeid.for( ;; Test 1 - Correctly handle phis in outer landing pads. define void @test1_out() uwtable ssp personality i32 (...)* @__gxx_personality_v0 { entry: invoke void @test0_in() to label %cont unwind label %lpad cont: invoke void @test0_in() to label %ret unwind label %lpad ret: ret void lpad: %x = phi i32 [ 0, %entry ], [ 1, %cont ] %y = phi i32 [ 1, %entry ], [ 4, %cont ] %exn = landingpad {i8*, i32} catch i8* bitcast (i8** @_ZTIi to i8*) %eh.exc = extractvalue { i8*, i32 } %exn, 0 %eh.selector = extractvalue { i8*, i32 } %exn, 1 %0 = call i32 @llvm.eh.typeid.for(i8* bitcast (i8** @_ZTIi to i8*)) nounwind %1 = icmp eq i32 %eh.selector, %0 br i1 %1, label %catch, label %eh.resume catch: %ignored = call i8* @__cxa_begin_catch(i8* %eh.exc) nounwind call void @use(i32 %x) call void @use(i32 %y) call void @__cxa_end_catch() nounwind br label %ret eh.resume: resume { i8*, i32 } %exn } ; CHECK: define void @test1_out() ; CHECK: [[A2:%.*]] = alloca %struct.A, ; CHECK: [[B2:%.*]] = alloca %struct.A, ; CHECK: [[A1:%.*]] = alloca %struct.A, ; CHECK: [[B1:%.*]] = alloca %struct.A, ; CHECK: invoke void @_ZN1AC1Ev(%struct.A* [[A1]]) ; CHECK-NEXT: unwind label %[[LPAD:[^\s]+]] ; CHECK: invoke void @_ZN1AC1Ev(%struct.A* [[B1]]) ; CHECK-NEXT: unwind label %[[LPAD1:[^\s]+]] ; CHECK: invoke void @_ZN1AD1Ev(%struct.A* [[B1]]) ; CHECK-NEXT: unwind label %[[LPAD1]] ; CHECK: invoke void @_ZN1AD1Ev(%struct.A* [[A1]]) ; CHECK-NEXT: unwind label %[[LPAD]] ; Inner landing pad from first inlining. ; CHECK: [[LPAD1]]: ; CHECK-NEXT: [[LPADVAL1:%.*]] = landingpad { i8*, i32 } ; CHECK-NEXT: cleanup ; CHECK-NEXT: catch i8* bitcast (i8** @_ZTIi to i8*) ; CHECK-NEXT: invoke void @_ZN1AD1Ev(%struct.A* [[A1]]) ; CHECK-NEXT: to label %[[RESUME1:[^\s]+]] unwind ; CHECK: [[RESUME1]]: ; CHECK-NEXT: br label %[[LPAD_JOIN1:[^\s]+]] ; CHECK: invoke void @_ZN1AC1Ev(%struct.A* [[A2]]) ; CHECK-NEXT: unwind label %[[LPAD]] ; CHECK: invoke void @_ZN1AC1Ev(%struct.A* [[B2]]) ; CHECK-NEXT: unwind label %[[LPAD2:[^\s]+]] ; CHECK: invoke void @_ZN1AD1Ev(%struct.A* [[B2]]) ; CHECK-NEXT: unwind label %[[LPAD2]] ; CHECK: invoke void @_ZN1AD1Ev(%struct.A* [[A2]]) ; CHECK-NEXT: unwind label %[[LPAD]] ; Inner landing pad from second inlining. ; CHECK: [[LPAD2]]: ; CHECK-NEXT: [[LPADVAL2:%.*]] = landingpad { i8*, i32 } ; CHECK-NEXT: cleanup ; CHECK-NEXT: catch i8* bitcast (i8** @_ZTIi to i8*) ; CHECK-NEXT: invoke void @_ZN1AD1Ev(%struct.A* [[A2]]) ; CHECK-NEXT: to label %[[RESUME2:[^\s]+]] unwind ; CHECK: [[RESUME2]]: ; CHECK-NEXT: br label %[[LPAD_JOIN2:[^\s]+]] ; CHECK: ret void ; CHECK: [[LPAD]]: ; CHECK-NEXT: [[X:%.*]] = phi i32 [ 0, %entry ], [ 0, {{%.*}} ], [ 1, %cont ], [ 1, {{%.*}} ] ; CHECK-NEXT: [[Y:%.*]] = phi i32 [ 1, %entry ], [ 1, {{%.*}} ], [ 4, %cont ], [ 4, {{%.*}} ] ; CHECK-NEXT: [[LPADVAL:%.*]] = landingpad { i8*, i32 } ; CHECK-NEXT: catch i8* bitcast (i8** @_ZTIi to i8*) ; CHECK-NEXT: br label %[[LPAD_JOIN2]] ; CHECK: [[LPAD_JOIN2]]: ; CHECK-NEXT: [[XJ2:%.*]] = phi i32 [ [[X]], %[[LPAD]] ], [ 1, %[[RESUME2]] ] ; CHECK-NEXT: [[YJ2:%.*]] = phi i32 [ [[Y]], %[[LPAD]] ], [ 4, %[[RESUME2]] ] ; CHECK-NEXT: [[EXNJ2:%.*]] = phi { i8*, i32 } [ [[LPADVAL]], %[[LPAD]] ], [ [[LPADVAL2]], %[[RESUME2]] ] ; CHECK-NEXT: br label %[[LPAD_JOIN1]] ; CHECK: [[LPAD_JOIN1]]: ; CHECK-NEXT: [[XJ1:%.*]] = phi i32 [ [[XJ2]], %[[LPAD_JOIN2]] ], [ 0, %[[RESUME1]] ] ; CHECK-NEXT: [[YJ1:%.*]] = phi i32 [ [[YJ2]], %[[LPAD_JOIN2]] ], [ 1, %[[RESUME1]] ] ; CHECK-NEXT: [[EXNJ1:%.*]] = phi { i8*, i32 } [ [[EXNJ2]], %[[LPAD_JOIN2]] ], [ [[LPADVAL1]], %[[RESUME1]] ] ; CHECK-NEXT: extractvalue { i8*, i32 } [[EXNJ1]], 0 ; CHECK-NEXT: [[SELJ1:%.*]] = extractvalue { i8*, i32 } [[EXNJ1]], 1 ; CHECK-NEXT: [[T:%.*]] = call i32 @llvm.eh.typeid.for( ; CHECK-NEXT: icmp eq i32 [[SELJ1]], [[T]] ; CHECK: call void @use(i32 [[XJ1]]) ; CHECK: call void @use(i32 [[YJ1]]) ; CHECK: resume { i8*, i32 } ;; Test 2 - Don't make invalid IR for inlines into landing pads without eh.exception calls define void @test2_out() uwtable ssp personality i32 (...)* @__gxx_personality_v0 { entry: invoke void @test0_in() to label %ret unwind label %lpad ret: ret void lpad: %exn = landingpad {i8*, i32} cleanup call void @_ZSt9terminatev() unreachable } ; CHECK: define void @test2_out() ; CHECK: [[A:%.*]] = alloca %struct.A, ; CHECK: [[B:%.*]] = alloca %struct.A, ; CHECK: invoke void @_ZN1AC1Ev(%struct.A* [[A]]) ; CHECK-NEXT: unwind label %[[LPAD:[^\s]+]] ; CHECK: invoke void @_ZN1AC1Ev(%struct.A* [[B]]) ; CHECK-NEXT: unwind label %[[LPAD2:[^\s]+]] ; CHECK: invoke void @_ZN1AD1Ev(%struct.A* [[B]]) ; CHECK-NEXT: unwind label %[[LPAD2]] ; CHECK: invoke void @_ZN1AD1Ev(%struct.A* [[A]]) ; CHECK-NEXT: unwind label %[[LPAD]] ;; Test 3 - Deal correctly with split unwind edges. define void @test3_out() uwtable ssp personality i32 (...)* @__gxx_personality_v0 { entry: invoke void @test0_in() to label %ret unwind label %lpad ret: ret void lpad: %exn = landingpad {i8*, i32} catch i8* bitcast (i8** @_ZTIi to i8*) br label %lpad.cont lpad.cont: call void @_ZSt9terminatev() unreachable } ; CHECK: define void @test3_out() ; CHECK: landingpad { i8*, i32 } ; CHECK-NEXT: cleanup ; CHECK-NEXT: catch i8* bitcast (i8** @_ZTIi to i8*) ; CHECK-NEXT: invoke void @_ZN1AD1Ev( ; CHECK-NEXT: to label %[[L:[^\s]+]] unwind ; CHECK: [[L]]: ; CHECK-NEXT: br label %[[JOIN:[^\s]+]] ; CHECK: [[JOIN]]: ; CHECK-NEXT: phi { i8*, i32 } ; CHECK-NEXT: br label %lpad.cont ; CHECK: lpad.cont: ; CHECK-NEXT: call void @_ZSt9terminatev() ;; Test 4 - Split unwind edges with a dominance problem define void @test4_out() uwtable ssp personality i32 (...)* @__gxx_personality_v0 { entry: invoke void @test0_in() to label %cont unwind label %lpad.crit cont: invoke void @opaque() to label %ret unwind label %lpad ret: ret void lpad.crit: %exn = landingpad {i8*, i32} catch i8* bitcast (i8** @_ZTIi to i8*) call void @opaque() nounwind br label %terminate lpad: %exn2 = landingpad {i8*, i32} catch i8* bitcast (i8** @_ZTIi to i8*) br label %terminate terminate: %phi = phi i32 [ 0, %lpad.crit ], [ 1, %lpad ] call void @use(i32 %phi) call void @_ZSt9terminatev() unreachable } ; CHECK: define void @test4_out() ; CHECK: landingpad { i8*, i32 } ; CHECK-NEXT: cleanup ; CHECK-NEXT: catch i8* bitcast (i8** @_ZTIi to i8*) ; CHECK-NEXT: invoke void @_ZN1AD1Ev( ; CHECK-NEXT: to label %[[L:[^\s]+]] unwind ; CHECK: [[L]]: ; CHECK-NEXT: br label %[[JOIN:[^\s]+]] ; CHECK: invoke void @opaque() ; CHECK-NEXT: unwind label %lpad ; CHECK: lpad.crit: ; CHECK-NEXT: landingpad { i8*, i32 } ; CHECK-NEXT: catch i8* bitcast (i8** @_ZTIi to i8*) ; CHECK-NEXT: br label %[[JOIN]] ; CHECK: [[JOIN]]: ; CHECK-NEXT: phi { i8*, i32 } ; CHECK-NEXT: call void @opaque() [[NUW:#[0-9]+]] ; CHECK-NEXT: br label %[[FIX:[^\s]+]] ; CHECK: lpad: ; CHECK-NEXT: landingpad { i8*, i32 } ; CHECK-NEXT: catch i8* bitcast (i8** @_ZTIi to i8*) ; CHECK-NEXT: br label %[[FIX]] ; CHECK: [[FIX]]: ; CHECK-NEXT: [[T1:%.*]] = phi i32 [ 0, %[[JOIN]] ], [ 1, %lpad ] ; CHECK-NEXT: call void @use(i32 [[T1]]) ; CHECK-NEXT: call void @_ZSt9terminatev() ; CHECK: attributes [[NUW]] = { nounwind } ; CHECK: attributes #1 = { nounwind readnone } ; CHECK: attributes #2 = { ssp uwtable } ; CHECK: attributes #3 = { argmemonly nounwind } ; CHECK: attributes #4 = { noreturn nounwind }