// RUN: %clang_cc1 -triple powerpc64le-unknown-linux-gnu -emit-llvm -o - %s | FileCheck %s --check-prefix=PPC // RUN: %clang_cc1 -mfloat-abi hard -triple armv7-unknown-linux-gnueabi -emit-llvm -o - %s | FileCheck %s --check-prefix=ARM32 // RUN: %clang_cc1 -mfloat-abi hard -triple aarch64-unknown-linux-gnu -emit-llvm -o - %s | FileCheck %s --check-prefix=ARM64 // RUN: %clang_cc1 -mfloat-abi hard -triple x86_64-unknown-windows-gnu -emit-llvm -o - %s | FileCheck %s --check-prefix=X64 // RUN: %clang_cc1 -mfloat-abi hard -triple aarch64-unknown-windows-msvc -emit-llvm -o - %s | FileCheck %s --check-prefix=WOA64 #if defined(__x86_64__) #define CC __attribute__((vectorcall)) #else #define CC #endif // Test that C++ classes are correctly classified as homogeneous aggregates. struct Base1 { int x; }; struct Base2 { double x; }; struct Base3 { double x; }; struct D1 : Base1 { // non-homogeneous aggregate double y, z; }; struct D2 : Base2 { // homogeneous aggregate double y, z; }; struct D3 : Base1, Base2 { // non-homogeneous aggregate double y, z; }; struct D4 : Base2, Base3 { // homogeneous aggregate double y, z; }; struct I1 : Base2 {}; struct I2 : Base2 {}; struct I3 : Base2 {}; struct D5 : I1, I2, I3 {}; // homogeneous aggregate // PPC: define{{.*}} void @_Z7func_D12D1(ptr dead_on_unwind noalias writable sret(%struct.D1) align 8 %agg.result, [3 x i64] %x.coerce) // ARM32: define{{.*}} arm_aapcs_vfpcc void @_Z7func_D12D1(ptr dead_on_unwind noalias writable sret(%struct.D1) align 8 %agg.result, [3 x i64] %x.coerce) // ARM64: define{{.*}} void @_Z7func_D12D1(ptr dead_on_unwind noalias writable sret(%struct.D1) align 8 %agg.result, ptr noundef %x) // X64: define dso_local x86_vectorcallcc void @"\01_Z7func_D12D1@@24"(ptr dead_on_unwind noalias writable sret(%struct.D1) align 8 %agg.result, ptr noundef %x) D1 CC func_D1(D1 x) { return x; } // PPC: define{{.*}} [3 x double] @_Z7func_D22D2([3 x double] %x.coerce) // ARM32: define{{.*}} arm_aapcs_vfpcc %struct.D2 @_Z7func_D22D2(%struct.D2 %x.coerce) // ARM64: define{{.*}} %struct.D2 @_Z7func_D22D2([3 x double] alignstack(8) %x.coerce) // X64: define dso_local x86_vectorcallcc %struct.D2 @"\01_Z7func_D22D2@@24"(%struct.D2 inreg %x.coerce) D2 CC func_D2(D2 x) { return x; } // PPC: define{{.*}} void @_Z7func_D32D3(ptr dead_on_unwind noalias writable sret(%struct.D3) align 8 %agg.result, [4 x i64] %x.coerce) // ARM32: define{{.*}} arm_aapcs_vfpcc void @_Z7func_D32D3(ptr dead_on_unwind noalias writable sret(%struct.D3) align 8 %agg.result, [4 x i64] %x.coerce) // ARM64: define{{.*}} void @_Z7func_D32D3(ptr dead_on_unwind noalias writable sret(%struct.D3) align 8 %agg.result, ptr noundef %x) D3 CC func_D3(D3 x) { return x; } // PPC: define{{.*}} [4 x double] @_Z7func_D42D4([4 x double] %x.coerce) // ARM32: define{{.*}} arm_aapcs_vfpcc %struct.D4 @_Z7func_D42D4(%struct.D4 %x.coerce) // ARM64: define{{.*}} %struct.D4 @_Z7func_D42D4([4 x double] alignstack(8) %x.coerce) D4 CC func_D4(D4 x) { return x; } D5 CC func_D5(D5 x) { return x; } // PPC: define{{.*}} [3 x double] @_Z7func_D52D5([3 x double] %x.coerce) // ARM32: define{{.*}} arm_aapcs_vfpcc %struct.D5 @_Z7func_D52D5(%struct.D5 %x.coerce) // The C++ multiple inheritance expansion case is a little more complicated, so // do some extra checking. // // ARM64-LABEL: define{{.*}} %struct.D5 @_Z7func_D52D5([3 x double] alignstack(8) %x.coerce) // ARM64: store [3 x double] %x.coerce, ptr void call_D5(D5 *p) { func_D5(*p); } // Check the call site. // // ARM64-LABEL: define{{.*}} void @_Z7call_D5P2D5(ptr noundef %p) // ARM64: load [3 x double], ptr // ARM64: call %struct.D5 @_Z7func_D52D5([3 x double] alignstack(8) %{{.*}}) struct Empty { }; struct Float1 { float x; }; struct Float2 { float y; }; struct HVAWithEmptyBase : Float1, Empty, Float2 { float z; }; // PPC: define{{.*}} void @_Z15with_empty_base16HVAWithEmptyBase([3 x float] %a.coerce) // ARM64: define{{.*}} void @_Z15with_empty_base16HVAWithEmptyBase([3 x float] alignstack(8) %a.coerce) // ARM32: define{{.*}} arm_aapcs_vfpcc void @_Z15with_empty_base16HVAWithEmptyBase(%struct.HVAWithEmptyBase %a.coerce) void CC with_empty_base(HVAWithEmptyBase a) {} // WOA64: define dso_local void @"?with_empty_base@@YAXUHVAWithEmptyBase@@@Z"([2 x i64] %{{.*}}) // X64: define dso_local x86_vectorcallcc void @"\01_Z15with_empty_base16HVAWithEmptyBase@@16"(%struct.HVAWithEmptyBase inreg %a.coerce) struct HVAWithEmptyBitField : Float1, Float2 { int : 0; // Takes no space. float z; }; // PPC: define{{.*}} void @_Z19with_empty_bitfield20HVAWithEmptyBitField([3 x float] %a.coerce) // ARM64: define{{.*}} void @_Z19with_empty_bitfield20HVAWithEmptyBitField([3 x float] alignstack(8) %a.coerce) // ARM32: define{{.*}} arm_aapcs_vfpcc void @_Z19with_empty_bitfield20HVAWithEmptyBitField(%struct.HVAWithEmptyBitField %a.coerce) // X64: define dso_local x86_vectorcallcc void @"\01_Z19with_empty_bitfield20HVAWithEmptyBitField@@16"(%struct.HVAWithEmptyBitField inreg %a.coerce) void CC with_empty_bitfield(HVAWithEmptyBitField a) {} namespace pr47611 { // MSVC on Arm includes "isCXX14Aggregate" as part of its definition of // Homogeneous Floating-point Aggregate (HFA). Additionally, it has a different // handling of C++14 aggregates, which can lead to confusion. // Pod is a trivial HFA. struct Pod { double b[2]; }; // Not an aggregate according to C++14 spec => not HFA according to MSVC. struct NotCXX14Aggregate { NotCXX14Aggregate(); Pod p; }; // NotPod is a C++14 aggregate. But not HFA, because it contains // NotCXX14Aggregate (which itself is not HFA because it's not a C++14 // aggregate). struct NotPod { NotCXX14Aggregate x; }; struct Empty {}; // A class with a base is returned using the sret calling convetion by MSVC. struct HasEmptyBase : public Empty { double b[2]; }; struct HasPodBase : public Pod {}; // WOA64-LABEL: define dso_local %"struct.pr47611::Pod" @"?copy@pr47611@@YA?AUPod@1@PEAU21@@Z"(ptr noundef %x) Pod copy(Pod *x) { return *x; } // MSVC: ldp d0,d1,[x0], Clang: ldp d0,d1,[x0] // WOA64-LABEL: define dso_local void @"?copy@pr47611@@YA?AUNotCXX14Aggregate@1@PEAU21@@Z"(ptr dead_on_unwind inreg noalias writable sret(%"struct.pr47611::NotCXX14Aggregate") align 8 %agg.result, ptr noundef %x) NotCXX14Aggregate copy(NotCXX14Aggregate *x) { return *x; } // MSVC: stp x8,x9,[x0], Clang: str q0,[x0] // WOA64-LABEL: define dso_local [2 x i64] @"?copy@pr47611@@YA?AUNotPod@1@PEAU21@@Z"(ptr noundef %x) NotPod copy(NotPod *x) { return *x; } // WOA64-LABEL: define dso_local void @"?copy@pr47611@@YA?AUHasEmptyBase@1@PEAU21@@Z"(ptr dead_on_unwind inreg noalias writable sret(%"struct.pr47611::HasEmptyBase") align 8 %agg.result, ptr noundef %x) HasEmptyBase copy(HasEmptyBase *x) { return *x; } // WOA64-LABEL: define dso_local void @"?copy@pr47611@@YA?AUHasPodBase@1@PEAU21@@Z"(ptr dead_on_unwind inreg noalias writable sret(%"struct.pr47611::HasPodBase") align 8 %agg.result, ptr noundef %x) HasPodBase copy(HasPodBase *x) { return *x; } void call_copy_pod(Pod *pod) { *pod = copy(pod); // WOA64-LABEL: define dso_local void @"?call_copy_pod@pr47611@@YAXPEAUPod@1@@Z" // WOA64: %{{.*}} = call %"struct.pr47611::Pod" @"?copy@pr47611@@YA?AUPod@1@PEAU21@@Z"(ptr noundef %{{.*}}) } void call_copy_notcxx14aggregate(NotCXX14Aggregate *notcxx14aggregate) { *notcxx14aggregate = copy(notcxx14aggregate); // WOA64-LABEL: define dso_local void @"?call_copy_notcxx14aggregate@pr47611@@YAXPEAUNotCXX14Aggregate@1@@Z" // WOA64: call void @"?copy@pr47611@@YA?AUNotCXX14Aggregate@1@PEAU21@@Z"(ptr dead_on_unwind inreg writable sret(%"struct.pr47611::NotCXX14Aggregate") align 8 %{{.*}}, ptr noundef %{{.*}}) } void call_copy_notpod(NotPod *notPod) { *notPod = copy(notPod); // WOA64-LABEL: define dso_local void @"?call_copy_notpod@pr47611@@YAXPEAUNotPod@1@@Z" // WOA64: %{{.*}} = call [2 x i64] @"?copy@pr47611@@YA?AUNotPod@1@PEAU21@@Z"(ptr noundef %{{.*}}) } void call_copy_hasemptybase(HasEmptyBase *hasEmptyBase) { *hasEmptyBase = copy(hasEmptyBase); // WOA64-LABEL: define dso_local void @"?call_copy_hasemptybase@pr47611@@YAXPEAUHasEmptyBase@1@@Z" // WOA64: call void @"?copy@pr47611@@YA?AUHasEmptyBase@1@PEAU21@@Z"(ptr dead_on_unwind inreg writable sret(%"struct.pr47611::HasEmptyBase") align 8 %{{.*}}, ptr noundef %{{.*}}) } void call_copy_haspodbase(HasPodBase *hasPodBase) { *hasPodBase = copy(hasPodBase); // WOA64-LABEL: define dso_local void @"?call_copy_haspodbase@pr47611@@YAXPEAUHasPodBase@1@@Z" // WOA64: call void @"?copy@pr47611@@YA?AUHasPodBase@1@PEAU21@@Z"(ptr dead_on_unwind inreg writable sret(%"struct.pr47611::HasPodBase") align 8 %{{.*}}, ptr noundef %{{.*}}) } } // namespace pr47611 namespace protected_member { struct HFA { double x; double y; protected: double z; }; double foo(HFA v) { return v.x + v.y; } // WOA64: define dso_local noundef double @"?foo@protected_member@@YANUHFA@1@@Z"([3 x double] %{{.*}}) } namespace private_member { struct HFA { double x; double y; private: double z; }; double foo(HFA v) { return v.x + v.y; } // WOA64: define dso_local noundef double @"?foo@private_member@@YANUHFA@1@@Z"([3 x double] %{{.*}}) } namespace polymorphic { struct NonHFA { double x; double y; double z; virtual void f1(); }; double foo(NonHFA v) { return v.x + v.y; } // WOA64: define dso_local noundef double @"?foo@polymorphic@@YANUNonHFA@1@@Z"(ptr noundef %{{.*}}) } namespace trivial_copy_assignment { struct HFA { double x; double y; double z; HFA &operator=(const HFA&) = default; }; double foo(HFA v) { return v.x + v.y; } // WOA64: define dso_local noundef double @"?foo@trivial_copy_assignment@@YANUHFA@1@@Z"([3 x double] %{{.*}}) } namespace non_trivial_copy_assignment { struct NonHFA { double x; double y; double z; NonHFA &operator=(const NonHFA&); }; double foo(NonHFA v) { return v.x + v.y; } // WOA64: define dso_local noundef double @"?foo@non_trivial_copy_assignment@@YANUNonHFA@1@@Z"(ptr noundef %{{.*}}) } namespace user_provided_ctor { struct HFA { double x; double y; double z; HFA(int); }; double foo(HFA v) { return v.x + v.y; } // WOA64: define dso_local noundef double @"?foo@user_provided_ctor@@YANUHFA@1@@Z"([3 x double] %{{.*}}) } namespace trivial_dtor { struct HFA { double x; double y; double z; ~HFA() = default; }; double foo(HFA v) { return v.x + v.y; } // WOA64: define dso_local noundef double @"?foo@trivial_dtor@@YANUHFA@1@@Z"([3 x double] %{{.*}}) } namespace non_trivial_dtor { struct NonHFA { double x; double y; double z; ~NonHFA(); }; double foo(NonHFA v) { return v.x + v.y; } // WOA64: define dso_local noundef double @"?foo@non_trivial_dtor@@YANUNonHFA@1@@Z"(ptr noundef %{{.*}}) } namespace non_empty_base { struct non_empty_base { double d; }; struct HFA : non_empty_base { double x; double y; double z; }; double foo(HFA v) { return v.x + v.y; } // WOA64: define dso_local noundef double @"?foo@non_empty_base@@YANUHFA@1@@Z"([4 x double] %{{.*}}) } namespace empty_field { struct empty { }; struct NonHFA { double x; double y; double z; empty e; }; double foo(NonHFA v) { return v.x + v.y; } // WOA64: define dso_local noundef double @"?foo@empty_field@@YANUNonHFA@1@@Z"(ptr noundef %{{.*}}) } namespace non_empty_field { struct non_empty { double d; }; struct HFA { double x; double y; double z; non_empty e; }; double foo(HFA v) { return v.x + v.y; } // WOA64: define dso_local noundef double @"?foo@non_empty_field@@YANUHFA@1@@Z"([4 x double] %{{.*}}) } namespace pr62223 { // HVAs don't follow the normal rules for return values. That means they can // have base classes, user-defined ctors, and protected/private members. // (The same restrictions that apply to HVA arguments still apply.) typedef double V __attribute((ext_vector_type(2))); struct base { V v; }; struct test : base { test(double); protected: V v2;}; test f(test *x) { return *x; } // WOA64: define dso_local %"struct.pr62223::test" @"?f@pr62223@@YA?AUtest@1@PEAU21@@Z"(ptr noundef %{{.*}}) // The above rule only apples to HVAs, not HFAs. struct base2 { double v; }; struct test2 : base2 { test2(double); protected: double v2;}; test2 f(test2 *x) { return *x; } // WOA64: define dso_local void @"?f@pr62223@@YA?AUtest2@1@PEAU21@@Z"(ptr dead_on_unwind inreg noalias writable sret(%"struct.pr62223::test2") align 8 %{{.*}}, ptr noundef %{{.*}}) }