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Diffstat (limited to 'contrib/llvm-project/clang/lib/CodeGen/CGObjCMac.cpp')
| -rw-r--r-- | contrib/llvm-project/clang/lib/CodeGen/CGObjCMac.cpp | 7777 |
1 files changed, 7777 insertions, 0 deletions
diff --git a/contrib/llvm-project/clang/lib/CodeGen/CGObjCMac.cpp b/contrib/llvm-project/clang/lib/CodeGen/CGObjCMac.cpp new file mode 100644 index 000000000000..12880fecbadf --- /dev/null +++ b/contrib/llvm-project/clang/lib/CodeGen/CGObjCMac.cpp @@ -0,0 +1,7777 @@ +//===------- CGObjCMac.cpp - Interface to Apple Objective-C Runtime -------===// +// +// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. +// See https://llvm.org/LICENSE.txt for license information. +// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception +// +//===----------------------------------------------------------------------===// +// +// This provides Objective-C code generation targeting the Apple runtime. +// +//===----------------------------------------------------------------------===// + +#include "CGBlocks.h" +#include "CGCleanup.h" +#include "CGObjCRuntime.h" +#include "CGRecordLayout.h" +#include "CodeGenFunction.h" +#include "CodeGenModule.h" +#include "clang/CodeGen/ConstantInitBuilder.h" +#include "clang/AST/ASTContext.h" +#include "clang/AST/Decl.h" +#include "clang/AST/DeclObjC.h" +#include "clang/AST/RecordLayout.h" +#include "clang/AST/StmtObjC.h" +#include "clang/Basic/CodeGenOptions.h" +#include "clang/Basic/LangOptions.h" +#include "clang/CodeGen/CGFunctionInfo.h" +#include "llvm/ADT/CachedHashString.h" +#include "llvm/ADT/DenseSet.h" +#include "llvm/ADT/SetVector.h" +#include "llvm/ADT/SmallPtrSet.h" +#include "llvm/ADT/SmallString.h" +#include "llvm/IR/DataLayout.h" +#include "llvm/IR/InlineAsm.h" +#include "llvm/IR/IntrinsicInst.h" +#include "llvm/IR/LLVMContext.h" +#include "llvm/IR/Module.h" +#include "llvm/Support/ScopedPrinter.h" +#include "llvm/Support/raw_ostream.h" +#include <cstdio> + +using namespace clang; +using namespace CodeGen; + +namespace { + +// FIXME: We should find a nicer way to make the labels for metadata, string +// concatenation is lame. + +class ObjCCommonTypesHelper { +protected: + llvm::LLVMContext &VMContext; + +private: + // The types of these functions don't really matter because we + // should always bitcast before calling them. + + /// id objc_msgSend (id, SEL, ...) + /// + /// The default messenger, used for sends whose ABI is unchanged from + /// the all-integer/pointer case. + llvm::FunctionCallee getMessageSendFn() const { + // Add the non-lazy-bind attribute, since objc_msgSend is likely to + // be called a lot. + llvm::Type *params[] = { ObjectPtrTy, SelectorPtrTy }; + return CGM.CreateRuntimeFunction( + llvm::FunctionType::get(ObjectPtrTy, params, true), "objc_msgSend", + llvm::AttributeList::get(CGM.getLLVMContext(), + llvm::AttributeList::FunctionIndex, + llvm::Attribute::NonLazyBind)); + } + + /// void objc_msgSend_stret (id, SEL, ...) + /// + /// The messenger used when the return value is an aggregate returned + /// by indirect reference in the first argument, and therefore the + /// self and selector parameters are shifted over by one. + llvm::FunctionCallee getMessageSendStretFn() const { + llvm::Type *params[] = { ObjectPtrTy, SelectorPtrTy }; + return CGM.CreateRuntimeFunction(llvm::FunctionType::get(CGM.VoidTy, + params, true), + "objc_msgSend_stret"); + } + + /// [double | long double] objc_msgSend_fpret(id self, SEL op, ...) + /// + /// The messenger used when the return value is returned on the x87 + /// floating-point stack; without a special entrypoint, the nil case + /// would be unbalanced. + llvm::FunctionCallee getMessageSendFpretFn() const { + llvm::Type *params[] = { ObjectPtrTy, SelectorPtrTy }; + return CGM.CreateRuntimeFunction(llvm::FunctionType::get(CGM.DoubleTy, + params, true), + "objc_msgSend_fpret"); + } + + /// _Complex long double objc_msgSend_fp2ret(id self, SEL op, ...) + /// + /// The messenger used when the return value is returned in two values on the + /// x87 floating point stack; without a special entrypoint, the nil case + /// would be unbalanced. Only used on 64-bit X86. + llvm::FunctionCallee getMessageSendFp2retFn() const { + llvm::Type *params[] = { ObjectPtrTy, SelectorPtrTy }; + llvm::Type *longDoubleType = llvm::Type::getX86_FP80Ty(VMContext); + llvm::Type *resultType = + llvm::StructType::get(longDoubleType, longDoubleType); + + return CGM.CreateRuntimeFunction(llvm::FunctionType::get(resultType, + params, true), + "objc_msgSend_fp2ret"); + } + + /// id objc_msgSendSuper(struct objc_super *super, SEL op, ...) + /// + /// The messenger used for super calls, which have different dispatch + /// semantics. The class passed is the superclass of the current + /// class. + llvm::FunctionCallee getMessageSendSuperFn() const { + llvm::Type *params[] = { SuperPtrTy, SelectorPtrTy }; + return CGM.CreateRuntimeFunction(llvm::FunctionType::get(ObjectPtrTy, + params, true), + "objc_msgSendSuper"); + } + + /// id objc_msgSendSuper2(struct objc_super *super, SEL op, ...) + /// + /// A slightly different messenger used for super calls. The class + /// passed is the current class. + llvm::FunctionCallee getMessageSendSuperFn2() const { + llvm::Type *params[] = { SuperPtrTy, SelectorPtrTy }; + return CGM.CreateRuntimeFunction(llvm::FunctionType::get(ObjectPtrTy, + params, true), + "objc_msgSendSuper2"); + } + + /// void objc_msgSendSuper_stret(void *stretAddr, struct objc_super *super, + /// SEL op, ...) + /// + /// The messenger used for super calls which return an aggregate indirectly. + llvm::FunctionCallee getMessageSendSuperStretFn() const { + llvm::Type *params[] = { Int8PtrTy, SuperPtrTy, SelectorPtrTy }; + return CGM.CreateRuntimeFunction( + llvm::FunctionType::get(CGM.VoidTy, params, true), + "objc_msgSendSuper_stret"); + } + + /// void objc_msgSendSuper2_stret(void * stretAddr, struct objc_super *super, + /// SEL op, ...) + /// + /// objc_msgSendSuper_stret with the super2 semantics. + llvm::FunctionCallee getMessageSendSuperStretFn2() const { + llvm::Type *params[] = { Int8PtrTy, SuperPtrTy, SelectorPtrTy }; + return CGM.CreateRuntimeFunction( + llvm::FunctionType::get(CGM.VoidTy, params, true), + "objc_msgSendSuper2_stret"); + } + + llvm::FunctionCallee getMessageSendSuperFpretFn() const { + // There is no objc_msgSendSuper_fpret? How can that work? + return getMessageSendSuperFn(); + } + + llvm::FunctionCallee getMessageSendSuperFpretFn2() const { + // There is no objc_msgSendSuper_fpret? How can that work? + return getMessageSendSuperFn2(); + } + +protected: + CodeGen::CodeGenModule &CGM; + +public: + llvm::IntegerType *ShortTy, *IntTy, *LongTy; + llvm::PointerType *Int8PtrTy, *Int8PtrPtrTy; + llvm::Type *IvarOffsetVarTy; + + /// ObjectPtrTy - LLVM type for object handles (typeof(id)) + llvm::PointerType *ObjectPtrTy; + + /// PtrObjectPtrTy - LLVM type for id * + llvm::PointerType *PtrObjectPtrTy; + + /// SelectorPtrTy - LLVM type for selector handles (typeof(SEL)) + llvm::PointerType *SelectorPtrTy; + +private: + /// ProtocolPtrTy - LLVM type for external protocol handles + /// (typeof(Protocol)) + llvm::Type *ExternalProtocolPtrTy; + +public: + llvm::Type *getExternalProtocolPtrTy() { + if (!ExternalProtocolPtrTy) { + // FIXME: It would be nice to unify this with the opaque type, so that the + // IR comes out a bit cleaner. + CodeGen::CodeGenTypes &Types = CGM.getTypes(); + ASTContext &Ctx = CGM.getContext(); + llvm::Type *T = Types.ConvertType(Ctx.getObjCProtoType()); + ExternalProtocolPtrTy = llvm::PointerType::getUnqual(T); + } + + return ExternalProtocolPtrTy; + } + + // SuperCTy - clang type for struct objc_super. + QualType SuperCTy; + // SuperPtrCTy - clang type for struct objc_super *. + QualType SuperPtrCTy; + + /// SuperTy - LLVM type for struct objc_super. + llvm::StructType *SuperTy; + /// SuperPtrTy - LLVM type for struct objc_super *. + llvm::PointerType *SuperPtrTy; + + /// PropertyTy - LLVM type for struct objc_property (struct _prop_t + /// in GCC parlance). + llvm::StructType *PropertyTy; + + /// PropertyListTy - LLVM type for struct objc_property_list + /// (_prop_list_t in GCC parlance). + llvm::StructType *PropertyListTy; + /// PropertyListPtrTy - LLVM type for struct objc_property_list*. + llvm::PointerType *PropertyListPtrTy; + + // MethodTy - LLVM type for struct objc_method. + llvm::StructType *MethodTy; + + /// CacheTy - LLVM type for struct objc_cache. + llvm::Type *CacheTy; + /// CachePtrTy - LLVM type for struct objc_cache *. + llvm::PointerType *CachePtrTy; + + llvm::FunctionCallee getGetPropertyFn() { + CodeGen::CodeGenTypes &Types = CGM.getTypes(); + ASTContext &Ctx = CGM.getContext(); + // id objc_getProperty (id, SEL, ptrdiff_t, bool) + CanQualType IdType = Ctx.getCanonicalParamType(Ctx.getObjCIdType()); + CanQualType SelType = Ctx.getCanonicalParamType(Ctx.getObjCSelType()); + CanQualType Params[] = { + IdType, SelType, + Ctx.getPointerDiffType()->getCanonicalTypeUnqualified(), Ctx.BoolTy}; + llvm::FunctionType *FTy = + Types.GetFunctionType( + Types.arrangeBuiltinFunctionDeclaration(IdType, Params)); + return CGM.CreateRuntimeFunction(FTy, "objc_getProperty"); + } + + llvm::FunctionCallee getSetPropertyFn() { + CodeGen::CodeGenTypes &Types = CGM.getTypes(); + ASTContext &Ctx = CGM.getContext(); + // void objc_setProperty (id, SEL, ptrdiff_t, id, bool, bool) + CanQualType IdType = Ctx.getCanonicalParamType(Ctx.getObjCIdType()); + CanQualType SelType = Ctx.getCanonicalParamType(Ctx.getObjCSelType()); + CanQualType Params[] = { + IdType, + SelType, + Ctx.getPointerDiffType()->getCanonicalTypeUnqualified(), + IdType, + Ctx.BoolTy, + Ctx.BoolTy}; + llvm::FunctionType *FTy = + Types.GetFunctionType( + Types.arrangeBuiltinFunctionDeclaration(Ctx.VoidTy, Params)); + return CGM.CreateRuntimeFunction(FTy, "objc_setProperty"); + } + + llvm::FunctionCallee getOptimizedSetPropertyFn(bool atomic, bool copy) { + CodeGen::CodeGenTypes &Types = CGM.getTypes(); + ASTContext &Ctx = CGM.getContext(); + // void objc_setProperty_atomic(id self, SEL _cmd, + // id newValue, ptrdiff_t offset); + // void objc_setProperty_nonatomic(id self, SEL _cmd, + // id newValue, ptrdiff_t offset); + // void objc_setProperty_atomic_copy(id self, SEL _cmd, + // id newValue, ptrdiff_t offset); + // void objc_setProperty_nonatomic_copy(id self, SEL _cmd, + // id newValue, ptrdiff_t offset); + + SmallVector<CanQualType,4> Params; + CanQualType IdType = Ctx.getCanonicalParamType(Ctx.getObjCIdType()); + CanQualType SelType = Ctx.getCanonicalParamType(Ctx.getObjCSelType()); + Params.push_back(IdType); + Params.push_back(SelType); + Params.push_back(IdType); + Params.push_back(Ctx.getPointerDiffType()->getCanonicalTypeUnqualified()); + llvm::FunctionType *FTy = + Types.GetFunctionType( + Types.arrangeBuiltinFunctionDeclaration(Ctx.VoidTy, Params)); + const char *name; + if (atomic && copy) + name = "objc_setProperty_atomic_copy"; + else if (atomic && !copy) + name = "objc_setProperty_atomic"; + else if (!atomic && copy) + name = "objc_setProperty_nonatomic_copy"; + else + name = "objc_setProperty_nonatomic"; + + return CGM.CreateRuntimeFunction(FTy, name); + } + + llvm::FunctionCallee getCopyStructFn() { + CodeGen::CodeGenTypes &Types = CGM.getTypes(); + ASTContext &Ctx = CGM.getContext(); + // void objc_copyStruct (void *, const void *, size_t, bool, bool) + SmallVector<CanQualType,5> Params; + Params.push_back(Ctx.VoidPtrTy); + Params.push_back(Ctx.VoidPtrTy); + Params.push_back(Ctx.getSizeType()); + Params.push_back(Ctx.BoolTy); + Params.push_back(Ctx.BoolTy); + llvm::FunctionType *FTy = + Types.GetFunctionType( + Types.arrangeBuiltinFunctionDeclaration(Ctx.VoidTy, Params)); + return CGM.CreateRuntimeFunction(FTy, "objc_copyStruct"); + } + + /// This routine declares and returns address of: + /// void objc_copyCppObjectAtomic( + /// void *dest, const void *src, + /// void (*copyHelper) (void *dest, const void *source)); + llvm::FunctionCallee getCppAtomicObjectFunction() { + CodeGen::CodeGenTypes &Types = CGM.getTypes(); + ASTContext &Ctx = CGM.getContext(); + /// void objc_copyCppObjectAtomic(void *dest, const void *src, void *helper); + SmallVector<CanQualType,3> Params; + Params.push_back(Ctx.VoidPtrTy); + Params.push_back(Ctx.VoidPtrTy); + Params.push_back(Ctx.VoidPtrTy); + llvm::FunctionType *FTy = + Types.GetFunctionType( + Types.arrangeBuiltinFunctionDeclaration(Ctx.VoidTy, Params)); + return CGM.CreateRuntimeFunction(FTy, "objc_copyCppObjectAtomic"); + } + + llvm::FunctionCallee getEnumerationMutationFn() { + CodeGen::CodeGenTypes &Types = CGM.getTypes(); + ASTContext &Ctx = CGM.getContext(); + // void objc_enumerationMutation (id) + SmallVector<CanQualType,1> Params; + Params.push_back(Ctx.getCanonicalParamType(Ctx.getObjCIdType())); + llvm::FunctionType *FTy = + Types.GetFunctionType( + Types.arrangeBuiltinFunctionDeclaration(Ctx.VoidTy, Params)); + return CGM.CreateRuntimeFunction(FTy, "objc_enumerationMutation"); + } + + llvm::FunctionCallee getLookUpClassFn() { + CodeGen::CodeGenTypes &Types = CGM.getTypes(); + ASTContext &Ctx = CGM.getContext(); + // Class objc_lookUpClass (const char *) + SmallVector<CanQualType,1> Params; + Params.push_back( + Ctx.getCanonicalType(Ctx.getPointerType(Ctx.CharTy.withConst()))); + llvm::FunctionType *FTy = + Types.GetFunctionType(Types.arrangeBuiltinFunctionDeclaration( + Ctx.getCanonicalType(Ctx.getObjCClassType()), + Params)); + return CGM.CreateRuntimeFunction(FTy, "objc_lookUpClass"); + } + + /// GcReadWeakFn -- LLVM objc_read_weak (id *src) function. + llvm::FunctionCallee getGcReadWeakFn() { + // id objc_read_weak (id *) + llvm::Type *args[] = { ObjectPtrTy->getPointerTo() }; + llvm::FunctionType *FTy = + llvm::FunctionType::get(ObjectPtrTy, args, false); + return CGM.CreateRuntimeFunction(FTy, "objc_read_weak"); + } + + /// GcAssignWeakFn -- LLVM objc_assign_weak function. + llvm::FunctionCallee getGcAssignWeakFn() { + // id objc_assign_weak (id, id *) + llvm::Type *args[] = { ObjectPtrTy, ObjectPtrTy->getPointerTo() }; + llvm::FunctionType *FTy = + llvm::FunctionType::get(ObjectPtrTy, args, false); + return CGM.CreateRuntimeFunction(FTy, "objc_assign_weak"); + } + + /// GcAssignGlobalFn -- LLVM objc_assign_global function. + llvm::FunctionCallee getGcAssignGlobalFn() { + // id objc_assign_global(id, id *) + llvm::Type *args[] = { ObjectPtrTy, ObjectPtrTy->getPointerTo() }; + llvm::FunctionType *FTy = + llvm::FunctionType::get(ObjectPtrTy, args, false); + return CGM.CreateRuntimeFunction(FTy, "objc_assign_global"); + } + + /// GcAssignThreadLocalFn -- LLVM objc_assign_threadlocal function. + llvm::FunctionCallee getGcAssignThreadLocalFn() { + // id objc_assign_threadlocal(id src, id * dest) + llvm::Type *args[] = { ObjectPtrTy, ObjectPtrTy->getPointerTo() }; + llvm::FunctionType *FTy = + llvm::FunctionType::get(ObjectPtrTy, args, false); + return CGM.CreateRuntimeFunction(FTy, "objc_assign_threadlocal"); + } + + /// GcAssignIvarFn -- LLVM objc_assign_ivar function. + llvm::FunctionCallee getGcAssignIvarFn() { + // id objc_assign_ivar(id, id *, ptrdiff_t) + llvm::Type *args[] = { ObjectPtrTy, ObjectPtrTy->getPointerTo(), + CGM.PtrDiffTy }; + llvm::FunctionType *FTy = + llvm::FunctionType::get(ObjectPtrTy, args, false); + return CGM.CreateRuntimeFunction(FTy, "objc_assign_ivar"); + } + + /// GcMemmoveCollectableFn -- LLVM objc_memmove_collectable function. + llvm::FunctionCallee GcMemmoveCollectableFn() { + // void *objc_memmove_collectable(void *dst, const void *src, size_t size) + llvm::Type *args[] = { Int8PtrTy, Int8PtrTy, LongTy }; + llvm::FunctionType *FTy = llvm::FunctionType::get(Int8PtrTy, args, false); + return CGM.CreateRuntimeFunction(FTy, "objc_memmove_collectable"); + } + + /// GcAssignStrongCastFn -- LLVM objc_assign_strongCast function. + llvm::FunctionCallee getGcAssignStrongCastFn() { + // id objc_assign_strongCast(id, id *) + llvm::Type *args[] = { ObjectPtrTy, ObjectPtrTy->getPointerTo() }; + llvm::FunctionType *FTy = + llvm::FunctionType::get(ObjectPtrTy, args, false); + return CGM.CreateRuntimeFunction(FTy, "objc_assign_strongCast"); + } + + /// ExceptionThrowFn - LLVM objc_exception_throw function. + llvm::FunctionCallee getExceptionThrowFn() { + // void objc_exception_throw(id) + llvm::Type *args[] = { ObjectPtrTy }; + llvm::FunctionType *FTy = + llvm::FunctionType::get(CGM.VoidTy, args, false); + return CGM.CreateRuntimeFunction(FTy, "objc_exception_throw"); + } + + /// ExceptionRethrowFn - LLVM objc_exception_rethrow function. + llvm::FunctionCallee getExceptionRethrowFn() { + // void objc_exception_rethrow(void) + llvm::FunctionType *FTy = llvm::FunctionType::get(CGM.VoidTy, false); + return CGM.CreateRuntimeFunction(FTy, "objc_exception_rethrow"); + } + + /// SyncEnterFn - LLVM object_sync_enter function. + llvm::FunctionCallee getSyncEnterFn() { + // int objc_sync_enter (id) + llvm::Type *args[] = { ObjectPtrTy }; + llvm::FunctionType *FTy = + llvm::FunctionType::get(CGM.IntTy, args, false); + return CGM.CreateRuntimeFunction(FTy, "objc_sync_enter"); + } + + /// SyncExitFn - LLVM object_sync_exit function. + llvm::FunctionCallee getSyncExitFn() { + // int objc_sync_exit (id) + llvm::Type *args[] = { ObjectPtrTy }; + llvm::FunctionType *FTy = + llvm::FunctionType::get(CGM.IntTy, args, false); + return CGM.CreateRuntimeFunction(FTy, "objc_sync_exit"); + } + + llvm::FunctionCallee getSendFn(bool IsSuper) const { + return IsSuper ? getMessageSendSuperFn() : getMessageSendFn(); + } + + llvm::FunctionCallee getSendFn2(bool IsSuper) const { + return IsSuper ? getMessageSendSuperFn2() : getMessageSendFn(); + } + + llvm::FunctionCallee getSendStretFn(bool IsSuper) const { + return IsSuper ? getMessageSendSuperStretFn() : getMessageSendStretFn(); + } + + llvm::FunctionCallee getSendStretFn2(bool IsSuper) const { + return IsSuper ? getMessageSendSuperStretFn2() : getMessageSendStretFn(); + } + + llvm::FunctionCallee getSendFpretFn(bool IsSuper) const { + return IsSuper ? getMessageSendSuperFpretFn() : getMessageSendFpretFn(); + } + + llvm::FunctionCallee getSendFpretFn2(bool IsSuper) const { + return IsSuper ? getMessageSendSuperFpretFn2() : getMessageSendFpretFn(); + } + + llvm::FunctionCallee getSendFp2retFn(bool IsSuper) const { + return IsSuper ? getMessageSendSuperFn() : getMessageSendFp2retFn(); + } + + llvm::FunctionCallee getSendFp2RetFn2(bool IsSuper) const { + return IsSuper ? getMessageSendSuperFn2() : getMessageSendFp2retFn(); + } + + ObjCCommonTypesHelper(CodeGen::CodeGenModule &cgm); +}; + +/// ObjCTypesHelper - Helper class that encapsulates lazy +/// construction of varies types used during ObjC generation. +class ObjCTypesHelper : public ObjCCommonTypesHelper { +public: + /// SymtabTy - LLVM type for struct objc_symtab. + llvm::StructType *SymtabTy; + /// SymtabPtrTy - LLVM type for struct objc_symtab *. + llvm::PointerType *SymtabPtrTy; + /// ModuleTy - LLVM type for struct objc_module. + llvm::StructType *ModuleTy; + + /// ProtocolTy - LLVM type for struct objc_protocol. + llvm::StructType *ProtocolTy; + /// ProtocolPtrTy - LLVM type for struct objc_protocol *. + llvm::PointerType *ProtocolPtrTy; + /// ProtocolExtensionTy - LLVM type for struct + /// objc_protocol_extension. + llvm::StructType *ProtocolExtensionTy; + /// ProtocolExtensionTy - LLVM type for struct + /// objc_protocol_extension *. + llvm::PointerType *ProtocolExtensionPtrTy; + /// MethodDescriptionTy - LLVM type for struct + /// objc_method_description. + llvm::StructType *MethodDescriptionTy; + /// MethodDescriptionListTy - LLVM type for struct + /// objc_method_description_list. + llvm::StructType *MethodDescriptionListTy; + /// MethodDescriptionListPtrTy - LLVM type for struct + /// objc_method_description_list *. + llvm::PointerType *MethodDescriptionListPtrTy; + /// ProtocolListTy - LLVM type for struct objc_property_list. + llvm::StructType *ProtocolListTy; + /// ProtocolListPtrTy - LLVM type for struct objc_property_list*. + llvm::PointerType *ProtocolListPtrTy; + /// CategoryTy - LLVM type for struct objc_category. + llvm::StructType *CategoryTy; + /// ClassTy - LLVM type for struct objc_class. + llvm::StructType *ClassTy; + /// ClassPtrTy - LLVM type for struct objc_class *. + llvm::PointerType *ClassPtrTy; + /// ClassExtensionTy - LLVM type for struct objc_class_ext. + llvm::StructType *ClassExtensionTy; + /// ClassExtensionPtrTy - LLVM type for struct objc_class_ext *. + llvm::PointerType *ClassExtensionPtrTy; + // IvarTy - LLVM type for struct objc_ivar. + llvm::StructType *IvarTy; + /// IvarListTy - LLVM type for struct objc_ivar_list. + llvm::StructType *IvarListTy; + /// IvarListPtrTy - LLVM type for struct objc_ivar_list *. + llvm::PointerType *IvarListPtrTy; + /// MethodListTy - LLVM type for struct objc_method_list. + llvm::StructType *MethodListTy; + /// MethodListPtrTy - LLVM type for struct objc_method_list *. + llvm::PointerType *MethodListPtrTy; + + /// ExceptionDataTy - LLVM type for struct _objc_exception_data. + llvm::StructType *ExceptionDataTy; + + /// ExceptionTryEnterFn - LLVM objc_exception_try_enter function. + llvm::FunctionCallee getExceptionTryEnterFn() { + llvm::Type *params[] = { ExceptionDataTy->getPointerTo() }; + return CGM.CreateRuntimeFunction( + llvm::FunctionType::get(CGM.VoidTy, params, false), + "objc_exception_try_enter"); + } + + /// ExceptionTryExitFn - LLVM objc_exception_try_exit function. + llvm::FunctionCallee getExceptionTryExitFn() { + llvm::Type *params[] = { ExceptionDataTy->getPointerTo() }; + return CGM.CreateRuntimeFunction( + llvm::FunctionType::get(CGM.VoidTy, params, false), + "objc_exception_try_exit"); + } + + /// ExceptionExtractFn - LLVM objc_exception_extract function. + llvm::FunctionCallee getExceptionExtractFn() { + llvm::Type *params[] = { ExceptionDataTy->getPointerTo() }; + return CGM.CreateRuntimeFunction(llvm::FunctionType::get(ObjectPtrTy, + params, false), + "objc_exception_extract"); + } + + /// ExceptionMatchFn - LLVM objc_exception_match function. + llvm::FunctionCallee getExceptionMatchFn() { + llvm::Type *params[] = { ClassPtrTy, ObjectPtrTy }; + return CGM.CreateRuntimeFunction( + llvm::FunctionType::get(CGM.Int32Ty, params, false), + "objc_exception_match"); + } + + /// SetJmpFn - LLVM _setjmp function. + llvm::FunctionCallee getSetJmpFn() { + // This is specifically the prototype for x86. + llvm::Type *params[] = { CGM.Int32Ty->getPointerTo() }; + return CGM.CreateRuntimeFunction( + llvm::FunctionType::get(CGM.Int32Ty, params, false), "_setjmp", + llvm::AttributeList::get(CGM.getLLVMContext(), + llvm::AttributeList::FunctionIndex, + llvm::Attribute::NonLazyBind)); + } + +public: + ObjCTypesHelper(CodeGen::CodeGenModule &cgm); +}; + +/// ObjCNonFragileABITypesHelper - will have all types needed by objective-c's +/// modern abi +class ObjCNonFragileABITypesHelper : public ObjCCommonTypesHelper { +public: + // MethodListnfABITy - LLVM for struct _method_list_t + llvm::StructType *MethodListnfABITy; + + // MethodListnfABIPtrTy - LLVM for struct _method_list_t* + llvm::PointerType *MethodListnfABIPtrTy; + + // ProtocolnfABITy = LLVM for struct _protocol_t + llvm::StructType *ProtocolnfABITy; + + // ProtocolnfABIPtrTy = LLVM for struct _protocol_t* + llvm::PointerType *ProtocolnfABIPtrTy; + + // ProtocolListnfABITy - LLVM for struct _objc_protocol_list + llvm::StructType *ProtocolListnfABITy; + + // ProtocolListnfABIPtrTy - LLVM for struct _objc_protocol_list* + llvm::PointerType *ProtocolListnfABIPtrTy; + + // ClassnfABITy - LLVM for struct _class_t + llvm::StructType *ClassnfABITy; + + // ClassnfABIPtrTy - LLVM for struct _class_t* + llvm::PointerType *ClassnfABIPtrTy; + + // IvarnfABITy - LLVM for struct _ivar_t + llvm::StructType *IvarnfABITy; + + // IvarListnfABITy - LLVM for struct _ivar_list_t + llvm::StructType *IvarListnfABITy; + + // IvarListnfABIPtrTy = LLVM for struct _ivar_list_t* + llvm::PointerType *IvarListnfABIPtrTy; + + // ClassRonfABITy - LLVM for struct _class_ro_t + llvm::StructType *ClassRonfABITy; + + // ImpnfABITy - LLVM for id (*)(id, SEL, ...) + llvm::PointerType *ImpnfABITy; + + // CategorynfABITy - LLVM for struct _category_t + llvm::StructType *CategorynfABITy; + + // New types for nonfragile abi messaging. + + // MessageRefTy - LLVM for: + // struct _message_ref_t { + // IMP messenger; + // SEL name; + // }; + llvm::StructType *MessageRefTy; + // MessageRefCTy - clang type for struct _message_ref_t + QualType MessageRefCTy; + + // MessageRefPtrTy - LLVM for struct _message_ref_t* + llvm::Type *MessageRefPtrTy; + // MessageRefCPtrTy - clang type for struct _message_ref_t* + QualType MessageRefCPtrTy; + + // SuperMessageRefTy - LLVM for: + // struct _super_message_ref_t { + // SUPER_IMP messenger; + // SEL name; + // }; + llvm::StructType *SuperMessageRefTy; + + // SuperMessageRefPtrTy - LLVM for struct _super_message_ref_t* + llvm::PointerType *SuperMessageRefPtrTy; + + llvm::FunctionCallee getMessageSendFixupFn() { + // id objc_msgSend_fixup(id, struct message_ref_t*, ...) + llvm::Type *params[] = { ObjectPtrTy, MessageRefPtrTy }; + return CGM.CreateRuntimeFunction(llvm::FunctionType::get(ObjectPtrTy, + params, true), + "objc_msgSend_fixup"); + } + + llvm::FunctionCallee getMessageSendFpretFixupFn() { + // id objc_msgSend_fpret_fixup(id, struct message_ref_t*, ...) + llvm::Type *params[] = { ObjectPtrTy, MessageRefPtrTy }; + return CGM.CreateRuntimeFunction(llvm::FunctionType::get(ObjectPtrTy, + params, true), + "objc_msgSend_fpret_fixup"); + } + + llvm::FunctionCallee getMessageSendStretFixupFn() { + // id objc_msgSend_stret_fixup(id, struct message_ref_t*, ...) + llvm::Type *params[] = { ObjectPtrTy, MessageRefPtrTy }; + return CGM.CreateRuntimeFunction(llvm::FunctionType::get(ObjectPtrTy, + params, true), + "objc_msgSend_stret_fixup"); + } + + llvm::FunctionCallee getMessageSendSuper2FixupFn() { + // id objc_msgSendSuper2_fixup (struct objc_super *, + // struct _super_message_ref_t*, ...) + llvm::Type *params[] = { SuperPtrTy, SuperMessageRefPtrTy }; + return CGM.CreateRuntimeFunction(llvm::FunctionType::get(ObjectPtrTy, + params, true), + "objc_msgSendSuper2_fixup"); + } + + llvm::FunctionCallee getMessageSendSuper2StretFixupFn() { + // id objc_msgSendSuper2_stret_fixup(struct objc_super *, + // struct _super_message_ref_t*, ...) + llvm::Type *params[] = { SuperPtrTy, SuperMessageRefPtrTy }; + return CGM.CreateRuntimeFunction(llvm::FunctionType::get(ObjectPtrTy, + params, true), + "objc_msgSendSuper2_stret_fixup"); + } + + llvm::FunctionCallee getObjCEndCatchFn() { + return CGM.CreateRuntimeFunction(llvm::FunctionType::get(CGM.VoidTy, false), + "objc_end_catch"); + } + + llvm::FunctionCallee getObjCBeginCatchFn() { + llvm::Type *params[] = { Int8PtrTy }; + return CGM.CreateRuntimeFunction(llvm::FunctionType::get(Int8PtrTy, + params, false), + "objc_begin_catch"); + } + + /// Class objc_loadClassref (void *) + /// + /// Loads from a classref. For Objective-C stub classes, this invokes the + /// initialization callback stored inside the stub. For all other classes + /// this simply dereferences the pointer. + llvm::FunctionCallee getLoadClassrefFn() const { + // Add the non-lazy-bind attribute, since objc_loadClassref is likely to + // be called a lot. + // + // Also it is safe to make it readnone, since we never load or store the + // classref except by calling this function. + llvm::Type *params[] = { Int8PtrPtrTy }; + llvm::FunctionCallee F = CGM.CreateRuntimeFunction( + llvm::FunctionType::get(ClassnfABIPtrTy, params, false), + "objc_loadClassref", + llvm::AttributeList::get(CGM.getLLVMContext(), + llvm::AttributeList::FunctionIndex, + {llvm::Attribute::NonLazyBind, + llvm::Attribute::ReadNone, + llvm::Attribute::NoUnwind})); + if (!CGM.getTriple().isOSBinFormatCOFF()) + cast<llvm::Function>(F.getCallee())->setLinkage( + llvm::Function::ExternalWeakLinkage); + + return F; + } + + llvm::StructType *EHTypeTy; + llvm::Type *EHTypePtrTy; + + ObjCNonFragileABITypesHelper(CodeGen::CodeGenModule &cgm); +}; + +enum class ObjCLabelType { + ClassName, + MethodVarName, + MethodVarType, + PropertyName, +}; + +class CGObjCCommonMac : public CodeGen::CGObjCRuntime { +public: + class SKIP_SCAN { + public: + unsigned skip; + unsigned scan; + SKIP_SCAN(unsigned _skip = 0, unsigned _scan = 0) + : skip(_skip), scan(_scan) {} + }; + + /// opcode for captured block variables layout 'instructions'. + /// In the following descriptions, 'I' is the value of the immediate field. + /// (field following the opcode). + /// + enum BLOCK_LAYOUT_OPCODE { + /// An operator which affects how the following layout should be + /// interpreted. + /// I == 0: Halt interpretation and treat everything else as + /// a non-pointer. Note that this instruction is equal + /// to '\0'. + /// I != 0: Currently unused. + BLOCK_LAYOUT_OPERATOR = 0, + + /// The next I+1 bytes do not contain a value of object pointer type. + /// Note that this can leave the stream unaligned, meaning that + /// subsequent word-size instructions do not begin at a multiple of + /// the pointer size. + BLOCK_LAYOUT_NON_OBJECT_BYTES = 1, + + /// The next I+1 words do not contain a value of object pointer type. + /// This is simply an optimized version of BLOCK_LAYOUT_BYTES for + /// when the required skip quantity is a multiple of the pointer size. + BLOCK_LAYOUT_NON_OBJECT_WORDS = 2, + + /// The next I+1 words are __strong pointers to Objective-C + /// objects or blocks. + BLOCK_LAYOUT_STRONG = 3, + + /// The next I+1 words are pointers to __block variables. + BLOCK_LAYOUT_BYREF = 4, + + /// The next I+1 words are __weak pointers to Objective-C + /// objects or blocks. + BLOCK_LAYOUT_WEAK = 5, + + /// The next I+1 words are __unsafe_unretained pointers to + /// Objective-C objects or blocks. + BLOCK_LAYOUT_UNRETAINED = 6 + + /// The next I+1 words are block or object pointers with some + /// as-yet-unspecified ownership semantics. If we add more + /// flavors of ownership semantics, values will be taken from + /// this range. + /// + /// This is included so that older tools can at least continue + /// processing the layout past such things. + //BLOCK_LAYOUT_OWNERSHIP_UNKNOWN = 7..10, + + /// All other opcodes are reserved. Halt interpretation and + /// treat everything else as opaque. + }; + + class RUN_SKIP { + public: + enum BLOCK_LAYOUT_OPCODE opcode; + CharUnits block_var_bytepos; + CharUnits block_var_size; + RUN_SKIP(enum BLOCK_LAYOUT_OPCODE Opcode = BLOCK_LAYOUT_OPERATOR, + CharUnits BytePos = CharUnits::Zero(), + CharUnits Size = CharUnits::Zero()) + : opcode(Opcode), block_var_bytepos(BytePos), block_var_size(Size) {} + + // Allow sorting based on byte pos. + bool operator<(const RUN_SKIP &b) const { + return block_var_bytepos < b.block_var_bytepos; + } + }; + +protected: + llvm::LLVMContext &VMContext; + // FIXME! May not be needing this after all. + unsigned ObjCABI; + + // arc/mrr layout of captured block literal variables. + SmallVector<RUN_SKIP, 16> RunSkipBlockVars; + + /// LazySymbols - Symbols to generate a lazy reference for. See + /// DefinedSymbols and FinishModule(). + llvm::SetVector<IdentifierInfo*> LazySymbols; + + /// DefinedSymbols - External symbols which are defined by this + /// module. The symbols in this list and LazySymbols are used to add + /// special linker symbols which ensure that Objective-C modules are + /// linked properly. + llvm::SetVector<IdentifierInfo*> DefinedSymbols; + + /// ClassNames - uniqued class names. + llvm::StringMap<llvm::GlobalVariable*> ClassNames; + + /// MethodVarNames - uniqued method variable names. + llvm::DenseMap<Selector, llvm::GlobalVariable*> MethodVarNames; + + /// DefinedCategoryNames - list of category names in form Class_Category. + llvm::SmallSetVector<llvm::CachedHashString, 16> DefinedCategoryNames; + + /// MethodVarTypes - uniqued method type signatures. We have to use + /// a StringMap here because have no other unique reference. + llvm::StringMap<llvm::GlobalVariable*> MethodVarTypes; + + /// MethodDefinitions - map of methods which have been defined in + /// this translation unit. + llvm::DenseMap<const ObjCMethodDecl*, llvm::Function*> MethodDefinitions; + + /// PropertyNames - uniqued method variable names. + llvm::DenseMap<IdentifierInfo*, llvm::GlobalVariable*> PropertyNames; + + /// ClassReferences - uniqued class references. + llvm::DenseMap<IdentifierInfo*, llvm::GlobalVariable*> ClassReferences; + + /// SelectorReferences - uniqued selector references. + llvm::DenseMap<Selector, llvm::GlobalVariable*> SelectorReferences; + + /// Protocols - Protocols for which an objc_protocol structure has + /// been emitted. Forward declarations are handled by creating an + /// empty structure whose initializer is filled in when/if defined. + llvm::DenseMap<IdentifierInfo*, llvm::GlobalVariable*> Protocols; + + /// DefinedProtocols - Protocols which have actually been + /// defined. We should not need this, see FIXME in GenerateProtocol. + llvm::DenseSet<IdentifierInfo*> DefinedProtocols; + + /// DefinedClasses - List of defined classes. + SmallVector<llvm::GlobalValue*, 16> DefinedClasses; + + /// ImplementedClasses - List of @implemented classes. + SmallVector<const ObjCInterfaceDecl*, 16> ImplementedClasses; + + /// DefinedNonLazyClasses - List of defined "non-lazy" classes. + SmallVector<llvm::GlobalValue*, 16> DefinedNonLazyClasses; + + /// DefinedCategories - List of defined categories. + SmallVector<llvm::GlobalValue*, 16> DefinedCategories; + + /// DefinedStubCategories - List of defined categories on class stubs. + SmallVector<llvm::GlobalValue*, 16> DefinedStubCategories; + + /// DefinedNonLazyCategories - List of defined "non-lazy" categories. + SmallVector<llvm::GlobalValue*, 16> DefinedNonLazyCategories; + + /// Cached reference to the class for constant strings. This value has type + /// int * but is actually an Obj-C class pointer. + llvm::WeakTrackingVH ConstantStringClassRef; + + /// The LLVM type corresponding to NSConstantString. + llvm::StructType *NSConstantStringType = nullptr; + + llvm::StringMap<llvm::GlobalVariable *> NSConstantStringMap; + + /// GetNameForMethod - Return a name for the given method. + /// \param[out] NameOut - The return value. + void GetNameForMethod(const ObjCMethodDecl *OMD, + const ObjCContainerDecl *CD, + SmallVectorImpl<char> &NameOut); + + /// GetMethodVarName - Return a unique constant for the given + /// selector's name. The return value has type char *. + llvm::Constant *GetMethodVarName(Selector Sel); + llvm::Constant *GetMethodVarName(IdentifierInfo *Ident); + + /// GetMethodVarType - Return a unique constant for the given + /// method's type encoding string. The return value has type char *. + + // FIXME: This is a horrible name. + llvm::Constant *GetMethodVarType(const ObjCMethodDecl *D, + bool Extended = false); + llvm::Constant *GetMethodVarType(const FieldDecl *D); + + /// GetPropertyName - Return a unique constant for the given + /// name. The return value has type char *. + llvm::Constant *GetPropertyName(IdentifierInfo *Ident); + + // FIXME: This can be dropped once string functions are unified. + llvm::Constant *GetPropertyTypeString(const ObjCPropertyDecl *PD, + const Decl *Container); + + /// GetClassName - Return a unique constant for the given selector's + /// runtime name (which may change via use of objc_runtime_name attribute on + /// class or protocol definition. The return value has type char *. + llvm::Constant *GetClassName(StringRef RuntimeName); + + llvm::Function *GetMethodDefinition(const ObjCMethodDecl *MD); + + /// BuildIvarLayout - Builds ivar layout bitmap for the class + /// implementation for the __strong or __weak case. + /// + /// \param hasMRCWeakIvars - Whether we are compiling in MRC and there + /// are any weak ivars defined directly in the class. Meaningless unless + /// building a weak layout. Does not guarantee that the layout will + /// actually have any entries, because the ivar might be under-aligned. + llvm::Constant *BuildIvarLayout(const ObjCImplementationDecl *OI, + CharUnits beginOffset, + CharUnits endOffset, + bool forStrongLayout, + bool hasMRCWeakIvars); + + llvm::Constant *BuildStrongIvarLayout(const ObjCImplementationDecl *OI, + CharUnits beginOffset, + CharUnits endOffset) { + return BuildIvarLayout(OI, beginOffset, endOffset, true, false); + } + + llvm::Constant *BuildWeakIvarLayout(const ObjCImplementationDecl *OI, + CharUnits beginOffset, + CharUnits endOffset, + bool hasMRCWeakIvars) { + return BuildIvarLayout(OI, beginOffset, endOffset, false, hasMRCWeakIvars); + } + + Qualifiers::ObjCLifetime getBlockCaptureLifetime(QualType QT, bool ByrefLayout); + + void UpdateRunSkipBlockVars(bool IsByref, + Qualifiers::ObjCLifetime LifeTime, + CharUnits FieldOffset, + CharUnits FieldSize); + + void BuildRCBlockVarRecordLayout(const RecordType *RT, + CharUnits BytePos, bool &HasUnion, + bool ByrefLayout=false); + + void BuildRCRecordLayout(const llvm::StructLayout *RecLayout, + const RecordDecl *RD, + ArrayRef<const FieldDecl*> RecFields, + CharUnits BytePos, bool &HasUnion, + bool ByrefLayout); + + uint64_t InlineLayoutInstruction(SmallVectorImpl<unsigned char> &Layout); + + llvm::Constant *getBitmapBlockLayout(bool ComputeByrefLayout); + + /// GetIvarLayoutName - Returns a unique constant for the given + /// ivar layout bitmap. + llvm::Constant *GetIvarLayoutName(IdentifierInfo *Ident, + const ObjCCommonTypesHelper &ObjCTypes); + + /// EmitPropertyList - Emit the given property list. The return + /// value has type PropertyListPtrTy. + llvm::Constant *EmitPropertyList(Twine Name, + const Decl *Container, + const ObjCContainerDecl *OCD, + const ObjCCommonTypesHelper &ObjCTypes, + bool IsClassProperty); + + /// EmitProtocolMethodTypes - Generate the array of extended method type + /// strings. The return value has type Int8PtrPtrTy. + llvm::Constant *EmitProtocolMethodTypes(Twine Name, + ArrayRef<llvm::Constant*> MethodTypes, + const ObjCCommonTypesHelper &ObjCTypes); + + /// GetProtocolRef - Return a reference to the internal protocol + /// description, creating an empty one if it has not been + /// defined. The return value has type ProtocolPtrTy. + llvm::Constant *GetProtocolRef(const ObjCProtocolDecl *PD); + + /// Return a reference to the given Class using runtime calls rather than + /// by a symbol reference. + llvm::Value *EmitClassRefViaRuntime(CodeGenFunction &CGF, + const ObjCInterfaceDecl *ID, + ObjCCommonTypesHelper &ObjCTypes); + + std::string GetSectionName(StringRef Section, StringRef MachOAttributes); + +public: + /// CreateMetadataVar - Create a global variable with internal + /// linkage for use by the Objective-C runtime. + /// + /// This is a convenience wrapper which not only creates the + /// variable, but also sets the section and alignment and adds the + /// global to the "llvm.used" list. + /// + /// \param Name - The variable name. + /// \param Init - The variable initializer; this is also used to + /// define the type of the variable. + /// \param Section - The section the variable should go into, or empty. + /// \param Align - The alignment for the variable, or 0. + /// \param AddToUsed - Whether the variable should be added to + /// "llvm.used". + llvm::GlobalVariable *CreateMetadataVar(Twine Name, + ConstantStructBuilder &Init, + StringRef Section, CharUnits Align, + bool AddToUsed); + llvm::GlobalVariable *CreateMetadataVar(Twine Name, + llvm::Constant *Init, + StringRef Section, CharUnits Align, + bool AddToUsed); + + llvm::GlobalVariable *CreateCStringLiteral(StringRef Name, + ObjCLabelType LabelType, + bool ForceNonFragileABI = false, + bool NullTerminate = true); + +protected: + CodeGen::RValue EmitMessageSend(CodeGen::CodeGenFunction &CGF, + ReturnValueSlot Return, + QualType ResultType, + llvm::Value *Sel, + llvm::Value *Arg0, + QualType Arg0Ty, + bool IsSuper, + const CallArgList &CallArgs, + const ObjCMethodDecl *OMD, + const ObjCInterfaceDecl *ClassReceiver, + const ObjCCommonTypesHelper &ObjCTypes); + + /// EmitImageInfo - Emit the image info marker used to encode some module + /// level information. + void EmitImageInfo(); + +public: + CGObjCCommonMac(CodeGen::CodeGenModule &cgm) : + CGObjCRuntime(cgm), VMContext(cgm.getLLVMContext()) { } + + bool isNonFragileABI() const { + return ObjCABI == 2; + } + + ConstantAddress GenerateConstantString(const StringLiteral *SL) override; + ConstantAddress GenerateConstantNSString(const StringLiteral *SL); + + llvm::Function *GenerateMethod(const ObjCMethodDecl *OMD, + const ObjCContainerDecl *CD=nullptr) override; + + void GenerateProtocol(const ObjCProtocolDecl *PD) override; + + /// GetOrEmitProtocol - Get the protocol object for the given + /// declaration, emitting it if necessary. The return value has type + /// ProtocolPtrTy. + virtual llvm::Constant *GetOrEmitProtocol(const ObjCProtocolDecl *PD)=0; + + /// GetOrEmitProtocolRef - Get a forward reference to the protocol + /// object for the given declaration, emitting it if needed. These + /// forward references will be filled in with empty bodies if no + /// definition is seen. The return value has type ProtocolPtrTy. + virtual llvm::Constant *GetOrEmitProtocolRef(const ObjCProtocolDecl *PD)=0; + + virtual llvm::Constant *getNSConstantStringClassRef() = 0; + + llvm::Constant *BuildGCBlockLayout(CodeGen::CodeGenModule &CGM, + const CGBlockInfo &blockInfo) override; + llvm::Constant *BuildRCBlockLayout(CodeGen::CodeGenModule &CGM, + const CGBlockInfo &blockInfo) override; + std::string getRCBlockLayoutStr(CodeGen::CodeGenModule &CGM, + const CGBlockInfo &blockInfo) override; + + llvm::Constant *BuildByrefLayout(CodeGen::CodeGenModule &CGM, + QualType T) override; + +private: + void fillRunSkipBlockVars(CodeGenModule &CGM, const CGBlockInfo &blockInfo); +}; + +namespace { + +enum class MethodListType { + CategoryInstanceMethods, + CategoryClassMethods, + InstanceMethods, + ClassMethods, + ProtocolInstanceMethods, + ProtocolClassMethods, + OptionalProtocolInstanceMethods, + OptionalProtocolClassMethods, +}; + +/// A convenience class for splitting the methods of a protocol into +/// the four interesting groups. +class ProtocolMethodLists { +public: + enum Kind { + RequiredInstanceMethods, + RequiredClassMethods, + OptionalInstanceMethods, + OptionalClassMethods + }; + enum { + NumProtocolMethodLists = 4 + }; + + static MethodListType getMethodListKind(Kind kind) { + switch (kind) { + case RequiredInstanceMethods: + return MethodListType::ProtocolInstanceMethods; + case RequiredClassMethods: + return MethodListType::ProtocolClassMethods; + case OptionalInstanceMethods: + return MethodListType::OptionalProtocolInstanceMethods; + case OptionalClassMethods: + return MethodListType::OptionalProtocolClassMethods; + } + llvm_unreachable("bad kind"); + } + + SmallVector<const ObjCMethodDecl *, 4> Methods[NumProtocolMethodLists]; + + static ProtocolMethodLists get(const ObjCProtocolDecl *PD) { + ProtocolMethodLists result; + + for (auto MD : PD->methods()) { + size_t index = (2 * size_t(MD->isOptional())) + + (size_t(MD->isClassMethod())); + result.Methods[index].push_back(MD); + } + + return result; + } + + template <class Self> + SmallVector<llvm::Constant*, 8> emitExtendedTypesArray(Self *self) const { + // In both ABIs, the method types list is parallel with the + // concatenation of the methods arrays in the following order: + // instance methods + // class methods + // optional instance methods + // optional class methods + SmallVector<llvm::Constant*, 8> result; + + // Methods is already in the correct order for both ABIs. + for (auto &list : Methods) { + for (auto MD : list) { + result.push_back(self->GetMethodVarType(MD, true)); + } + } + + return result; + } + + template <class Self> + llvm::Constant *emitMethodList(Self *self, const ObjCProtocolDecl *PD, + Kind kind) const { + return self->emitMethodList(PD->getObjCRuntimeNameAsString(), + getMethodListKind(kind), Methods[kind]); + } +}; + +} // end anonymous namespace + +class CGObjCMac : public CGObjCCommonMac { +private: + friend ProtocolMethodLists; + + ObjCTypesHelper ObjCTypes; + + /// EmitModuleInfo - Another marker encoding module level + /// information. + void EmitModuleInfo(); + + /// EmitModuleSymols - Emit module symbols, the list of defined + /// classes and categories. The result has type SymtabPtrTy. + llvm::Constant *EmitModuleSymbols(); + + /// FinishModule - Write out global data structures at the end of + /// processing a translation unit. + void FinishModule(); + + /// EmitClassExtension - Generate the class extension structure used + /// to store the weak ivar layout and properties. The return value + /// has type ClassExtensionPtrTy. + llvm::Constant *EmitClassExtension(const ObjCImplementationDecl *ID, + CharUnits instanceSize, + bool hasMRCWeakIvars, + bool isMetaclass); + + /// EmitClassRef - Return a Value*, of type ObjCTypes.ClassPtrTy, + /// for the given class. + llvm::Value *EmitClassRef(CodeGenFunction &CGF, + const ObjCInterfaceDecl *ID); + + llvm::Value *EmitClassRefFromId(CodeGenFunction &CGF, + IdentifierInfo *II); + + llvm::Value *EmitNSAutoreleasePoolClassRef(CodeGenFunction &CGF) override; + + /// EmitSuperClassRef - Emits reference to class's main metadata class. + llvm::Value *EmitSuperClassRef(const ObjCInterfaceDecl *ID); + + /// EmitIvarList - Emit the ivar list for the given + /// implementation. If ForClass is true the list of class ivars + /// (i.e. metaclass ivars) is emitted, otherwise the list of + /// interface ivars will be emitted. The return value has type + /// IvarListPtrTy. + llvm::Constant *EmitIvarList(const ObjCImplementationDecl *ID, + bool ForClass); + + /// EmitMetaClass - Emit a forward reference to the class structure + /// for the metaclass of the given interface. The return value has + /// type ClassPtrTy. + llvm::Constant *EmitMetaClassRef(const ObjCInterfaceDecl *ID); + + /// EmitMetaClass - Emit a class structure for the metaclass of the + /// given implementation. The return value has type ClassPtrTy. + llvm::Constant *EmitMetaClass(const ObjCImplementationDecl *ID, + llvm::Constant *Protocols, + ArrayRef<const ObjCMethodDecl *> Methods); + + void emitMethodConstant(ConstantArrayBuilder &builder, + const ObjCMethodDecl *MD); + + void emitMethodDescriptionConstant(ConstantArrayBuilder &builder, + const ObjCMethodDecl *MD); + + /// EmitMethodList - Emit the method list for the given + /// implementation. The return value has type MethodListPtrTy. + llvm::Constant *emitMethodList(Twine Name, MethodListType MLT, + ArrayRef<const ObjCMethodDecl *> Methods); + + /// GetOrEmitProtocol - Get the protocol object for the given + /// declaration, emitting it if necessary. The return value has type + /// ProtocolPtrTy. + llvm::Constant *GetOrEmitProtocol(const ObjCProtocolDecl *PD) override; + + /// GetOrEmitProtocolRef - Get a forward reference to the protocol + /// object for the given declaration, emitting it if needed. These + /// forward references will be filled in with empty bodies if no + /// definition is seen. The return value has type ProtocolPtrTy. + llvm::Constant *GetOrEmitProtocolRef(const ObjCProtocolDecl *PD) override; + + /// EmitProtocolExtension - Generate the protocol extension + /// structure used to store optional instance and class methods, and + /// protocol properties. The return value has type + /// ProtocolExtensionPtrTy. + llvm::Constant * + EmitProtocolExtension(const ObjCProtocolDecl *PD, + const ProtocolMethodLists &methodLists); + + /// EmitProtocolList - Generate the list of referenced + /// protocols. The return value has type ProtocolListPtrTy. + llvm::Constant *EmitProtocolList(Twine Name, + ObjCProtocolDecl::protocol_iterator begin, + ObjCProtocolDecl::protocol_iterator end); + + /// EmitSelector - Return a Value*, of type ObjCTypes.SelectorPtrTy, + /// for the given selector. + llvm::Value *EmitSelector(CodeGenFunction &CGF, Selector Sel); + Address EmitSelectorAddr(CodeGenFunction &CGF, Selector Sel); + +public: + CGObjCMac(CodeGen::CodeGenModule &cgm); + + llvm::Constant *getNSConstantStringClassRef() override; + + llvm::Function *ModuleInitFunction() override; + + CodeGen::RValue GenerateMessageSend(CodeGen::CodeGenFunction &CGF, + ReturnValueSlot Return, + QualType ResultType, + Selector Sel, llvm::Value *Receiver, + const CallArgList &CallArgs, + const ObjCInterfaceDecl *Class, + const ObjCMethodDecl *Method) override; + + CodeGen::RValue + GenerateMessageSendSuper(CodeGen::CodeGenFunction &CGF, + ReturnValueSlot Return, QualType ResultType, + Selector Sel, const ObjCInterfaceDecl *Class, + bool isCategoryImpl, llvm::Value *Receiver, + bool IsClassMessage, const CallArgList &CallArgs, + const ObjCMethodDecl *Method) override; + + llvm::Value *GetClass(CodeGenFunction &CGF, + const ObjCInterfaceDecl *ID) override; + + llvm::Value *GetSelector(CodeGenFunction &CGF, Selector Sel) override; + Address GetAddrOfSelector(CodeGenFunction &CGF, Selector Sel) override; + + /// The NeXT/Apple runtimes do not support typed selectors; just emit an + /// untyped one. + llvm::Value *GetSelector(CodeGenFunction &CGF, + const ObjCMethodDecl *Method) override; + + llvm::Constant *GetEHType(QualType T) override; + + void GenerateCategory(const ObjCCategoryImplDecl *CMD) override; + + void GenerateClass(const ObjCImplementationDecl *ClassDecl) override; + + void RegisterAlias(const ObjCCompatibleAliasDecl *OAD) override {} + + llvm::Value *GenerateProtocolRef(CodeGenFunction &CGF, + const ObjCProtocolDecl *PD) override; + + llvm::FunctionCallee GetPropertyGetFunction() override; + llvm::FunctionCallee GetPropertySetFunction() override; + llvm::FunctionCallee GetOptimizedPropertySetFunction(bool atomic, + bool copy) override; + llvm::FunctionCallee GetGetStructFunction() override; + llvm::FunctionCallee GetSetStructFunction() override; + llvm::FunctionCallee GetCppAtomicObjectGetFunction() override; + llvm::FunctionCallee GetCppAtomicObjectSetFunction() override; + llvm::FunctionCallee EnumerationMutationFunction() override; + + void EmitTryStmt(CodeGen::CodeGenFunction &CGF, + const ObjCAtTryStmt &S) override; + void EmitSynchronizedStmt(CodeGen::CodeGenFunction &CGF, + const ObjCAtSynchronizedStmt &S) override; + void EmitTryOrSynchronizedStmt(CodeGen::CodeGenFunction &CGF, const Stmt &S); + void EmitThrowStmt(CodeGen::CodeGenFunction &CGF, const ObjCAtThrowStmt &S, + bool ClearInsertionPoint=true) override; + llvm::Value * EmitObjCWeakRead(CodeGen::CodeGenFunction &CGF, + Address AddrWeakObj) override; + void EmitObjCWeakAssign(CodeGen::CodeGenFunction &CGF, + llvm::Value *src, Address dst) override; + void EmitObjCGlobalAssign(CodeGen::CodeGenFunction &CGF, + llvm::Value *src, Address dest, + bool threadlocal = false) override; + void EmitObjCIvarAssign(CodeGen::CodeGenFunction &CGF, + llvm::Value *src, Address dest, + llvm::Value *ivarOffset) override; + void EmitObjCStrongCastAssign(CodeGen::CodeGenFunction &CGF, + llvm::Value *src, Address dest) override; + void EmitGCMemmoveCollectable(CodeGen::CodeGenFunction &CGF, + Address dest, Address src, + llvm::Value *size) override; + + LValue EmitObjCValueForIvar(CodeGen::CodeGenFunction &CGF, QualType ObjectTy, + llvm::Value *BaseValue, const ObjCIvarDecl *Ivar, + unsigned CVRQualifiers) override; + llvm::Value *EmitIvarOffset(CodeGen::CodeGenFunction &CGF, + const ObjCInterfaceDecl *Interface, + const ObjCIvarDecl *Ivar) override; +}; + +class CGObjCNonFragileABIMac : public CGObjCCommonMac { +private: + friend ProtocolMethodLists; + ObjCNonFragileABITypesHelper ObjCTypes; + llvm::GlobalVariable* ObjCEmptyCacheVar; + llvm::Constant* ObjCEmptyVtableVar; + + /// SuperClassReferences - uniqued super class references. + llvm::DenseMap<IdentifierInfo*, llvm::GlobalVariable*> SuperClassReferences; + + /// MetaClassReferences - uniqued meta class references. + llvm::DenseMap<IdentifierInfo*, llvm::GlobalVariable*> MetaClassReferences; + + /// EHTypeReferences - uniqued class ehtype references. + llvm::DenseMap<IdentifierInfo*, llvm::GlobalVariable*> EHTypeReferences; + + /// VTableDispatchMethods - List of methods for which we generate + /// vtable-based message dispatch. + llvm::DenseSet<Selector> VTableDispatchMethods; + + /// DefinedMetaClasses - List of defined meta-classes. + std::vector<llvm::GlobalValue*> DefinedMetaClasses; + + /// isVTableDispatchedSelector - Returns true if SEL is a + /// vtable-based selector. + bool isVTableDispatchedSelector(Selector Sel); + + /// FinishNonFragileABIModule - Write out global data structures at the end of + /// processing a translation unit. + void FinishNonFragileABIModule(); + + /// AddModuleClassList - Add the given list of class pointers to the + /// module with the provided symbol and section names. + void AddModuleClassList(ArrayRef<llvm::GlobalValue *> Container, + StringRef SymbolName, StringRef SectionName); + + llvm::GlobalVariable * BuildClassRoTInitializer(unsigned flags, + unsigned InstanceStart, + unsigned InstanceSize, + const ObjCImplementationDecl *ID); + llvm::GlobalVariable *BuildClassObject(const ObjCInterfaceDecl *CI, + bool isMetaclass, + llvm::Constant *IsAGV, + llvm::Constant *SuperClassGV, + llvm::Constant *ClassRoGV, + bool HiddenVisibility); + + void emitMethodConstant(ConstantArrayBuilder &builder, + const ObjCMethodDecl *MD, + bool forProtocol); + + /// Emit the method list for the given implementation. The return value + /// has type MethodListnfABITy. + llvm::Constant *emitMethodList(Twine Name, MethodListType MLT, + ArrayRef<const ObjCMethodDecl *> Methods); + + /// EmitIvarList - Emit the ivar list for the given + /// implementation. If ForClass is true the list of class ivars + /// (i.e. metaclass ivars) is emitted, otherwise the list of + /// interface ivars will be emitted. The return value has type + /// IvarListnfABIPtrTy. + llvm::Constant *EmitIvarList(const ObjCImplementationDecl *ID); + + llvm::Constant *EmitIvarOffsetVar(const ObjCInterfaceDecl *ID, + const ObjCIvarDecl *Ivar, + unsigned long int offset); + + /// GetOrEmitProtocol - Get the protocol object for the given + /// declaration, emitting it if necessary. The return value has type + /// ProtocolPtrTy. + llvm::Constant *GetOrEmitProtocol(const ObjCProtocolDecl *PD) override; + + /// GetOrEmitProtocolRef - Get a forward reference to the protocol + /// object for the given declaration, emitting it if needed. These + /// forward references will be filled in with empty bodies if no + /// definition is seen. The return value has type ProtocolPtrTy. + llvm::Constant *GetOrEmitProtocolRef(const ObjCProtocolDecl *PD) override; + + /// EmitProtocolList - Generate the list of referenced + /// protocols. The return value has type ProtocolListPtrTy. + llvm::Constant *EmitProtocolList(Twine Name, + ObjCProtocolDecl::protocol_iterator begin, + ObjCProtocolDecl::protocol_iterator end); + + CodeGen::RValue EmitVTableMessageSend(CodeGen::CodeGenFunction &CGF, + ReturnValueSlot Return, + QualType ResultType, + Selector Sel, + llvm::Value *Receiver, + QualType Arg0Ty, + bool IsSuper, + const CallArgList &CallArgs, + const ObjCMethodDecl *Method); + + /// GetClassGlobal - Return the global variable for the Objective-C + /// class of the given name. + llvm::Constant *GetClassGlobal(StringRef Name, + ForDefinition_t IsForDefinition, + bool Weak = false, bool DLLImport = false); + llvm::Constant *GetClassGlobal(const ObjCInterfaceDecl *ID, + bool isMetaclass, + ForDefinition_t isForDefinition); + + llvm::Constant *GetClassGlobalForClassRef(const ObjCInterfaceDecl *ID); + + llvm::Value *EmitLoadOfClassRef(CodeGenFunction &CGF, + const ObjCInterfaceDecl *ID, + llvm::GlobalVariable *Entry); + + /// EmitClassRef - Return a Value*, of type ObjCTypes.ClassPtrTy, + /// for the given class reference. + llvm::Value *EmitClassRef(CodeGenFunction &CGF, + const ObjCInterfaceDecl *ID); + + llvm::Value *EmitClassRefFromId(CodeGenFunction &CGF, + IdentifierInfo *II, + const ObjCInterfaceDecl *ID); + + llvm::Value *EmitNSAutoreleasePoolClassRef(CodeGenFunction &CGF) override; + + /// EmitSuperClassRef - Return a Value*, of type ObjCTypes.ClassPtrTy, + /// for the given super class reference. + llvm::Value *EmitSuperClassRef(CodeGenFunction &CGF, + const ObjCInterfaceDecl *ID); + + /// EmitMetaClassRef - Return a Value * of the address of _class_t + /// meta-data + llvm::Value *EmitMetaClassRef(CodeGenFunction &CGF, + const ObjCInterfaceDecl *ID, bool Weak); + + /// ObjCIvarOffsetVariable - Returns the ivar offset variable for + /// the given ivar. + /// + llvm::GlobalVariable * ObjCIvarOffsetVariable( + const ObjCInterfaceDecl *ID, + const ObjCIvarDecl *Ivar); + + /// EmitSelector - Return a Value*, of type ObjCTypes.SelectorPtrTy, + /// for the given selector. + llvm::Value *EmitSelector(CodeGenFunction &CGF, Selector Sel); + Address EmitSelectorAddr(CodeGenFunction &CGF, Selector Sel); + + /// GetInterfaceEHType - Get the cached ehtype for the given Objective-C + /// interface. The return value has type EHTypePtrTy. + llvm::Constant *GetInterfaceEHType(const ObjCInterfaceDecl *ID, + ForDefinition_t IsForDefinition); + + StringRef getMetaclassSymbolPrefix() const { return "OBJC_METACLASS_$_"; } + + StringRef getClassSymbolPrefix() const { return "OBJC_CLASS_$_"; } + + void GetClassSizeInfo(const ObjCImplementationDecl *OID, + uint32_t &InstanceStart, + uint32_t &InstanceSize); + + // Shamelessly stolen from Analysis/CFRefCount.cpp + Selector GetNullarySelector(const char* name) const { + IdentifierInfo* II = &CGM.getContext().Idents.get(name); + return CGM.getContext().Selectors.getSelector(0, &II); + } + + Selector GetUnarySelector(const char* name) const { + IdentifierInfo* II = &CGM.getContext().Idents.get(name); + return CGM.getContext().Selectors.getSelector(1, &II); + } + + /// ImplementationIsNonLazy - Check whether the given category or + /// class implementation is "non-lazy". + bool ImplementationIsNonLazy(const ObjCImplDecl *OD) const; + + bool IsIvarOffsetKnownIdempotent(const CodeGen::CodeGenFunction &CGF, + const ObjCIvarDecl *IV) { + // Annotate the load as an invariant load iff inside an instance method + // and ivar belongs to instance method's class and one of its super class. + // This check is needed because the ivar offset is a lazily + // initialised value that may depend on objc_msgSend to perform a fixup on + // the first message dispatch. + // + // An additional opportunity to mark the load as invariant arises when the + // base of the ivar access is a parameter to an Objective C method. + // However, because the parameters are not available in the current + // interface, we cannot perform this check. + if (const ObjCMethodDecl *MD = + dyn_cast_or_null<ObjCMethodDecl>(CGF.CurFuncDecl)) + if (MD->isInstanceMethod()) + if (const ObjCInterfaceDecl *ID = MD->getClassInterface()) + return IV->getContainingInterface()->isSuperClassOf(ID); + return false; + } + + bool isClassLayoutKnownStatically(const ObjCInterfaceDecl *ID) { + // NSObject is a fixed size. If we can see the @implementation of a class + // which inherits from NSObject then we know that all it's offsets also must + // be fixed. FIXME: Can we do this if see a chain of super classes with + // implementations leading to NSObject? + return ID->getImplementation() && ID->getSuperClass() && + ID->getSuperClass()->getName() == "NSObject"; + } + +public: + CGObjCNonFragileABIMac(CodeGen::CodeGenModule &cgm); + + llvm::Constant *getNSConstantStringClassRef() override; + + llvm::Function *ModuleInitFunction() override; + + CodeGen::RValue GenerateMessageSend(CodeGen::CodeGenFunction &CGF, + ReturnValueSlot Return, + QualType ResultType, Selector Sel, + llvm::Value *Receiver, + const CallArgList &CallArgs, + const ObjCInterfaceDecl *Class, + const ObjCMethodDecl *Method) override; + + CodeGen::RValue + GenerateMessageSendSuper(CodeGen::CodeGenFunction &CGF, + ReturnValueSlot Return, QualType ResultType, + Selector Sel, const ObjCInterfaceDecl *Class, + bool isCategoryImpl, llvm::Value *Receiver, + bool IsClassMessage, const CallArgList &CallArgs, + const ObjCMethodDecl *Method) override; + + llvm::Value *GetClass(CodeGenFunction &CGF, + const ObjCInterfaceDecl *ID) override; + + llvm::Value *GetSelector(CodeGenFunction &CGF, Selector Sel) override + { return EmitSelector(CGF, Sel); } + Address GetAddrOfSelector(CodeGenFunction &CGF, Selector Sel) override + { return EmitSelectorAddr(CGF, Sel); } + + /// The NeXT/Apple runtimes do not support typed selectors; just emit an + /// untyped one. + llvm::Value *GetSelector(CodeGenFunction &CGF, + const ObjCMethodDecl *Method) override + { return EmitSelector(CGF, Method->getSelector()); } + + void GenerateCategory(const ObjCCategoryImplDecl *CMD) override; + + void GenerateClass(const ObjCImplementationDecl *ClassDecl) override; + + void RegisterAlias(const ObjCCompatibleAliasDecl *OAD) override {} + + llvm::Value *GenerateProtocolRef(CodeGenFunction &CGF, + const ObjCProtocolDecl *PD) override; + + llvm::Constant *GetEHType(QualType T) override; + + llvm::FunctionCallee GetPropertyGetFunction() override { + return ObjCTypes.getGetPropertyFn(); + } + llvm::FunctionCallee GetPropertySetFunction() override { + return ObjCTypes.getSetPropertyFn(); + } + + llvm::FunctionCallee GetOptimizedPropertySetFunction(bool atomic, + bool copy) override { + return ObjCTypes.getOptimizedSetPropertyFn(atomic, copy); + } + + llvm::FunctionCallee GetSetStructFunction() override { + return ObjCTypes.getCopyStructFn(); + } + + llvm::FunctionCallee GetGetStructFunction() override { + return ObjCTypes.getCopyStructFn(); + } + + llvm::FunctionCallee GetCppAtomicObjectSetFunction() override { + return ObjCTypes.getCppAtomicObjectFunction(); + } + + llvm::FunctionCallee GetCppAtomicObjectGetFunction() override { + return ObjCTypes.getCppAtomicObjectFunction(); + } + + llvm::FunctionCallee EnumerationMutationFunction() override { + return ObjCTypes.getEnumerationMutationFn(); + } + + void EmitTryStmt(CodeGen::CodeGenFunction &CGF, + const ObjCAtTryStmt &S) override; + void EmitSynchronizedStmt(CodeGen::CodeGenFunction &CGF, + const ObjCAtSynchronizedStmt &S) override; + void EmitThrowStmt(CodeGen::CodeGenFunction &CGF, const ObjCAtThrowStmt &S, + bool ClearInsertionPoint=true) override; + llvm::Value * EmitObjCWeakRead(CodeGen::CodeGenFunction &CGF, + Address AddrWeakObj) override; + void EmitObjCWeakAssign(CodeGen::CodeGenFunction &CGF, + llvm::Value *src, Address edst) override; + void EmitObjCGlobalAssign(CodeGen::CodeGenFunction &CGF, + llvm::Value *src, Address dest, + bool threadlocal = false) override; + void EmitObjCIvarAssign(CodeGen::CodeGenFunction &CGF, + llvm::Value *src, Address dest, + llvm::Value *ivarOffset) override; + void EmitObjCStrongCastAssign(CodeGen::CodeGenFunction &CGF, + llvm::Value *src, Address dest) override; + void EmitGCMemmoveCollectable(CodeGen::CodeGenFunction &CGF, + Address dest, Address src, + llvm::Value *size) override; + LValue EmitObjCValueForIvar(CodeGen::CodeGenFunction &CGF, QualType ObjectTy, + llvm::Value *BaseValue, const ObjCIvarDecl *Ivar, + unsigned CVRQualifiers) override; + llvm::Value *EmitIvarOffset(CodeGen::CodeGenFunction &CGF, + const ObjCInterfaceDecl *Interface, + const ObjCIvarDecl *Ivar) override; +}; + +/// A helper class for performing the null-initialization of a return +/// value. +struct NullReturnState { + llvm::BasicBlock *NullBB; + NullReturnState() : NullBB(nullptr) {} + + /// Perform a null-check of the given receiver. + void init(CodeGenFunction &CGF, llvm::Value *receiver) { + // Make blocks for the null-receiver and call edges. + NullBB = CGF.createBasicBlock("msgSend.null-receiver"); + llvm::BasicBlock *callBB = CGF.createBasicBlock("msgSend.call"); + + // Check for a null receiver and, if there is one, jump to the + // null-receiver block. There's no point in trying to avoid it: + // we're always going to put *something* there, because otherwise + // we shouldn't have done this null-check in the first place. + llvm::Value *isNull = CGF.Builder.CreateIsNull(receiver); + CGF.Builder.CreateCondBr(isNull, NullBB, callBB); + + // Otherwise, start performing the call. + CGF.EmitBlock(callBB); + } + + /// Complete the null-return operation. It is valid to call this + /// regardless of whether 'init' has been called. + RValue complete(CodeGenFunction &CGF, + ReturnValueSlot returnSlot, + RValue result, + QualType resultType, + const CallArgList &CallArgs, + const ObjCMethodDecl *Method) { + // If we never had to do a null-check, just use the raw result. + if (!NullBB) return result; + + // The continuation block. This will be left null if we don't have an + // IP, which can happen if the method we're calling is marked noreturn. + llvm::BasicBlock *contBB = nullptr; + + // Finish the call path. + llvm::BasicBlock *callBB = CGF.Builder.GetInsertBlock(); + if (callBB) { + contBB = CGF.createBasicBlock("msgSend.cont"); + CGF.Builder.CreateBr(contBB); + } + + // Okay, start emitting the null-receiver block. + CGF.EmitBlock(NullBB); + + // Release any consumed arguments we've got. + if (Method) { + CallArgList::const_iterator I = CallArgs.begin(); + for (ObjCMethodDecl::param_const_iterator i = Method->param_begin(), + e = Method->param_end(); i != e; ++i, ++I) { + const ParmVarDecl *ParamDecl = (*i); + if (ParamDecl->hasAttr<NSConsumedAttr>()) { + RValue RV = I->getRValue(CGF); + assert(RV.isScalar() && + "NullReturnState::complete - arg not on object"); + CGF.EmitARCRelease(RV.getScalarVal(), ARCImpreciseLifetime); + } + } + } + + // The phi code below assumes that we haven't needed any control flow yet. + assert(CGF.Builder.GetInsertBlock() == NullBB); + + // If we've got a void return, just jump to the continuation block. + if (result.isScalar() && resultType->isVoidType()) { + // No jumps required if the message-send was noreturn. + if (contBB) CGF.EmitBlock(contBB); + return result; + } + + // If we've got a scalar return, build a phi. + if (result.isScalar()) { + // Derive the null-initialization value. + llvm::Constant *null = CGF.CGM.EmitNullConstant(resultType); + + // If no join is necessary, just flow out. + if (!contBB) return RValue::get(null); + + // Otherwise, build a phi. + CGF.EmitBlock(contBB); + llvm::PHINode *phi = CGF.Builder.CreatePHI(null->getType(), 2); + phi->addIncoming(result.getScalarVal(), callBB); + phi->addIncoming(null, NullBB); + return RValue::get(phi); + } + + // If we've got an aggregate return, null the buffer out. + // FIXME: maybe we should be doing things differently for all the + // cases where the ABI has us returning (1) non-agg values in + // memory or (2) agg values in registers. + if (result.isAggregate()) { + assert(result.isAggregate() && "null init of non-aggregate result?"); + if (!returnSlot.isUnused()) + CGF.EmitNullInitialization(result.getAggregateAddress(), resultType); + if (contBB) CGF.EmitBlock(contBB); + return result; + } + + // Complex types. + CGF.EmitBlock(contBB); + CodeGenFunction::ComplexPairTy callResult = result.getComplexVal(); + + // Find the scalar type and its zero value. + llvm::Type *scalarTy = callResult.first->getType(); + llvm::Constant *scalarZero = llvm::Constant::getNullValue(scalarTy); + + // Build phis for both coordinates. + llvm::PHINode *real = CGF.Builder.CreatePHI(scalarTy, 2); + real->addIncoming(callResult.first, callBB); + real->addIncoming(scalarZero, NullBB); + llvm::PHINode *imag = CGF.Builder.CreatePHI(scalarTy, 2); + imag->addIncoming(callResult.second, callBB); + imag->addIncoming(scalarZero, NullBB); + return RValue::getComplex(real, imag); + } +}; + +} // end anonymous namespace + +/* *** Helper Functions *** */ + +/// getConstantGEP() - Help routine to construct simple GEPs. +static llvm::Constant *getConstantGEP(llvm::LLVMContext &VMContext, + llvm::GlobalVariable *C, unsigned idx0, + unsigned idx1) { + llvm::Value *Idxs[] = { + llvm::ConstantInt::get(llvm::Type::getInt32Ty(VMContext), idx0), + llvm::ConstantInt::get(llvm::Type::getInt32Ty(VMContext), idx1) + }; + return llvm::ConstantExpr::getGetElementPtr(C->getValueType(), C, Idxs); +} + +/// hasObjCExceptionAttribute - Return true if this class or any super +/// class has the __objc_exception__ attribute. +static bool hasObjCExceptionAttribute(ASTContext &Context, + const ObjCInterfaceDecl *OID) { + if (OID->hasAttr<ObjCExceptionAttr>()) + return true; + if (const ObjCInterfaceDecl *Super = OID->getSuperClass()) + return hasObjCExceptionAttribute(Context, Super); + return false; +} + +static llvm::GlobalValue::LinkageTypes +getLinkageTypeForObjCMetadata(CodeGenModule &CGM, StringRef Section) { + if (CGM.getTriple().isOSBinFormatMachO() && + (Section.empty() || Section.startswith("__DATA"))) + return llvm::GlobalValue::InternalLinkage; + return llvm::GlobalValue::PrivateLinkage; +} + +/// A helper function to create an internal or private global variable. +static llvm::GlobalVariable * +finishAndCreateGlobal(ConstantInitBuilder::StructBuilder &Builder, + const llvm::Twine &Name, CodeGenModule &CGM) { + std::string SectionName; + if (CGM.getTriple().isOSBinFormatMachO()) + SectionName = "__DATA, __objc_const"; + auto *GV = Builder.finishAndCreateGlobal( + Name, CGM.getPointerAlign(), /*constant*/ false, + getLinkageTypeForObjCMetadata(CGM, SectionName)); + GV->setSection(SectionName); + return GV; +} + +/* *** CGObjCMac Public Interface *** */ + +CGObjCMac::CGObjCMac(CodeGen::CodeGenModule &cgm) : CGObjCCommonMac(cgm), + ObjCTypes(cgm) { + ObjCABI = 1; + EmitImageInfo(); +} + +/// GetClass - Return a reference to the class for the given interface +/// decl. +llvm::Value *CGObjCMac::GetClass(CodeGenFunction &CGF, + const ObjCInterfaceDecl *ID) { + return EmitClassRef(CGF, ID); +} + +/// GetSelector - Return the pointer to the unique'd string for this selector. +llvm::Value *CGObjCMac::GetSelector(CodeGenFunction &CGF, Selector Sel) { + return EmitSelector(CGF, Sel); +} +Address CGObjCMac::GetAddrOfSelector(CodeGenFunction &CGF, Selector Sel) { + return EmitSelectorAddr(CGF, Sel); +} +llvm::Value *CGObjCMac::GetSelector(CodeGenFunction &CGF, const ObjCMethodDecl + *Method) { + return EmitSelector(CGF, Method->getSelector()); +} + +llvm::Constant *CGObjCMac::GetEHType(QualType T) { + if (T->isObjCIdType() || + T->isObjCQualifiedIdType()) { + return CGM.GetAddrOfRTTIDescriptor( + CGM.getContext().getObjCIdRedefinitionType(), /*ForEH=*/true); + } + if (T->isObjCClassType() || + T->isObjCQualifiedClassType()) { + return CGM.GetAddrOfRTTIDescriptor( + CGM.getContext().getObjCClassRedefinitionType(), /*ForEH=*/true); + } + if (T->isObjCObjectPointerType()) + return CGM.GetAddrOfRTTIDescriptor(T, /*ForEH=*/true); + + llvm_unreachable("asking for catch type for ObjC type in fragile runtime"); +} + +/// Generate a constant CFString object. +/* + struct __builtin_CFString { + const int *isa; // point to __CFConstantStringClassReference + int flags; + const char *str; + long length; + }; +*/ + +/// or Generate a constant NSString object. +/* + struct __builtin_NSString { + const int *isa; // point to __NSConstantStringClassReference + const char *str; + unsigned int length; + }; +*/ + +ConstantAddress +CGObjCCommonMac::GenerateConstantString(const StringLiteral *SL) { + return (!CGM.getLangOpts().NoConstantCFStrings + ? CGM.GetAddrOfConstantCFString(SL) + : GenerateConstantNSString(SL)); +} + +static llvm::StringMapEntry<llvm::GlobalVariable *> & +GetConstantStringEntry(llvm::StringMap<llvm::GlobalVariable *> &Map, + const StringLiteral *Literal, unsigned &StringLength) { + StringRef String = Literal->getString(); + StringLength = String.size(); + return *Map.insert(std::make_pair(String, nullptr)).first; +} + +llvm::Constant *CGObjCMac::getNSConstantStringClassRef() { + if (llvm::Value *V = ConstantStringClassRef) + return cast<llvm::Constant>(V); + + auto &StringClass = CGM.getLangOpts().ObjCConstantStringClass; + std::string str = + StringClass.empty() ? "_NSConstantStringClassReference" + : "_" + StringClass + "ClassReference"; + + llvm::Type *PTy = llvm::ArrayType::get(CGM.IntTy, 0); + auto GV = CGM.CreateRuntimeVariable(PTy, str); + auto V = llvm::ConstantExpr::getBitCast(GV, CGM.IntTy->getPointerTo()); + ConstantStringClassRef = V; + return V; +} + +llvm::Constant *CGObjCNonFragileABIMac::getNSConstantStringClassRef() { + if (llvm::Value *V = ConstantStringClassRef) + return cast<llvm::Constant>(V); + + auto &StringClass = CGM.getLangOpts().ObjCConstantStringClass; + std::string str = + StringClass.empty() ? "OBJC_CLASS_$_NSConstantString" + : "OBJC_CLASS_$_" + StringClass; + llvm::Constant *GV = GetClassGlobal(str, NotForDefinition); + + // Make sure the result is of the correct type. + auto V = llvm::ConstantExpr::getBitCast(GV, CGM.IntTy->getPointerTo()); + + ConstantStringClassRef = V; + return V; +} + +ConstantAddress +CGObjCCommonMac::GenerateConstantNSString(const StringLiteral *Literal) { + unsigned StringLength = 0; + llvm::StringMapEntry<llvm::GlobalVariable *> &Entry = + GetConstantStringEntry(NSConstantStringMap, Literal, StringLength); + + if (auto *C = Entry.second) + return ConstantAddress(C, CharUnits::fromQuantity(C->getAlignment())); + + // If we don't already have it, get _NSConstantStringClassReference. + llvm::Constant *Class = getNSConstantStringClassRef(); + + // If we don't already have it, construct the type for a constant NSString. + if (!NSConstantStringType) { + NSConstantStringType = + llvm::StructType::create({ + CGM.Int32Ty->getPointerTo(), + CGM.Int8PtrTy, + CGM.IntTy + }, "struct.__builtin_NSString"); + } + + ConstantInitBuilder Builder(CGM); + auto Fields = Builder.beginStruct(NSConstantStringType); + + // Class pointer. + Fields.add(Class); + + // String pointer. + llvm::Constant *C = + llvm::ConstantDataArray::getString(VMContext, Entry.first()); + + llvm::GlobalValue::LinkageTypes Linkage = llvm::GlobalValue::PrivateLinkage; + bool isConstant = !CGM.getLangOpts().WritableStrings; + + auto *GV = new llvm::GlobalVariable(CGM.getModule(), C->getType(), isConstant, + Linkage, C, ".str"); + GV->setUnnamedAddr(llvm::GlobalValue::UnnamedAddr::Global); + // Don't enforce the target's minimum global alignment, since the only use + // of the string is via this class initializer. + GV->setAlignment(1); + Fields.addBitCast(GV, CGM.Int8PtrTy); + + // String length. + Fields.addInt(CGM.IntTy, StringLength); + + // The struct. + CharUnits Alignment = CGM.getPointerAlign(); + GV = Fields.finishAndCreateGlobal("_unnamed_nsstring_", Alignment, + /*constant*/ true, + llvm::GlobalVariable::PrivateLinkage); + const char *NSStringSection = "__OBJC,__cstring_object,regular,no_dead_strip"; + const char *NSStringNonFragileABISection = + "__DATA,__objc_stringobj,regular,no_dead_strip"; + // FIXME. Fix section. + GV->setSection(CGM.getLangOpts().ObjCRuntime.isNonFragile() + ? NSStringNonFragileABISection + : NSStringSection); + Entry.second = GV; + + return ConstantAddress(GV, Alignment); +} + +enum { + kCFTaggedObjectID_Integer = (1 << 1) + 1 +}; + +/// Generates a message send where the super is the receiver. This is +/// a message send to self with special delivery semantics indicating +/// which class's method should be called. +CodeGen::RValue +CGObjCMac::GenerateMessageSendSuper(CodeGen::CodeGenFunction &CGF, + ReturnValueSlot Return, + QualType ResultType, + Selector Sel, + const ObjCInterfaceDecl *Class, + bool isCategoryImpl, + llvm::Value *Receiver, + bool IsClassMessage, + const CodeGen::CallArgList &CallArgs, + const ObjCMethodDecl *Method) { + // Create and init a super structure; this is a (receiver, class) + // pair we will pass to objc_msgSendSuper. + Address ObjCSuper = + CGF.CreateTempAlloca(ObjCTypes.SuperTy, CGF.getPointerAlign(), + "objc_super"); + llvm::Value *ReceiverAsObject = + CGF.Builder.CreateBitCast(Receiver, ObjCTypes.ObjectPtrTy); + CGF.Builder.CreateStore(ReceiverAsObject, + CGF.Builder.CreateStructGEP(ObjCSuper, 0)); + + // If this is a class message the metaclass is passed as the target. + llvm::Value *Target; + if (IsClassMessage) { + if (isCategoryImpl) { + // Message sent to 'super' in a class method defined in a category + // implementation requires an odd treatment. + // If we are in a class method, we must retrieve the + // _metaclass_ for the current class, pointed at by + // the class's "isa" pointer. The following assumes that + // isa" is the first ivar in a class (which it must be). + Target = EmitClassRef(CGF, Class->getSuperClass()); + Target = CGF.Builder.CreateStructGEP(ObjCTypes.ClassTy, Target, 0); + Target = CGF.Builder.CreateAlignedLoad(Target, CGF.getPointerAlign()); + } else { + llvm::Constant *MetaClassPtr = EmitMetaClassRef(Class); + llvm::Value *SuperPtr = + CGF.Builder.CreateStructGEP(ObjCTypes.ClassTy, MetaClassPtr, 1); + llvm::Value *Super = + CGF.Builder.CreateAlignedLoad(SuperPtr, CGF.getPointerAlign()); + Target = Super; + } + } else if (isCategoryImpl) + Target = EmitClassRef(CGF, Class->getSuperClass()); + else { + llvm::Value *ClassPtr = EmitSuperClassRef(Class); + ClassPtr = CGF.Builder.CreateStructGEP(ObjCTypes.ClassTy, ClassPtr, 1); + Target = CGF.Builder.CreateAlignedLoad(ClassPtr, CGF.getPointerAlign()); + } + // FIXME: We shouldn't need to do this cast, rectify the ASTContext and + // ObjCTypes types. + llvm::Type *ClassTy = + CGM.getTypes().ConvertType(CGF.getContext().getObjCClassType()); + Target = CGF.Builder.CreateBitCast(Target, ClassTy); + CGF.Builder.CreateStore(Target, CGF.Builder.CreateStructGEP(ObjCSuper, 1)); + return EmitMessageSend(CGF, Return, ResultType, + EmitSelector(CGF, Sel), + ObjCSuper.getPointer(), ObjCTypes.SuperPtrCTy, + true, CallArgs, Method, Class, ObjCTypes); +} + +/// Generate code for a message send expression. +CodeGen::RValue CGObjCMac::GenerateMessageSend(CodeGen::CodeGenFunction &CGF, + ReturnValueSlot Return, + QualType ResultType, + Selector Sel, + llvm::Value *Receiver, + const CallArgList &CallArgs, + const ObjCInterfaceDecl *Class, + const ObjCMethodDecl *Method) { + return EmitMessageSend(CGF, Return, ResultType, + EmitSelector(CGF, Sel), + Receiver, CGF.getContext().getObjCIdType(), + false, CallArgs, Method, Class, ObjCTypes); +} + +static bool isWeakLinkedClass(const ObjCInterfaceDecl *ID) { + do { + if (ID->isWeakImported()) + return true; + } while ((ID = ID->getSuperClass())); + + return false; +} + +CodeGen::RValue +CGObjCCommonMac::EmitMessageSend(CodeGen::CodeGenFunction &CGF, + ReturnValueSlot Return, + QualType ResultType, + llvm::Value *Sel, + llvm::Value *Arg0, + QualType Arg0Ty, + bool IsSuper, + const CallArgList &CallArgs, + const ObjCMethodDecl *Method, + const ObjCInterfaceDecl *ClassReceiver, + const ObjCCommonTypesHelper &ObjCTypes) { + CallArgList ActualArgs; + if (!IsSuper) + Arg0 = CGF.Builder.CreateBitCast(Arg0, ObjCTypes.ObjectPtrTy); + ActualArgs.add(RValue::get(Arg0), Arg0Ty); + ActualArgs.add(RValue::get(Sel), CGF.getContext().getObjCSelType()); + ActualArgs.addFrom(CallArgs); + + // If we're calling a method, use the formal signature. + MessageSendInfo MSI = getMessageSendInfo(Method, ResultType, ActualArgs); + + if (Method) + assert(CGM.getContext().getCanonicalType(Method->getReturnType()) == + CGM.getContext().getCanonicalType(ResultType) && + "Result type mismatch!"); + + bool ReceiverCanBeNull = true; + + // Super dispatch assumes that self is non-null; even the messenger + // doesn't have a null check internally. + if (IsSuper) { + ReceiverCanBeNull = false; + + // If this is a direct dispatch of a class method, check whether the class, + // or anything in its hierarchy, was weak-linked. + } else if (ClassReceiver && Method && Method->isClassMethod()) { + ReceiverCanBeNull = isWeakLinkedClass(ClassReceiver); + + // If we're emitting a method, and self is const (meaning just ARC, for now), + // and the receiver is a load of self, then self is a valid object. + } else if (auto CurMethod = + dyn_cast_or_null<ObjCMethodDecl>(CGF.CurCodeDecl)) { + auto Self = CurMethod->getSelfDecl(); + if (Self->getType().isConstQualified()) { + if (auto LI = dyn_cast<llvm::LoadInst>(Arg0->stripPointerCasts())) { + llvm::Value *SelfAddr = CGF.GetAddrOfLocalVar(Self).getPointer(); + if (SelfAddr == LI->getPointerOperand()) { + ReceiverCanBeNull = false; + } + } + } + } + + bool RequiresNullCheck = false; + + llvm::FunctionCallee Fn = nullptr; + if (CGM.ReturnSlotInterferesWithArgs(MSI.CallInfo)) { + if (ReceiverCanBeNull) RequiresNullCheck = true; + Fn = (ObjCABI == 2) ? ObjCTypes.getSendStretFn2(IsSuper) + : ObjCTypes.getSendStretFn(IsSuper); + } else if (CGM.ReturnTypeUsesFPRet(ResultType)) { + Fn = (ObjCABI == 2) ? ObjCTypes.getSendFpretFn2(IsSuper) + : ObjCTypes.getSendFpretFn(IsSuper); + } else if (CGM.ReturnTypeUsesFP2Ret(ResultType)) { + Fn = (ObjCABI == 2) ? ObjCTypes.getSendFp2RetFn2(IsSuper) + : ObjCTypes.getSendFp2retFn(IsSuper); + } else { + // arm64 uses objc_msgSend for stret methods and yet null receiver check + // must be made for it. + if (ReceiverCanBeNull && CGM.ReturnTypeUsesSRet(MSI.CallInfo)) + RequiresNullCheck = true; + Fn = (ObjCABI == 2) ? ObjCTypes.getSendFn2(IsSuper) + : ObjCTypes.getSendFn(IsSuper); + } + + // Cast function to proper signature + llvm::Constant *BitcastFn = cast<llvm::Constant>( + CGF.Builder.CreateBitCast(Fn.getCallee(), MSI.MessengerType)); + + // We don't need to emit a null check to zero out an indirect result if the + // result is ignored. + if (Return.isUnused()) + RequiresNullCheck = false; + + // Emit a null-check if there's a consumed argument other than the receiver. + if (!RequiresNullCheck && CGM.getLangOpts().ObjCAutoRefCount && Method) { + for (const auto *ParamDecl : Method->parameters()) { + if (ParamDecl->hasAttr<NSConsumedAttr>()) { + RequiresNullCheck = true; + break; + } + } + } + + NullReturnState nullReturn; + if (RequiresNullCheck) { + nullReturn.init(CGF, Arg0); + } + + llvm::CallBase *CallSite; + CGCallee Callee = CGCallee::forDirect(BitcastFn); + RValue rvalue = CGF.EmitCall(MSI.CallInfo, Callee, Return, ActualArgs, + &CallSite); + + // Mark the call as noreturn if the method is marked noreturn and the + // receiver cannot be null. + if (Method && Method->hasAttr<NoReturnAttr>() && !ReceiverCanBeNull) { + CallSite->setDoesNotReturn(); + } + + return nullReturn.complete(CGF, Return, rvalue, ResultType, CallArgs, + RequiresNullCheck ? Method : nullptr); +} + +static Qualifiers::GC GetGCAttrTypeForType(ASTContext &Ctx, QualType FQT, + bool pointee = false) { + // Note that GC qualification applies recursively to C pointer types + // that aren't otherwise decorated. This is weird, but it's probably + // an intentional workaround to the unreliable placement of GC qualifiers. + if (FQT.isObjCGCStrong()) + return Qualifiers::Strong; + + if (FQT.isObjCGCWeak()) + return Qualifiers::Weak; + + if (auto ownership = FQT.getObjCLifetime()) { + // Ownership does not apply recursively to C pointer types. + if (pointee) return Qualifiers::GCNone; + switch (ownership) { + case Qualifiers::OCL_Weak: return Qualifiers::Weak; + case Qualifiers::OCL_Strong: return Qualifiers::Strong; + case Qualifiers::OCL_ExplicitNone: return Qualifiers::GCNone; + case Qualifiers::OCL_Autoreleasing: llvm_unreachable("autoreleasing ivar?"); + case Qualifiers::OCL_None: llvm_unreachable("known nonzero"); + } + llvm_unreachable("bad objc ownership"); + } + + // Treat unqualified retainable pointers as strong. + if (FQT->isObjCObjectPointerType() || FQT->isBlockPointerType()) + return Qualifiers::Strong; + + // Walk into C pointer types, but only in GC. + if (Ctx.getLangOpts().getGC() != LangOptions::NonGC) { + if (const PointerType *PT = FQT->getAs<PointerType>()) + return GetGCAttrTypeForType(Ctx, PT->getPointeeType(), /*pointee*/ true); + } + + return Qualifiers::GCNone; +} + +namespace { + struct IvarInfo { + CharUnits Offset; + uint64_t SizeInWords; + IvarInfo(CharUnits offset, uint64_t sizeInWords) + : Offset(offset), SizeInWords(sizeInWords) {} + + // Allow sorting based on byte pos. + bool operator<(const IvarInfo &other) const { + return Offset < other.Offset; + } + }; + + /// A helper class for building GC layout strings. + class IvarLayoutBuilder { + CodeGenModule &CGM; + + /// The start of the layout. Offsets will be relative to this value, + /// and entries less than this value will be silently discarded. + CharUnits InstanceBegin; + + /// The end of the layout. Offsets will never exceed this value. + CharUnits InstanceEnd; + + /// Whether we're generating the strong layout or the weak layout. + bool ForStrongLayout; + + /// Whether the offsets in IvarsInfo might be out-of-order. + bool IsDisordered = false; + + llvm::SmallVector<IvarInfo, 8> IvarsInfo; + + public: + IvarLayoutBuilder(CodeGenModule &CGM, CharUnits instanceBegin, + CharUnits instanceEnd, bool forStrongLayout) + : CGM(CGM), InstanceBegin(instanceBegin), InstanceEnd(instanceEnd), + ForStrongLayout(forStrongLayout) { + } + + void visitRecord(const RecordType *RT, CharUnits offset); + + template <class Iterator, class GetOffsetFn> + void visitAggregate(Iterator begin, Iterator end, + CharUnits aggrOffset, + const GetOffsetFn &getOffset); + + void visitField(const FieldDecl *field, CharUnits offset); + + /// Add the layout of a block implementation. + void visitBlock(const CGBlockInfo &blockInfo); + + /// Is there any information for an interesting bitmap? + bool hasBitmapData() const { return !IvarsInfo.empty(); } + + llvm::Constant *buildBitmap(CGObjCCommonMac &CGObjC, + llvm::SmallVectorImpl<unsigned char> &buffer); + + static void dump(ArrayRef<unsigned char> buffer) { + const unsigned char *s = buffer.data(); + for (unsigned i = 0, e = buffer.size(); i < e; i++) + if (!(s[i] & 0xf0)) + printf("0x0%x%s", s[i], s[i] != 0 ? ", " : ""); + else + printf("0x%x%s", s[i], s[i] != 0 ? ", " : ""); + printf("\n"); + } + }; +} // end anonymous namespace + +llvm::Constant *CGObjCCommonMac::BuildGCBlockLayout(CodeGenModule &CGM, + const CGBlockInfo &blockInfo) { + + llvm::Constant *nullPtr = llvm::Constant::getNullValue(CGM.Int8PtrTy); + if (CGM.getLangOpts().getGC() == LangOptions::NonGC) + return nullPtr; + + IvarLayoutBuilder builder(CGM, CharUnits::Zero(), blockInfo.BlockSize, + /*for strong layout*/ true); + + builder.visitBlock(blockInfo); + + if (!builder.hasBitmapData()) + return nullPtr; + + llvm::SmallVector<unsigned char, 32> buffer; + llvm::Constant *C = builder.buildBitmap(*this, buffer); + if (CGM.getLangOpts().ObjCGCBitmapPrint && !buffer.empty()) { + printf("\n block variable layout for block: "); + builder.dump(buffer); + } + + return C; +} + +void IvarLayoutBuilder::visitBlock(const CGBlockInfo &blockInfo) { + // __isa is the first field in block descriptor and must assume by runtime's + // convention that it is GC'able. + IvarsInfo.push_back(IvarInfo(CharUnits::Zero(), 1)); + + const BlockDecl *blockDecl = blockInfo.getBlockDecl(); + + // Ignore the optional 'this' capture: C++ objects are not assumed + // to be GC'ed. + + CharUnits lastFieldOffset; + + // Walk the captured variables. + for (const auto &CI : blockDecl->captures()) { + const VarDecl *variable = CI.getVariable(); + QualType type = variable->getType(); + + const CGBlockInfo::Capture &capture = blockInfo.getCapture(variable); + + // Ignore constant captures. + if (capture.isConstant()) continue; + + CharUnits fieldOffset = capture.getOffset(); + + // Block fields are not necessarily ordered; if we detect that we're + // adding them out-of-order, make sure we sort later. + if (fieldOffset < lastFieldOffset) + IsDisordered = true; + lastFieldOffset = fieldOffset; + + // __block variables are passed by their descriptor address. + if (CI.isByRef()) { + IvarsInfo.push_back(IvarInfo(fieldOffset, /*size in words*/ 1)); + continue; + } + + assert(!type->isArrayType() && "array variable should not be caught"); + if (const RecordType *record = type->getAs<RecordType>()) { + visitRecord(record, fieldOffset); + continue; + } + + Qualifiers::GC GCAttr = GetGCAttrTypeForType(CGM.getContext(), type); + + if (GCAttr == Qualifiers::Strong) { + assert(CGM.getContext().getTypeSize(type) + == CGM.getTarget().getPointerWidth(0)); + IvarsInfo.push_back(IvarInfo(fieldOffset, /*size in words*/ 1)); + } + } +} + +/// getBlockCaptureLifetime - This routine returns life time of the captured +/// block variable for the purpose of block layout meta-data generation. FQT is +/// the type of the variable captured in the block. +Qualifiers::ObjCLifetime CGObjCCommonMac::getBlockCaptureLifetime(QualType FQT, + bool ByrefLayout) { + // If it has an ownership qualifier, we're done. + if (auto lifetime = FQT.getObjCLifetime()) + return lifetime; + + // If it doesn't, and this is ARC, it has no ownership. + if (CGM.getLangOpts().ObjCAutoRefCount) + return Qualifiers::OCL_None; + + // In MRC, retainable pointers are owned by non-__block variables. + if (FQT->isObjCObjectPointerType() || FQT->isBlockPointerType()) + return ByrefLayout ? Qualifiers::OCL_ExplicitNone : Qualifiers::OCL_Strong; + + return Qualifiers::OCL_None; +} + +void CGObjCCommonMac::UpdateRunSkipBlockVars(bool IsByref, + Qualifiers::ObjCLifetime LifeTime, + CharUnits FieldOffset, + CharUnits FieldSize) { + // __block variables are passed by their descriptor address. + if (IsByref) + RunSkipBlockVars.push_back(RUN_SKIP(BLOCK_LAYOUT_BYREF, FieldOffset, + FieldSize)); + else if (LifeTime == Qualifiers::OCL_Strong) + RunSkipBlockVars.push_back(RUN_SKIP(BLOCK_LAYOUT_STRONG, FieldOffset, + FieldSize)); + else if (LifeTime == Qualifiers::OCL_Weak) + RunSkipBlockVars.push_back(RUN_SKIP(BLOCK_LAYOUT_WEAK, FieldOffset, + FieldSize)); + else if (LifeTime == Qualifiers::OCL_ExplicitNone) + RunSkipBlockVars.push_back(RUN_SKIP(BLOCK_LAYOUT_UNRETAINED, FieldOffset, + FieldSize)); + else + RunSkipBlockVars.push_back(RUN_SKIP(BLOCK_LAYOUT_NON_OBJECT_BYTES, + FieldOffset, + FieldSize)); +} + +void CGObjCCommonMac::BuildRCRecordLayout(const llvm::StructLayout *RecLayout, + const RecordDecl *RD, + ArrayRef<const FieldDecl*> RecFields, + CharUnits BytePos, bool &HasUnion, + bool ByrefLayout) { + bool IsUnion = (RD && RD->isUnion()); + CharUnits MaxUnionSize = CharUnits::Zero(); + const FieldDecl *MaxField = nullptr; + const FieldDecl *LastFieldBitfieldOrUnnamed = nullptr; + CharUnits MaxFieldOffset = CharUnits::Zero(); + CharUnits LastBitfieldOrUnnamedOffset = CharUnits::Zero(); + + if (RecFields.empty()) + return; + unsigned ByteSizeInBits = CGM.getTarget().getCharWidth(); + + for (unsigned i = 0, e = RecFields.size(); i != e; ++i) { + const FieldDecl *Field = RecFields[i]; + // Note that 'i' here is actually the field index inside RD of Field, + // although this dependency is hidden. + const ASTRecordLayout &RL = CGM.getContext().getASTRecordLayout(RD); + CharUnits FieldOffset = + CGM.getContext().toCharUnitsFromBits(RL.getFieldOffset(i)); + + // Skip over unnamed or bitfields + if (!Field->getIdentifier() || Field->isBitField()) { + LastFieldBitfieldOrUnnamed = Field; + LastBitfieldOrUnnamedOffset = FieldOffset; + continue; + } + + LastFieldBitfieldOrUnnamed = nullptr; + QualType FQT = Field->getType(); + if (FQT->isRecordType() || FQT->isUnionType()) { + if (FQT->isUnionType()) + HasUnion = true; + + BuildRCBlockVarRecordLayout(FQT->getAs<RecordType>(), + BytePos + FieldOffset, HasUnion); + continue; + } + + if (const ArrayType *Array = CGM.getContext().getAsArrayType(FQT)) { + const ConstantArrayType *CArray = + dyn_cast_or_null<ConstantArrayType>(Array); + uint64_t ElCount = CArray->getSize().getZExtValue(); + assert(CArray && "only array with known element size is supported"); + FQT = CArray->getElementType(); + while (const ArrayType *Array = CGM.getContext().getAsArrayType(FQT)) { + const ConstantArrayType *CArray = + dyn_cast_or_null<ConstantArrayType>(Array); + ElCount *= CArray->getSize().getZExtValue(); + FQT = CArray->getElementType(); + } + if (FQT->isRecordType() && ElCount) { + int OldIndex = RunSkipBlockVars.size() - 1; + const RecordType *RT = FQT->getAs<RecordType>(); + BuildRCBlockVarRecordLayout(RT, BytePos + FieldOffset, + HasUnion); + + // Replicate layout information for each array element. Note that + // one element is already done. + uint64_t ElIx = 1; + for (int FirstIndex = RunSkipBlockVars.size() - 1 ;ElIx < ElCount; ElIx++) { + CharUnits Size = CGM.getContext().getTypeSizeInChars(RT); + for (int i = OldIndex+1; i <= FirstIndex; ++i) + RunSkipBlockVars.push_back( + RUN_SKIP(RunSkipBlockVars[i].opcode, + RunSkipBlockVars[i].block_var_bytepos + Size*ElIx, + RunSkipBlockVars[i].block_var_size)); + } + continue; + } + } + CharUnits FieldSize = CGM.getContext().getTypeSizeInChars(Field->getType()); + if (IsUnion) { + CharUnits UnionIvarSize = FieldSize; + if (UnionIvarSize > MaxUnionSize) { + MaxUnionSize = UnionIvarSize; + MaxField = Field; + MaxFieldOffset = FieldOffset; + } + } else { + UpdateRunSkipBlockVars(false, + getBlockCaptureLifetime(FQT, ByrefLayout), + BytePos + FieldOffset, + FieldSize); + } + } + + if (LastFieldBitfieldOrUnnamed) { + if (LastFieldBitfieldOrUnnamed->isBitField()) { + // Last field was a bitfield. Must update the info. + uint64_t BitFieldSize + = LastFieldBitfieldOrUnnamed->getBitWidthValue(CGM.getContext()); + unsigned UnsSize = (BitFieldSize / ByteSizeInBits) + + ((BitFieldSize % ByteSizeInBits) != 0); + CharUnits Size = CharUnits::fromQuantity(UnsSize); + Size += LastBitfieldOrUnnamedOffset; + UpdateRunSkipBlockVars(false, + getBlockCaptureLifetime(LastFieldBitfieldOrUnnamed->getType(), + ByrefLayout), + BytePos + LastBitfieldOrUnnamedOffset, + Size); + } else { + assert(!LastFieldBitfieldOrUnnamed->getIdentifier() &&"Expected unnamed"); + // Last field was unnamed. Must update skip info. + CharUnits FieldSize + = CGM.getContext().getTypeSizeInChars(LastFieldBitfieldOrUnnamed->getType()); + UpdateRunSkipBlockVars(false, + getBlockCaptureLifetime(LastFieldBitfieldOrUnnamed->getType(), + ByrefLayout), + BytePos + LastBitfieldOrUnnamedOffset, + FieldSize); + } + } + + if (MaxField) + UpdateRunSkipBlockVars(false, + getBlockCaptureLifetime(MaxField->getType(), ByrefLayout), + BytePos + MaxFieldOffset, + MaxUnionSize); +} + +void CGObjCCommonMac::BuildRCBlockVarRecordLayout(const RecordType *RT, + CharUnits BytePos, + bool &HasUnion, + bool ByrefLayout) { + const RecordDecl *RD = RT->getDecl(); + SmallVector<const FieldDecl*, 16> Fields(RD->fields()); + llvm::Type *Ty = CGM.getTypes().ConvertType(QualType(RT, 0)); + const llvm::StructLayout *RecLayout = + CGM.getDataLayout().getStructLayout(cast<llvm::StructType>(Ty)); + + BuildRCRecordLayout(RecLayout, RD, Fields, BytePos, HasUnion, ByrefLayout); +} + +/// InlineLayoutInstruction - This routine produce an inline instruction for the +/// block variable layout if it can. If not, it returns 0. Rules are as follow: +/// If ((uintptr_t) layout) < (1 << 12), the layout is inline. In the 64bit world, +/// an inline layout of value 0x0000000000000xyz is interpreted as follows: +/// x captured object pointers of BLOCK_LAYOUT_STRONG. Followed by +/// y captured object of BLOCK_LAYOUT_BYREF. Followed by +/// z captured object of BLOCK_LAYOUT_WEAK. If any of the above is missing, zero +/// replaces it. For example, 0x00000x00 means x BLOCK_LAYOUT_STRONG and no +/// BLOCK_LAYOUT_BYREF and no BLOCK_LAYOUT_WEAK objects are captured. +uint64_t CGObjCCommonMac::InlineLayoutInstruction( + SmallVectorImpl<unsigned char> &Layout) { + uint64_t Result = 0; + if (Layout.size() <= 3) { + unsigned size = Layout.size(); + unsigned strong_word_count = 0, byref_word_count=0, weak_word_count=0; + unsigned char inst; + enum BLOCK_LAYOUT_OPCODE opcode ; + switch (size) { + case 3: + inst = Layout[0]; + opcode = (enum BLOCK_LAYOUT_OPCODE) (inst >> 4); + if (opcode == BLOCK_LAYOUT_STRONG) + strong_word_count = (inst & 0xF)+1; + else + return 0; + inst = Layout[1]; + opcode = (enum BLOCK_LAYOUT_OPCODE) (inst >> 4); + if (opcode == BLOCK_LAYOUT_BYREF) + byref_word_count = (inst & 0xF)+1; + else + return 0; + inst = Layout[2]; + opcode = (enum BLOCK_LAYOUT_OPCODE) (inst >> 4); + if (opcode == BLOCK_LAYOUT_WEAK) + weak_word_count = (inst & 0xF)+1; + else + return 0; + break; + + case 2: + inst = Layout[0]; + opcode = (enum BLOCK_LAYOUT_OPCODE) (inst >> 4); + if (opcode == BLOCK_LAYOUT_STRONG) { + strong_word_count = (inst & 0xF)+1; + inst = Layout[1]; + opcode = (enum BLOCK_LAYOUT_OPCODE) (inst >> 4); + if (opcode == BLOCK_LAYOUT_BYREF) + byref_word_count = (inst & 0xF)+1; + else if (opcode == BLOCK_LAYOUT_WEAK) + weak_word_count = (inst & 0xF)+1; + else + return 0; + } + else if (opcode == BLOCK_LAYOUT_BYREF) { + byref_word_count = (inst & 0xF)+1; + inst = Layout[1]; + opcode = (enum BLOCK_LAYOUT_OPCODE) (inst >> 4); + if (opcode == BLOCK_LAYOUT_WEAK) + weak_word_count = (inst & 0xF)+1; + else + return 0; + } + else + return 0; + break; + + case 1: + inst = Layout[0]; + opcode = (enum BLOCK_LAYOUT_OPCODE) (inst >> 4); + if (opcode == BLOCK_LAYOUT_STRONG) + strong_word_count = (inst & 0xF)+1; + else if (opcode == BLOCK_LAYOUT_BYREF) + byref_word_count = (inst & 0xF)+1; + else if (opcode == BLOCK_LAYOUT_WEAK) + weak_word_count = (inst & 0xF)+1; + else + return 0; + break; + + default: + return 0; + } + + // Cannot inline when any of the word counts is 15. Because this is one less + // than the actual work count (so 15 means 16 actual word counts), + // and we can only display 0 thru 15 word counts. + if (strong_word_count == 16 || byref_word_count == 16 || weak_word_count == 16) + return 0; + + unsigned count = + (strong_word_count != 0) + (byref_word_count != 0) + (weak_word_count != 0); + + if (size == count) { + if (strong_word_count) + Result = strong_word_count; + Result <<= 4; + if (byref_word_count) + Result += byref_word_count; + Result <<= 4; + if (weak_word_count) + Result += weak_word_count; + } + } + return Result; +} + +llvm::Constant *CGObjCCommonMac::getBitmapBlockLayout(bool ComputeByrefLayout) { + llvm::Constant *nullPtr = llvm::Constant::getNullValue(CGM.Int8PtrTy); + if (RunSkipBlockVars.empty()) + return nullPtr; + unsigned WordSizeInBits = CGM.getTarget().getPointerWidth(0); + unsigned ByteSizeInBits = CGM.getTarget().getCharWidth(); + unsigned WordSizeInBytes = WordSizeInBits/ByteSizeInBits; + + // Sort on byte position; captures might not be allocated in order, + // and unions can do funny things. + llvm::array_pod_sort(RunSkipBlockVars.begin(), RunSkipBlockVars.end()); + SmallVector<unsigned char, 16> Layout; + + unsigned size = RunSkipBlockVars.size(); + for (unsigned i = 0; i < size; i++) { + enum BLOCK_LAYOUT_OPCODE opcode = RunSkipBlockVars[i].opcode; + CharUnits start_byte_pos = RunSkipBlockVars[i].block_var_bytepos; + CharUnits end_byte_pos = start_byte_pos; + unsigned j = i+1; + while (j < size) { + if (opcode == RunSkipBlockVars[j].opcode) { + end_byte_pos = RunSkipBlockVars[j++].block_var_bytepos; + i++; + } + else + break; + } + CharUnits size_in_bytes = + end_byte_pos - start_byte_pos + RunSkipBlockVars[j-1].block_var_size; + if (j < size) { + CharUnits gap = + RunSkipBlockVars[j].block_var_bytepos - + RunSkipBlockVars[j-1].block_var_bytepos - RunSkipBlockVars[j-1].block_var_size; + size_in_bytes += gap; + } + CharUnits residue_in_bytes = CharUnits::Zero(); + if (opcode == BLOCK_LAYOUT_NON_OBJECT_BYTES) { + residue_in_bytes = size_in_bytes % WordSizeInBytes; + size_in_bytes -= residue_in_bytes; + opcode = BLOCK_LAYOUT_NON_OBJECT_WORDS; + } + + unsigned size_in_words = size_in_bytes.getQuantity() / WordSizeInBytes; + while (size_in_words >= 16) { + // Note that value in imm. is one less that the actual + // value. So, 0xf means 16 words follow! + unsigned char inst = (opcode << 4) | 0xf; + Layout.push_back(inst); + size_in_words -= 16; + } + if (size_in_words > 0) { + // Note that value in imm. is one less that the actual + // value. So, we subtract 1 away! + unsigned char inst = (opcode << 4) | (size_in_words-1); + Layout.push_back(inst); + } + if (residue_in_bytes > CharUnits::Zero()) { + unsigned char inst = + (BLOCK_LAYOUT_NON_OBJECT_BYTES << 4) | (residue_in_bytes.getQuantity()-1); + Layout.push_back(inst); + } + } + + while (!Layout.empty()) { + unsigned char inst = Layout.back(); + enum BLOCK_LAYOUT_OPCODE opcode = (enum BLOCK_LAYOUT_OPCODE) (inst >> 4); + if (opcode == BLOCK_LAYOUT_NON_OBJECT_BYTES || opcode == BLOCK_LAYOUT_NON_OBJECT_WORDS) + Layout.pop_back(); + else + break; + } + + uint64_t Result = InlineLayoutInstruction(Layout); + if (Result != 0) { + // Block variable layout instruction has been inlined. + if (CGM.getLangOpts().ObjCGCBitmapPrint) { + if (ComputeByrefLayout) + printf("\n Inline BYREF variable layout: "); + else + printf("\n Inline block variable layout: "); + printf("0x0%" PRIx64 "", Result); + if (auto numStrong = (Result & 0xF00) >> 8) + printf(", BL_STRONG:%d", (int) numStrong); + if (auto numByref = (Result & 0x0F0) >> 4) + printf(", BL_BYREF:%d", (int) numByref); + if (auto numWeak = (Result & 0x00F) >> 0) + printf(", BL_WEAK:%d", (int) numWeak); + printf(", BL_OPERATOR:0\n"); + } + return llvm::ConstantInt::get(CGM.IntPtrTy, Result); + } + + unsigned char inst = (BLOCK_LAYOUT_OPERATOR << 4) | 0; + Layout.push_back(inst); + std::string BitMap; + for (unsigned i = 0, e = Layout.size(); i != e; i++) + BitMap += Layout[i]; + + if (CGM.getLangOpts().ObjCGCBitmapPrint) { + if (ComputeByrefLayout) + printf("\n Byref variable layout: "); + else + printf("\n Block variable layout: "); + for (unsigned i = 0, e = BitMap.size(); i != e; i++) { + unsigned char inst = BitMap[i]; + enum BLOCK_LAYOUT_OPCODE opcode = (enum BLOCK_LAYOUT_OPCODE) (inst >> 4); + unsigned delta = 1; + switch (opcode) { + case BLOCK_LAYOUT_OPERATOR: + printf("BL_OPERATOR:"); + delta = 0; + break; + case BLOCK_LAYOUT_NON_OBJECT_BYTES: + printf("BL_NON_OBJECT_BYTES:"); + break; + case BLOCK_LAYOUT_NON_OBJECT_WORDS: + printf("BL_NON_OBJECT_WORD:"); + break; + case BLOCK_LAYOUT_STRONG: + printf("BL_STRONG:"); + break; + case BLOCK_LAYOUT_BYREF: + printf("BL_BYREF:"); + break; + case BLOCK_LAYOUT_WEAK: + printf("BL_WEAK:"); + break; + case BLOCK_LAYOUT_UNRETAINED: + printf("BL_UNRETAINED:"); + break; + } + // Actual value of word count is one more that what is in the imm. + // field of the instruction + printf("%d", (inst & 0xf) + delta); + if (i < e-1) + printf(", "); + else + printf("\n"); + } + } + + auto *Entry = CreateCStringLiteral(BitMap, ObjCLabelType::ClassName, + /*ForceNonFragileABI=*/true, + /*NullTerminate=*/false); + return getConstantGEP(VMContext, Entry, 0, 0); +} + +static std::string getBlockLayoutInfoString( + const SmallVectorImpl<CGObjCCommonMac::RUN_SKIP> &RunSkipBlockVars, + bool HasCopyDisposeHelpers) { + std::string Str; + for (const CGObjCCommonMac::RUN_SKIP &R : RunSkipBlockVars) { + if (R.opcode == CGObjCCommonMac::BLOCK_LAYOUT_UNRETAINED) { + // Copy/dispose helpers don't have any information about + // __unsafe_unretained captures, so unconditionally concatenate a string. + Str += "u"; + } else if (HasCopyDisposeHelpers) { + // Information about __strong, __weak, or byref captures has already been + // encoded into the names of the copy/dispose helpers. We have to add a + // string here only when the copy/dispose helpers aren't generated (which + // happens when the block is non-escaping). + continue; + } else { + switch (R.opcode) { + case CGObjCCommonMac::BLOCK_LAYOUT_STRONG: + Str += "s"; + break; + case CGObjCCommonMac::BLOCK_LAYOUT_BYREF: + Str += "r"; + break; + case CGObjCCommonMac::BLOCK_LAYOUT_WEAK: + Str += "w"; + break; + default: + continue; + } + } + Str += llvm::to_string(R.block_var_bytepos.getQuantity()); + Str += "l" + llvm::to_string(R.block_var_size.getQuantity()); + } + return Str; +} + +void CGObjCCommonMac::fillRunSkipBlockVars(CodeGenModule &CGM, + const CGBlockInfo &blockInfo) { + assert(CGM.getLangOpts().getGC() == LangOptions::NonGC); + + RunSkipBlockVars.clear(); + bool hasUnion = false; + + unsigned WordSizeInBits = CGM.getTarget().getPointerWidth(0); + unsigned ByteSizeInBits = CGM.getTarget().getCharWidth(); + unsigned WordSizeInBytes = WordSizeInBits/ByteSizeInBits; + + const BlockDecl *blockDecl = blockInfo.getBlockDecl(); + + // Calculate the basic layout of the block structure. + const llvm::StructLayout *layout = + CGM.getDataLayout().getStructLayout(blockInfo.StructureType); + + // Ignore the optional 'this' capture: C++ objects are not assumed + // to be GC'ed. + if (blockInfo.BlockHeaderForcedGapSize != CharUnits::Zero()) + UpdateRunSkipBlockVars(false, Qualifiers::OCL_None, + blockInfo.BlockHeaderForcedGapOffset, + blockInfo.BlockHeaderForcedGapSize); + // Walk the captured variables. + for (const auto &CI : blockDecl->captures()) { + const VarDecl *variable = CI.getVariable(); + QualType type = variable->getType(); + + const CGBlockInfo::Capture &capture = blockInfo.getCapture(variable); + + // Ignore constant captures. + if (capture.isConstant()) continue; + + CharUnits fieldOffset = + CharUnits::fromQuantity(layout->getElementOffset(capture.getIndex())); + + assert(!type->isArrayType() && "array variable should not be caught"); + if (!CI.isByRef()) + if (const RecordType *record = type->getAs<RecordType>()) { + BuildRCBlockVarRecordLayout(record, fieldOffset, hasUnion); + continue; + } + CharUnits fieldSize; + if (CI.isByRef()) + fieldSize = CharUnits::fromQuantity(WordSizeInBytes); + else + fieldSize = CGM.getContext().getTypeSizeInChars(type); + UpdateRunSkipBlockVars(CI.isByRef(), getBlockCaptureLifetime(type, false), + fieldOffset, fieldSize); + } +} + +llvm::Constant * +CGObjCCommonMac::BuildRCBlockLayout(CodeGenModule &CGM, + const CGBlockInfo &blockInfo) { + fillRunSkipBlockVars(CGM, blockInfo); + return getBitmapBlockLayout(false); +} + +std::string CGObjCCommonMac::getRCBlockLayoutStr(CodeGenModule &CGM, + const CGBlockInfo &blockInfo) { + fillRunSkipBlockVars(CGM, blockInfo); + return getBlockLayoutInfoString(RunSkipBlockVars, + blockInfo.needsCopyDisposeHelpers()); +} + +llvm::Constant *CGObjCCommonMac::BuildByrefLayout(CodeGen::CodeGenModule &CGM, + QualType T) { + assert(CGM.getLangOpts().getGC() == LangOptions::NonGC); + assert(!T->isArrayType() && "__block array variable should not be caught"); + CharUnits fieldOffset; + RunSkipBlockVars.clear(); + bool hasUnion = false; + if (const RecordType *record = T->getAs<RecordType>()) { + BuildRCBlockVarRecordLayout(record, fieldOffset, hasUnion, true /*ByrefLayout */); + llvm::Constant *Result = getBitmapBlockLayout(true); + if (isa<llvm::ConstantInt>(Result)) + Result = llvm::ConstantExpr::getIntToPtr(Result, CGM.Int8PtrTy); + return Result; + } + llvm::Constant *nullPtr = llvm::Constant::getNullValue(CGM.Int8PtrTy); + return nullPtr; +} + +llvm::Value *CGObjCMac::GenerateProtocolRef(CodeGenFunction &CGF, + const ObjCProtocolDecl *PD) { + // FIXME: I don't understand why gcc generates this, or where it is + // resolved. Investigate. Its also wasteful to look this up over and over. + LazySymbols.insert(&CGM.getContext().Idents.get("Protocol")); + + return llvm::ConstantExpr::getBitCast(GetProtocolRef(PD), + ObjCTypes.getExternalProtocolPtrTy()); +} + +void CGObjCCommonMac::GenerateProtocol(const ObjCProtocolDecl *PD) { + // FIXME: We shouldn't need this, the protocol decl should contain enough + // information to tell us whether this was a declaration or a definition. + DefinedProtocols.insert(PD->getIdentifier()); + + // If we have generated a forward reference to this protocol, emit + // it now. Otherwise do nothing, the protocol objects are lazily + // emitted. + if (Protocols.count(PD->getIdentifier())) + GetOrEmitProtocol(PD); +} + +llvm::Constant *CGObjCCommonMac::GetProtocolRef(const ObjCProtocolDecl *PD) { + if (DefinedProtocols.count(PD->getIdentifier())) + return GetOrEmitProtocol(PD); + + return GetOrEmitProtocolRef(PD); +} + +llvm::Value *CGObjCCommonMac::EmitClassRefViaRuntime( + CodeGenFunction &CGF, + const ObjCInterfaceDecl *ID, + ObjCCommonTypesHelper &ObjCTypes) { + llvm::FunctionCallee lookUpClassFn = ObjCTypes.getLookUpClassFn(); + + llvm::Value *className = + CGF.CGM.GetAddrOfConstantCString(ID->getObjCRuntimeNameAsString()) + .getPointer(); + ASTContext &ctx = CGF.CGM.getContext(); + className = + CGF.Builder.CreateBitCast(className, + CGF.ConvertType( + ctx.getPointerType(ctx.CharTy.withConst()))); + llvm::CallInst *call = CGF.Builder.CreateCall(lookUpClassFn, className); + call->setDoesNotThrow(); + return call; +} + +/* +// Objective-C 1.0 extensions +struct _objc_protocol { +struct _objc_protocol_extension *isa; +char *protocol_name; +struct _objc_protocol_list *protocol_list; +struct _objc__method_prototype_list *instance_methods; +struct _objc__method_prototype_list *class_methods +}; + +See EmitProtocolExtension(). +*/ +llvm::Constant *CGObjCMac::GetOrEmitProtocol(const ObjCProtocolDecl *PD) { + llvm::GlobalVariable *Entry = Protocols[PD->getIdentifier()]; + + // Early exit if a defining object has already been generated. + if (Entry && Entry->hasInitializer()) + return Entry; + + // Use the protocol definition, if there is one. + if (const ObjCProtocolDecl *Def = PD->getDefinition()) + PD = Def; + + // FIXME: I don't understand why gcc generates this, or where it is + // resolved. Investigate. Its also wasteful to look this up over and over. + LazySymbols.insert(&CGM.getContext().Idents.get("Protocol")); + + // Construct method lists. + auto methodLists = ProtocolMethodLists::get(PD); + + ConstantInitBuilder builder(CGM); + auto values = builder.beginStruct(ObjCTypes.ProtocolTy); + values.add(EmitProtocolExtension(PD, methodLists)); + values.add(GetClassName(PD->getObjCRuntimeNameAsString())); + values.add(EmitProtocolList("OBJC_PROTOCOL_REFS_" + PD->getName(), + PD->protocol_begin(), PD->protocol_end())); + values.add(methodLists.emitMethodList(this, PD, + ProtocolMethodLists::RequiredInstanceMethods)); + values.add(methodLists.emitMethodList(this, PD, + ProtocolMethodLists::RequiredClassMethods)); + + if (Entry) { + // Already created, update the initializer. + assert(Entry->hasPrivateLinkage()); + values.finishAndSetAsInitializer(Entry); + } else { + Entry = values.finishAndCreateGlobal("OBJC_PROTOCOL_" + PD->getName(), + CGM.getPointerAlign(), + /*constant*/ false, + llvm::GlobalValue::PrivateLinkage); + Entry->setSection("__OBJC,__protocol,regular,no_dead_strip"); + + Protocols[PD->getIdentifier()] = Entry; + } + CGM.addCompilerUsedGlobal(Entry); + + return Entry; +} + +llvm::Constant *CGObjCMac::GetOrEmitProtocolRef(const ObjCProtocolDecl *PD) { + llvm::GlobalVariable *&Entry = Protocols[PD->getIdentifier()]; + + if (!Entry) { + // We use the initializer as a marker of whether this is a forward + // reference or not. At module finalization we add the empty + // contents for protocols which were referenced but never defined. + Entry = new llvm::GlobalVariable(CGM.getModule(), ObjCTypes.ProtocolTy, + false, llvm::GlobalValue::PrivateLinkage, + nullptr, "OBJC_PROTOCOL_" + PD->getName()); + Entry->setSection("__OBJC,__protocol,regular,no_dead_strip"); + // FIXME: Is this necessary? Why only for protocol? + Entry->setAlignment(4); + } + + return Entry; +} + +/* + struct _objc_protocol_extension { + uint32_t size; + struct objc_method_description_list *optional_instance_methods; + struct objc_method_description_list *optional_class_methods; + struct objc_property_list *instance_properties; + const char ** extendedMethodTypes; + struct objc_property_list *class_properties; + }; +*/ +llvm::Constant * +CGObjCMac::EmitProtocolExtension(const ObjCProtocolDecl *PD, + const ProtocolMethodLists &methodLists) { + auto optInstanceMethods = + methodLists.emitMethodList(this, PD, + ProtocolMethodLists::OptionalInstanceMethods); + auto optClassMethods = + methodLists.emitMethodList(this, PD, + ProtocolMethodLists::OptionalClassMethods); + + auto extendedMethodTypes = + EmitProtocolMethodTypes("OBJC_PROTOCOL_METHOD_TYPES_" + PD->getName(), + methodLists.emitExtendedTypesArray(this), + ObjCTypes); + + auto instanceProperties = + EmitPropertyList("OBJC_$_PROP_PROTO_LIST_" + PD->getName(), nullptr, PD, + ObjCTypes, false); + auto classProperties = + EmitPropertyList("OBJC_$_CLASS_PROP_PROTO_LIST_" + PD->getName(), nullptr, + PD, ObjCTypes, true); + + // Return null if no extension bits are used. + if (optInstanceMethods->isNullValue() && + optClassMethods->isNullValue() && + extendedMethodTypes->isNullValue() && + instanceProperties->isNullValue() && + classProperties->isNullValue()) { + return llvm::Constant::getNullValue(ObjCTypes.ProtocolExtensionPtrTy); + } + + uint64_t size = + CGM.getDataLayout().getTypeAllocSize(ObjCTypes.ProtocolExtensionTy); + + ConstantInitBuilder builder(CGM); + auto values = builder.beginStruct(ObjCTypes.ProtocolExtensionTy); + values.addInt(ObjCTypes.IntTy, size); + values.add(optInstanceMethods); + values.add(optClassMethods); + values.add(instanceProperties); + values.add(extendedMethodTypes); + values.add(classProperties); + + // No special section, but goes in llvm.used + return CreateMetadataVar("_OBJC_PROTOCOLEXT_" + PD->getName(), values, + StringRef(), CGM.getPointerAlign(), true); +} + +/* + struct objc_protocol_list { + struct objc_protocol_list *next; + long count; + Protocol *list[]; + }; +*/ +llvm::Constant * +CGObjCMac::EmitProtocolList(Twine name, + ObjCProtocolDecl::protocol_iterator begin, + ObjCProtocolDecl::protocol_iterator end) { + // Just return null for empty protocol lists + if (begin == end) + return llvm::Constant::getNullValue(ObjCTypes.ProtocolListPtrTy); + + ConstantInitBuilder builder(CGM); + auto values = builder.beginStruct(); + + // This field is only used by the runtime. + values.addNullPointer(ObjCTypes.ProtocolListPtrTy); + + // Reserve a slot for the count. + auto countSlot = values.addPlaceholder(); + + auto refsArray = values.beginArray(ObjCTypes.ProtocolPtrTy); + for (; begin != end; ++begin) { + refsArray.add(GetProtocolRef(*begin)); + } + auto count = refsArray.size(); + + // This list is null terminated. + refsArray.addNullPointer(ObjCTypes.ProtocolPtrTy); + + refsArray.finishAndAddTo(values); + values.fillPlaceholderWithInt(countSlot, ObjCTypes.LongTy, count); + + StringRef section; + if (CGM.getTriple().isOSBinFormatMachO()) + section = "__OBJC,__cat_cls_meth,regular,no_dead_strip"; + + llvm::GlobalVariable *GV = + CreateMetadataVar(name, values, section, CGM.getPointerAlign(), false); + return llvm::ConstantExpr::getBitCast(GV, ObjCTypes.ProtocolListPtrTy); +} + +static void +PushProtocolProperties(llvm::SmallPtrSet<const IdentifierInfo*,16> &PropertySet, + SmallVectorImpl<const ObjCPropertyDecl *> &Properties, + const ObjCProtocolDecl *Proto, + bool IsClassProperty) { + for (const auto *P : Proto->protocols()) + PushProtocolProperties(PropertySet, Properties, P, IsClassProperty); + + for (const auto *PD : Proto->properties()) { + if (IsClassProperty != PD->isClassProperty()) + continue; + if (!PropertySet.insert(PD->getIdentifier()).second) + continue; + Properties.push_back(PD); + } +} + +/* + struct _objc_property { + const char * const name; + const char * const attributes; + }; + + struct _objc_property_list { + uint32_t entsize; // sizeof (struct _objc_property) + uint32_t prop_count; + struct _objc_property[prop_count]; + }; +*/ +llvm::Constant *CGObjCCommonMac::EmitPropertyList(Twine Name, + const Decl *Container, + const ObjCContainerDecl *OCD, + const ObjCCommonTypesHelper &ObjCTypes, + bool IsClassProperty) { + if (IsClassProperty) { + // Make this entry NULL for OS X with deployment target < 10.11, for iOS + // with deployment target < 9.0. + const llvm::Triple &Triple = CGM.getTarget().getTriple(); + if ((Triple.isMacOSX() && Triple.isMacOSXVersionLT(10, 11)) || + (Triple.isiOS() && Triple.isOSVersionLT(9))) + return llvm::Constant::getNullValue(ObjCTypes.PropertyListPtrTy); + } + + SmallVector<const ObjCPropertyDecl *, 16> Properties; + llvm::SmallPtrSet<const IdentifierInfo*, 16> PropertySet; + + if (const ObjCInterfaceDecl *OID = dyn_cast<ObjCInterfaceDecl>(OCD)) + for (const ObjCCategoryDecl *ClassExt : OID->known_extensions()) + for (auto *PD : ClassExt->properties()) { + if (IsClassProperty != PD->isClassProperty()) + continue; + PropertySet.insert(PD->getIdentifier()); + Properties.push_back(PD); + } + + for (const auto *PD : OCD->properties()) { + if (IsClassProperty != PD->isClassProperty()) + continue; + // Don't emit duplicate metadata for properties that were already in a + // class extension. + if (!PropertySet.insert(PD->getIdentifier()).second) + continue; + Properties.push_back(PD); + } + + if (const ObjCInterfaceDecl *OID = dyn_cast<ObjCInterfaceDecl>(OCD)) { + for (const auto *P : OID->all_referenced_protocols()) + PushProtocolProperties(PropertySet, Properties, P, IsClassProperty); + } + else if (const ObjCCategoryDecl *CD = dyn_cast<ObjCCategoryDecl>(OCD)) { + for (const auto *P : CD->protocols()) + PushProtocolProperties(PropertySet, Properties, P, IsClassProperty); + } + + // Return null for empty list. + if (Properties.empty()) + return llvm::Constant::getNullValue(ObjCTypes.PropertyListPtrTy); + + unsigned propertySize = + CGM.getDataLayout().getTypeAllocSize(ObjCTypes.PropertyTy); + + ConstantInitBuilder builder(CGM); + auto values = builder.beginStruct(); + values.addInt(ObjCTypes.IntTy, propertySize); + values.addInt(ObjCTypes.IntTy, Properties.size()); + auto propertiesArray = values.beginArray(ObjCTypes.PropertyTy); + for (auto PD : Properties) { + auto property = propertiesArray.beginStruct(ObjCTypes.PropertyTy); + property.add(GetPropertyName(PD->getIdentifier())); + property.add(GetPropertyTypeString(PD, Container)); + property.finishAndAddTo(propertiesArray); + } + propertiesArray.finishAndAddTo(values); + + StringRef Section; + if (CGM.getTriple().isOSBinFormatMachO()) + Section = (ObjCABI == 2) ? "__DATA, __objc_const" + : "__OBJC,__property,regular,no_dead_strip"; + + llvm::GlobalVariable *GV = + CreateMetadataVar(Name, values, Section, CGM.getPointerAlign(), true); + return llvm::ConstantExpr::getBitCast(GV, ObjCTypes.PropertyListPtrTy); +} + +llvm::Constant * +CGObjCCommonMac::EmitProtocolMethodTypes(Twine Name, + ArrayRef<llvm::Constant*> MethodTypes, + const ObjCCommonTypesHelper &ObjCTypes) { + // Return null for empty list. + if (MethodTypes.empty()) + return llvm::Constant::getNullValue(ObjCTypes.Int8PtrPtrTy); + + llvm::ArrayType *AT = llvm::ArrayType::get(ObjCTypes.Int8PtrTy, + MethodTypes.size()); + llvm::Constant *Init = llvm::ConstantArray::get(AT, MethodTypes); + + StringRef Section; + if (CGM.getTriple().isOSBinFormatMachO() && ObjCABI == 2) + Section = "__DATA, __objc_const"; + + llvm::GlobalVariable *GV = + CreateMetadataVar(Name, Init, Section, CGM.getPointerAlign(), true); + return llvm::ConstantExpr::getBitCast(GV, ObjCTypes.Int8PtrPtrTy); +} + +/* + struct _objc_category { + char *category_name; + char *class_name; + struct _objc_method_list *instance_methods; + struct _objc_method_list *class_methods; + struct _objc_protocol_list *protocols; + uint32_t size; // <rdar://4585769> + struct _objc_property_list *instance_properties; + struct _objc_property_list *class_properties; + }; +*/ +void CGObjCMac::GenerateCategory(const ObjCCategoryImplDecl *OCD) { + unsigned Size = CGM.getDataLayout().getTypeAllocSize(ObjCTypes.CategoryTy); + + // FIXME: This is poor design, the OCD should have a pointer to the category + // decl. Additionally, note that Category can be null for the @implementation + // w/o an @interface case. Sema should just create one for us as it does for + // @implementation so everyone else can live life under a clear blue sky. + const ObjCInterfaceDecl *Interface = OCD->getClassInterface(); + const ObjCCategoryDecl *Category = + Interface->FindCategoryDeclaration(OCD->getIdentifier()); + + SmallString<256> ExtName; + llvm::raw_svector_ostream(ExtName) << Interface->getName() << '_' + << OCD->getName(); + + ConstantInitBuilder Builder(CGM); + auto Values = Builder.beginStruct(ObjCTypes.CategoryTy); + + enum { + InstanceMethods, + ClassMethods, + NumMethodLists + }; + SmallVector<const ObjCMethodDecl *, 16> Methods[NumMethodLists]; + for (const auto *MD : OCD->methods()) { + Methods[unsigned(MD->isClassMethod())].push_back(MD); + } + + Values.add(GetClassName(OCD->getName())); + Values.add(GetClassName(Interface->getObjCRuntimeNameAsString())); + LazySymbols.insert(Interface->getIdentifier()); + + Values.add(emitMethodList(ExtName, MethodListType::CategoryInstanceMethods, + Methods[InstanceMethods])); + Values.add(emitMethodList(ExtName, MethodListType::CategoryClassMethods, + Methods[ClassMethods])); + if (Category) { + Values.add( + EmitProtocolList("OBJC_CATEGORY_PROTOCOLS_" + ExtName.str(), + Category->protocol_begin(), Category->protocol_end())); + } else { + Values.addNullPointer(ObjCTypes.ProtocolListPtrTy); + } + Values.addInt(ObjCTypes.IntTy, Size); + + // If there is no category @interface then there can be no properties. + if (Category) { + Values.add(EmitPropertyList("_OBJC_$_PROP_LIST_" + ExtName.str(), + OCD, Category, ObjCTypes, false)); + Values.add(EmitPropertyList("_OBJC_$_CLASS_PROP_LIST_" + ExtName.str(), + OCD, Category, ObjCTypes, true)); + } else { + Values.addNullPointer(ObjCTypes.PropertyListPtrTy); + Values.addNullPointer(ObjCTypes.PropertyListPtrTy); + } + + llvm::GlobalVariable *GV = + CreateMetadataVar("OBJC_CATEGORY_" + ExtName.str(), Values, + "__OBJC,__category,regular,no_dead_strip", + CGM.getPointerAlign(), true); + DefinedCategories.push_back(GV); + DefinedCategoryNames.insert(llvm::CachedHashString(ExtName)); + // method definition entries must be clear for next implementation. + MethodDefinitions.clear(); +} + +enum FragileClassFlags { + /// Apparently: is not a meta-class. + FragileABI_Class_Factory = 0x00001, + + /// Is a meta-class. + FragileABI_Class_Meta = 0x00002, + + /// Has a non-trivial constructor or destructor. + FragileABI_Class_HasCXXStructors = 0x02000, + + /// Has hidden visibility. + FragileABI_Class_Hidden = 0x20000, + + /// Class implementation was compiled under ARC. + FragileABI_Class_CompiledByARC = 0x04000000, + + /// Class implementation was compiled under MRC and has MRC weak ivars. + /// Exclusive with CompiledByARC. + FragileABI_Class_HasMRCWeakIvars = 0x08000000, +}; + +enum NonFragileClassFlags { + /// Is a meta-class. + NonFragileABI_Class_Meta = 0x00001, + + /// Is a root class. + NonFragileABI_Class_Root = 0x00002, + + /// Has a non-trivial constructor or destructor. + NonFragileABI_Class_HasCXXStructors = 0x00004, + + /// Has hidden visibility. + NonFragileABI_Class_Hidden = 0x00010, + + /// Has the exception attribute. + NonFragileABI_Class_Exception = 0x00020, + + /// (Obsolete) ARC-specific: this class has a .release_ivars method + NonFragileABI_Class_HasIvarReleaser = 0x00040, + + /// Class implementation was compiled under ARC. + NonFragileABI_Class_CompiledByARC = 0x00080, + + /// Class has non-trivial destructors, but zero-initialization is okay. + NonFragileABI_Class_HasCXXDestructorOnly = 0x00100, + + /// Class implementation was compiled under MRC and has MRC weak ivars. + /// Exclusive with CompiledByARC. + NonFragileABI_Class_HasMRCWeakIvars = 0x00200, +}; + +static bool hasWeakMember(QualType type) { + if (type.getObjCLifetime() == Qualifiers::OCL_Weak) { + return true; + } + + if (auto recType = type->getAs<RecordType>()) { + for (auto field : recType->getDecl()->fields()) { + if (hasWeakMember(field->getType())) + return true; + } + } + + return false; +} + +/// For compatibility, we only want to set the "HasMRCWeakIvars" flag +/// (and actually fill in a layout string) if we really do have any +/// __weak ivars. +static bool hasMRCWeakIvars(CodeGenModule &CGM, + const ObjCImplementationDecl *ID) { + if (!CGM.getLangOpts().ObjCWeak) return false; + assert(CGM.getLangOpts().getGC() == LangOptions::NonGC); + + for (const ObjCIvarDecl *ivar = + ID->getClassInterface()->all_declared_ivar_begin(); + ivar; ivar = ivar->getNextIvar()) { + if (hasWeakMember(ivar->getType())) + return true; + } + + return false; +} + +/* + struct _objc_class { + Class isa; + Class super_class; + const char *name; + long version; + long info; + long instance_size; + struct _objc_ivar_list *ivars; + struct _objc_method_list *methods; + struct _objc_cache *cache; + struct _objc_protocol_list *protocols; + // Objective-C 1.0 extensions (<rdr://4585769>) + const char *ivar_layout; + struct _objc_class_ext *ext; + }; + + See EmitClassExtension(); +*/ +void CGObjCMac::GenerateClass(const ObjCImplementationDecl *ID) { + IdentifierInfo *RuntimeName = + &CGM.getContext().Idents.get(ID->getObjCRuntimeNameAsString()); + DefinedSymbols.insert(RuntimeName); + + std::string ClassName = ID->getNameAsString(); + // FIXME: Gross + ObjCInterfaceDecl *Interface = + const_cast<ObjCInterfaceDecl*>(ID->getClassInterface()); + llvm::Constant *Protocols = + EmitProtocolList("OBJC_CLASS_PROTOCOLS_" + ID->getName(), + Interface->all_referenced_protocol_begin(), + Interface->all_referenced_protocol_end()); + unsigned Flags = FragileABI_Class_Factory; + if (ID->hasNonZeroConstructors() || ID->hasDestructors()) + Flags |= FragileABI_Class_HasCXXStructors; + + bool hasMRCWeak = false; + + if (CGM.getLangOpts().ObjCAutoRefCount) + Flags |= FragileABI_Class_CompiledByARC; + else if ((hasMRCWeak = hasMRCWeakIvars(CGM, ID))) + Flags |= FragileABI_Class_HasMRCWeakIvars; + + CharUnits Size = + CGM.getContext().getASTObjCImplementationLayout(ID).getSize(); + + // FIXME: Set CXX-structors flag. + if (ID->getClassInterface()->getVisibility() == HiddenVisibility) + Flags |= FragileABI_Class_Hidden; + + enum { + InstanceMethods, + ClassMethods, + NumMethodLists + }; + SmallVector<const ObjCMethodDecl *, 16> Methods[NumMethodLists]; + for (const auto *MD : ID->methods()) { + Methods[unsigned(MD->isClassMethod())].push_back(MD); + } + + for (const auto *PID : ID->property_impls()) { + if (PID->getPropertyImplementation() == ObjCPropertyImplDecl::Synthesize) { + ObjCPropertyDecl *PD = PID->getPropertyDecl(); + + if (ObjCMethodDecl *MD = PD->getGetterMethodDecl()) + if (GetMethodDefinition(MD)) + Methods[InstanceMethods].push_back(MD); + if (ObjCMethodDecl *MD = PD->getSetterMethodDecl()) + if (GetMethodDefinition(MD)) + Methods[InstanceMethods].push_back(MD); + } + } + + ConstantInitBuilder builder(CGM); + auto values = builder.beginStruct(ObjCTypes.ClassTy); + values.add(EmitMetaClass(ID, Protocols, Methods[ClassMethods])); + if (ObjCInterfaceDecl *Super = Interface->getSuperClass()) { + // Record a reference to the super class. + LazySymbols.insert(Super->getIdentifier()); + + values.addBitCast(GetClassName(Super->getObjCRuntimeNameAsString()), + ObjCTypes.ClassPtrTy); + } else { + values.addNullPointer(ObjCTypes.ClassPtrTy); + } + values.add(GetClassName(ID->getObjCRuntimeNameAsString())); + // Version is always 0. + values.addInt(ObjCTypes.LongTy, 0); + values.addInt(ObjCTypes.LongTy, Flags); + values.addInt(ObjCTypes.LongTy, Size.getQuantity()); + values.add(EmitIvarList(ID, false)); + values.add(emitMethodList(ID->getName(), MethodListType::InstanceMethods, + Methods[InstanceMethods])); + // cache is always NULL. + values.addNullPointer(ObjCTypes.CachePtrTy); + values.add(Protocols); + values.add(BuildStrongIvarLayout(ID, CharUnits::Zero(), Size)); + values.add(EmitClassExtension(ID, Size, hasMRCWeak, + /*isMetaclass*/ false)); + + std::string Name("OBJC_CLASS_"); + Name += ClassName; + const char *Section = "__OBJC,__class,regular,no_dead_strip"; + // Check for a forward reference. + llvm::GlobalVariable *GV = CGM.getModule().getGlobalVariable(Name, true); + if (GV) { + assert(GV->getType()->getElementType() == ObjCTypes.ClassTy && + "Forward metaclass reference has incorrect type."); + values.finishAndSetAsInitializer(GV); + GV->setSection(Section); + GV->setAlignment(CGM.getPointerAlign().getQuantity()); + CGM.addCompilerUsedGlobal(GV); + } else + GV = CreateMetadataVar(Name, values, Section, CGM.getPointerAlign(), true); + DefinedClasses.push_back(GV); + ImplementedClasses.push_back(Interface); + // method definition entries must be clear for next implementation. + MethodDefinitions.clear(); +} + +llvm::Constant *CGObjCMac::EmitMetaClass(const ObjCImplementationDecl *ID, + llvm::Constant *Protocols, + ArrayRef<const ObjCMethodDecl*> Methods) { + unsigned Flags = FragileABI_Class_Meta; + unsigned Size = CGM.getDataLayout().getTypeAllocSize(ObjCTypes.ClassTy); + + if (ID->getClassInterface()->getVisibility() == HiddenVisibility) + Flags |= FragileABI_Class_Hidden; + + ConstantInitBuilder builder(CGM); + auto values = builder.beginStruct(ObjCTypes.ClassTy); + // The isa for the metaclass is the root of the hierarchy. + const ObjCInterfaceDecl *Root = ID->getClassInterface(); + while (const ObjCInterfaceDecl *Super = Root->getSuperClass()) + Root = Super; + values.addBitCast(GetClassName(Root->getObjCRuntimeNameAsString()), + ObjCTypes.ClassPtrTy); + // The super class for the metaclass is emitted as the name of the + // super class. The runtime fixes this up to point to the + // *metaclass* for the super class. + if (ObjCInterfaceDecl *Super = ID->getClassInterface()->getSuperClass()) { + values.addBitCast(GetClassName(Super->getObjCRuntimeNameAsString()), + ObjCTypes.ClassPtrTy); + } else { + values.addNullPointer(ObjCTypes.ClassPtrTy); + } + values.add(GetClassName(ID->getObjCRuntimeNameAsString())); + // Version is always 0. + values.addInt(ObjCTypes.LongTy, 0); + values.addInt(ObjCTypes.LongTy, Flags); + values.addInt(ObjCTypes.LongTy, Size); + values.add(EmitIvarList(ID, true)); + values.add(emitMethodList(ID->getName(), MethodListType::ClassMethods, + Methods)); + // cache is always NULL. + values.addNullPointer(ObjCTypes.CachePtrTy); + values.add(Protocols); + // ivar_layout for metaclass is always NULL. + values.addNullPointer(ObjCTypes.Int8PtrTy); + // The class extension is used to store class properties for metaclasses. + values.add(EmitClassExtension(ID, CharUnits::Zero(), false/*hasMRCWeak*/, + /*isMetaclass*/true)); + + std::string Name("OBJC_METACLASS_"); + Name += ID->getName(); + + // Check for a forward reference. + llvm::GlobalVariable *GV = CGM.getModule().getGlobalVariable(Name, true); + if (GV) { + assert(GV->getType()->getElementType() == ObjCTypes.ClassTy && + "Forward metaclass reference has incorrect type."); + values.finishAndSetAsInitializer(GV); + } else { + GV = values.finishAndCreateGlobal(Name, CGM.getPointerAlign(), + /*constant*/ false, + llvm::GlobalValue::PrivateLinkage); + } + GV->setSection("__OBJC,__meta_class,regular,no_dead_strip"); + CGM.addCompilerUsedGlobal(GV); + + return GV; +} + +llvm::Constant *CGObjCMac::EmitMetaClassRef(const ObjCInterfaceDecl *ID) { + std::string Name = "OBJC_METACLASS_" + ID->getNameAsString(); + + // FIXME: Should we look these up somewhere other than the module. Its a bit + // silly since we only generate these while processing an implementation, so + // exactly one pointer would work if know when we entered/exitted an + // implementation block. + + // Check for an existing forward reference. + // Previously, metaclass with internal linkage may have been defined. + // pass 'true' as 2nd argument so it is returned. + llvm::GlobalVariable *GV = CGM.getModule().getGlobalVariable(Name, true); + if (!GV) + GV = new llvm::GlobalVariable(CGM.getModule(), ObjCTypes.ClassTy, false, + llvm::GlobalValue::PrivateLinkage, nullptr, + Name); + + assert(GV->getType()->getElementType() == ObjCTypes.ClassTy && + "Forward metaclass reference has incorrect type."); + return GV; +} + +llvm::Value *CGObjCMac::EmitSuperClassRef(const ObjCInterfaceDecl *ID) { + std::string Name = "OBJC_CLASS_" + ID->getNameAsString(); + llvm::GlobalVariable *GV = CGM.getModule().getGlobalVariable(Name, true); + + if (!GV) + GV = new llvm::GlobalVariable(CGM.getModule(), ObjCTypes.ClassTy, false, + llvm::GlobalValue::PrivateLinkage, nullptr, + Name); + + assert(GV->getType()->getElementType() == ObjCTypes.ClassTy && + "Forward class metadata reference has incorrect type."); + return GV; +} + +/* + Emit a "class extension", which in this specific context means extra + data that doesn't fit in the normal fragile-ABI class structure, and + has nothing to do with the language concept of a class extension. + + struct objc_class_ext { + uint32_t size; + const char *weak_ivar_layout; + struct _objc_property_list *properties; + }; +*/ +llvm::Constant * +CGObjCMac::EmitClassExtension(const ObjCImplementationDecl *ID, + CharUnits InstanceSize, bool hasMRCWeakIvars, + bool isMetaclass) { + // Weak ivar layout. + llvm::Constant *layout; + if (isMetaclass) { + layout = llvm::ConstantPointerNull::get(CGM.Int8PtrTy); + } else { + layout = BuildWeakIvarLayout(ID, CharUnits::Zero(), InstanceSize, + hasMRCWeakIvars); + } + + // Properties. + llvm::Constant *propertyList = + EmitPropertyList((isMetaclass ? Twine("_OBJC_$_CLASS_PROP_LIST_") + : Twine("_OBJC_$_PROP_LIST_")) + + ID->getName(), + ID, ID->getClassInterface(), ObjCTypes, isMetaclass); + + // Return null if no extension bits are used. + if (layout->isNullValue() && propertyList->isNullValue()) { + return llvm::Constant::getNullValue(ObjCTypes.ClassExtensionPtrTy); + } + + uint64_t size = + CGM.getDataLayout().getTypeAllocSize(ObjCTypes.ClassExtensionTy); + + ConstantInitBuilder builder(CGM); + auto values = builder.beginStruct(ObjCTypes.ClassExtensionTy); + values.addInt(ObjCTypes.IntTy, size); + values.add(layout); + values.add(propertyList); + + return CreateMetadataVar("OBJC_CLASSEXT_" + ID->getName(), values, + "__OBJC,__class_ext,regular,no_dead_strip", + CGM.getPointerAlign(), true); +} + +/* + struct objc_ivar { + char *ivar_name; + char *ivar_type; + int ivar_offset; + }; + + struct objc_ivar_list { + int ivar_count; + struct objc_ivar list[count]; + }; +*/ +llvm::Constant *CGObjCMac::EmitIvarList(const ObjCImplementationDecl *ID, + bool ForClass) { + // When emitting the root class GCC emits ivar entries for the + // actual class structure. It is not clear if we need to follow this + // behavior; for now lets try and get away with not doing it. If so, + // the cleanest solution would be to make up an ObjCInterfaceDecl + // for the class. + if (ForClass) + return llvm::Constant::getNullValue(ObjCTypes.IvarListPtrTy); + + const ObjCInterfaceDecl *OID = ID->getClassInterface(); + + ConstantInitBuilder builder(CGM); + auto ivarList = builder.beginStruct(); + auto countSlot = ivarList.addPlaceholder(); + auto ivars = ivarList.beginArray(ObjCTypes.IvarTy); + + for (const ObjCIvarDecl *IVD = OID->all_declared_ivar_begin(); + IVD; IVD = IVD->getNextIvar()) { + // Ignore unnamed bit-fields. + if (!IVD->getDeclName()) + continue; + + auto ivar = ivars.beginStruct(ObjCTypes.IvarTy); + ivar.add(GetMethodVarName(IVD->getIdentifier())); + ivar.add(GetMethodVarType(IVD)); + ivar.addInt(ObjCTypes.IntTy, ComputeIvarBaseOffset(CGM, OID, IVD)); + ivar.finishAndAddTo(ivars); + } + + // Return null for empty list. + auto count = ivars.size(); + if (count == 0) { + ivars.abandon(); + ivarList.abandon(); + return llvm::Constant::getNullValue(ObjCTypes.IvarListPtrTy); + } + + ivars.finishAndAddTo(ivarList); + ivarList.fillPlaceholderWithInt(countSlot, ObjCTypes.IntTy, count); + + llvm::GlobalVariable *GV; + if (ForClass) + GV = + CreateMetadataVar("OBJC_CLASS_VARIABLES_" + ID->getName(), ivarList, + "__OBJC,__class_vars,regular,no_dead_strip", + CGM.getPointerAlign(), true); + else + GV = CreateMetadataVar("OBJC_INSTANCE_VARIABLES_" + ID->getName(), ivarList, + "__OBJC,__instance_vars,regular,no_dead_strip", + CGM.getPointerAlign(), true); + return llvm::ConstantExpr::getBitCast(GV, ObjCTypes.IvarListPtrTy); +} + +/// Build a struct objc_method_description constant for the given method. +/// +/// struct objc_method_description { +/// SEL method_name; +/// char *method_types; +/// }; +void CGObjCMac::emitMethodDescriptionConstant(ConstantArrayBuilder &builder, + const ObjCMethodDecl *MD) { + auto description = builder.beginStruct(ObjCTypes.MethodDescriptionTy); + description.addBitCast(GetMethodVarName(MD->getSelector()), + ObjCTypes.SelectorPtrTy); + description.add(GetMethodVarType(MD)); + description.finishAndAddTo(builder); +} + +/// Build a struct objc_method constant for the given method. +/// +/// struct objc_method { +/// SEL method_name; +/// char *method_types; +/// void *method; +/// }; +void CGObjCMac::emitMethodConstant(ConstantArrayBuilder &builder, + const ObjCMethodDecl *MD) { + llvm::Function *fn = GetMethodDefinition(MD); + assert(fn && "no definition registered for method"); + + auto method = builder.beginStruct(ObjCTypes.MethodTy); + method.addBitCast(GetMethodVarName(MD->getSelector()), + ObjCTypes.SelectorPtrTy); + method.add(GetMethodVarType(MD)); + method.addBitCast(fn, ObjCTypes.Int8PtrTy); + method.finishAndAddTo(builder); +} + +/// Build a struct objc_method_list or struct objc_method_description_list, +/// as appropriate. +/// +/// struct objc_method_list { +/// struct objc_method_list *obsolete; +/// int count; +/// struct objc_method methods_list[count]; +/// }; +/// +/// struct objc_method_description_list { +/// int count; +/// struct objc_method_description list[count]; +/// }; +llvm::Constant *CGObjCMac::emitMethodList(Twine name, MethodListType MLT, + ArrayRef<const ObjCMethodDecl *> methods) { + StringRef prefix; + StringRef section; + bool forProtocol = false; + switch (MLT) { + case MethodListType::CategoryInstanceMethods: + prefix = "OBJC_CATEGORY_INSTANCE_METHODS_"; + section = "__OBJC,__cat_inst_meth,regular,no_dead_strip"; + forProtocol = false; + break; + case MethodListType::CategoryClassMethods: + prefix = "OBJC_CATEGORY_CLASS_METHODS_"; + section = "__OBJC,__cat_cls_meth,regular,no_dead_strip"; + forProtocol = false; + break; + case MethodListType::InstanceMethods: + prefix = "OBJC_INSTANCE_METHODS_"; + section = "__OBJC,__inst_meth,regular,no_dead_strip"; + forProtocol = false; + break; + case MethodListType::ClassMethods: + prefix = "OBJC_CLASS_METHODS_"; + section = "__OBJC,__cls_meth,regular,no_dead_strip"; + forProtocol = false; + break; + case MethodListType::ProtocolInstanceMethods: + prefix = "OBJC_PROTOCOL_INSTANCE_METHODS_"; + section = "__OBJC,__cat_inst_meth,regular,no_dead_strip"; + forProtocol = true; + break; + case MethodListType::ProtocolClassMethods: + prefix = "OBJC_PROTOCOL_CLASS_METHODS_"; + section = "__OBJC,__cat_cls_meth,regular,no_dead_strip"; + forProtocol = true; + break; + case MethodListType::OptionalProtocolInstanceMethods: + prefix = "OBJC_PROTOCOL_INSTANCE_METHODS_OPT_"; + section = "__OBJC,__cat_inst_meth,regular,no_dead_strip"; + forProtocol = true; + break; + case MethodListType::OptionalProtocolClassMethods: + prefix = "OBJC_PROTOCOL_CLASS_METHODS_OPT_"; + section = "__OBJC,__cat_cls_meth,regular,no_dead_strip"; + forProtocol = true; + break; + } + + // Return null for empty list. + if (methods.empty()) + return llvm::Constant::getNullValue(forProtocol + ? ObjCTypes.MethodDescriptionListPtrTy + : ObjCTypes.MethodListPtrTy); + + // For protocols, this is an objc_method_description_list, which has + // a slightly different structure. + if (forProtocol) { + ConstantInitBuilder builder(CGM); + auto values = builder.beginStruct(); + values.addInt(ObjCTypes.IntTy, methods.size()); + auto methodArray = values.beginArray(ObjCTypes.MethodDescriptionTy); + for (auto MD : methods) { + emitMethodDescriptionConstant(methodArray, MD); + } + methodArray.finishAndAddTo(values); + + llvm::GlobalVariable *GV = CreateMetadataVar(prefix + name, values, section, + CGM.getPointerAlign(), true); + return llvm::ConstantExpr::getBitCast(GV, + ObjCTypes.MethodDescriptionListPtrTy); + } + + // Otherwise, it's an objc_method_list. + ConstantInitBuilder builder(CGM); + auto values = builder.beginStruct(); + values.addNullPointer(ObjCTypes.Int8PtrTy); + values.addInt(ObjCTypes.IntTy, methods.size()); + auto methodArray = values.beginArray(ObjCTypes.MethodTy); + for (auto MD : methods) { + emitMethodConstant(methodArray, MD); + } + methodArray.finishAndAddTo(values); + + llvm::GlobalVariable *GV = CreateMetadataVar(prefix + name, values, section, + CGM.getPointerAlign(), true); + return llvm::ConstantExpr::getBitCast(GV, ObjCTypes.MethodListPtrTy); +} + +llvm::Function *CGObjCCommonMac::GenerateMethod(const ObjCMethodDecl *OMD, + const ObjCContainerDecl *CD) { + SmallString<256> Name; + GetNameForMethod(OMD, CD, Name); + + CodeGenTypes &Types = CGM.getTypes(); + llvm::FunctionType *MethodTy = + Types.GetFunctionType(Types.arrangeObjCMethodDeclaration(OMD)); + llvm::Function *Method = + llvm::Function::Create(MethodTy, + llvm::GlobalValue::InternalLinkage, + Name.str(), + &CGM.getModule()); + MethodDefinitions.insert(std::make_pair(OMD, Method)); + + return Method; +} + +llvm::GlobalVariable *CGObjCCommonMac::CreateMetadataVar(Twine Name, + ConstantStructBuilder &Init, + StringRef Section, + CharUnits Align, + bool AddToUsed) { + llvm::GlobalValue::LinkageTypes LT = + getLinkageTypeForObjCMetadata(CGM, Section); + llvm::GlobalVariable *GV = + Init.finishAndCreateGlobal(Name, Align, /*constant*/ false, LT); + if (!Section.empty()) + GV->setSection(Section); + if (AddToUsed) + CGM.addCompilerUsedGlobal(GV); + return GV; +} + +llvm::GlobalVariable *CGObjCCommonMac::CreateMetadataVar(Twine Name, + llvm::Constant *Init, + StringRef Section, + CharUnits Align, + bool AddToUsed) { + llvm::Type *Ty = Init->getType(); + llvm::GlobalValue::LinkageTypes LT = + getLinkageTypeForObjCMetadata(CGM, Section); + llvm::GlobalVariable *GV = + new llvm::GlobalVariable(CGM.getModule(), Ty, false, LT, Init, Name); + if (!Section.empty()) + GV->setSection(Section); + GV->setAlignment(Align.getQuantity()); + if (AddToUsed) + CGM.addCompilerUsedGlobal(GV); + return GV; +} + +llvm::GlobalVariable * +CGObjCCommonMac::CreateCStringLiteral(StringRef Name, ObjCLabelType Type, + bool ForceNonFragileABI, + bool NullTerminate) { + StringRef Label; + switch (Type) { + case ObjCLabelType::ClassName: Label = "OBJC_CLASS_NAME_"; break; + case ObjCLabelType::MethodVarName: Label = "OBJC_METH_VAR_NAME_"; break; + case ObjCLabelType::MethodVarType: Label = "OBJC_METH_VAR_TYPE_"; break; + case ObjCLabelType::PropertyName: Label = "OBJC_PROP_NAME_ATTR_"; break; + } + + bool NonFragile = ForceNonFragileABI || isNonFragileABI(); + + StringRef Section; + switch (Type) { + case ObjCLabelType::ClassName: + Section = NonFragile ? "__TEXT,__objc_classname,cstring_literals" + : "__TEXT,__cstring,cstring_literals"; + break; + case ObjCLabelType::MethodVarName: + Section = NonFragile ? "__TEXT,__objc_methname,cstring_literals" + : "__TEXT,__cstring,cstring_literals"; + break; + case ObjCLabelType::MethodVarType: + Section = NonFragile ? "__TEXT,__objc_methtype,cstring_literals" + : "__TEXT,__cstring,cstring_literals"; + break; + case ObjCLabelType::PropertyName: + Section = "__TEXT,__cstring,cstring_literals"; + break; + } + + llvm::Constant *Value = + llvm::ConstantDataArray::getString(VMContext, Name, NullTerminate); + llvm::GlobalVariable *GV = + new llvm::GlobalVariable(CGM.getModule(), Value->getType(), + /*isConstant=*/true, + llvm::GlobalValue::PrivateLinkage, Value, Label); + if (CGM.getTriple().isOSBinFormatMachO()) + GV->setSection(Section); + GV->setUnnamedAddr(llvm::GlobalValue::UnnamedAddr::Global); + GV->setAlignment(CharUnits::One().getQuantity()); + CGM.addCompilerUsedGlobal(GV); + + return GV; +} + +llvm::Function *CGObjCMac::ModuleInitFunction() { + // Abuse this interface function as a place to finalize. + FinishModule(); + return nullptr; +} + +llvm::FunctionCallee CGObjCMac::GetPropertyGetFunction() { + return ObjCTypes.getGetPropertyFn(); +} + +llvm::FunctionCallee CGObjCMac::GetPropertySetFunction() { + return ObjCTypes.getSetPropertyFn(); +} + +llvm::FunctionCallee CGObjCMac::GetOptimizedPropertySetFunction(bool atomic, + bool copy) { + return ObjCTypes.getOptimizedSetPropertyFn(atomic, copy); +} + +llvm::FunctionCallee CGObjCMac::GetGetStructFunction() { + return ObjCTypes.getCopyStructFn(); +} + +llvm::FunctionCallee CGObjCMac::GetSetStructFunction() { + return ObjCTypes.getCopyStructFn(); +} + +llvm::FunctionCallee CGObjCMac::GetCppAtomicObjectGetFunction() { + return ObjCTypes.getCppAtomicObjectFunction(); +} + +llvm::FunctionCallee CGObjCMac::GetCppAtomicObjectSetFunction() { + return ObjCTypes.getCppAtomicObjectFunction(); +} + +llvm::FunctionCallee CGObjCMac::EnumerationMutationFunction() { + return ObjCTypes.getEnumerationMutationFn(); +} + +void CGObjCMac::EmitTryStmt(CodeGenFunction &CGF, const ObjCAtTryStmt &S) { + return EmitTryOrSynchronizedStmt(CGF, S); +} + +void CGObjCMac::EmitSynchronizedStmt(CodeGenFunction &CGF, + const ObjCAtSynchronizedStmt &S) { + return EmitTryOrSynchronizedStmt(CGF, S); +} + +namespace { + struct PerformFragileFinally final : EHScopeStack::Cleanup { + const Stmt &S; + Address SyncArgSlot; + Address CallTryExitVar; + Address ExceptionData; + ObjCTypesHelper &ObjCTypes; + PerformFragileFinally(const Stmt *S, + Address SyncArgSlot, + Address CallTryExitVar, + Address ExceptionData, + ObjCTypesHelper *ObjCTypes) + : S(*S), SyncArgSlot(SyncArgSlot), CallTryExitVar(CallTryExitVar), + ExceptionData(ExceptionData), ObjCTypes(*ObjCTypes) {} + + void Emit(CodeGenFunction &CGF, Flags flags) override { + // Check whether we need to call objc_exception_try_exit. + // In optimized code, this branch will always be folded. + llvm::BasicBlock *FinallyCallExit = + CGF.createBasicBlock("finally.call_exit"); + llvm::BasicBlock *FinallyNoCallExit = + CGF.createBasicBlock("finally.no_call_exit"); + CGF.Builder.CreateCondBr(CGF.Builder.CreateLoad(CallTryExitVar), + FinallyCallExit, FinallyNoCallExit); + + CGF.EmitBlock(FinallyCallExit); + CGF.EmitNounwindRuntimeCall(ObjCTypes.getExceptionTryExitFn(), + ExceptionData.getPointer()); + + CGF.EmitBlock(FinallyNoCallExit); + + if (isa<ObjCAtTryStmt>(S)) { + if (const ObjCAtFinallyStmt* FinallyStmt = + cast<ObjCAtTryStmt>(S).getFinallyStmt()) { + // Don't try to do the @finally if this is an EH cleanup. + if (flags.isForEHCleanup()) return; + + // Save the current cleanup destination in case there's + // control flow inside the finally statement. + llvm::Value *CurCleanupDest = + CGF.Builder.CreateLoad(CGF.getNormalCleanupDestSlot()); + + CGF.EmitStmt(FinallyStmt->getFinallyBody()); + + if (CGF.HaveInsertPoint()) { + CGF.Builder.CreateStore(CurCleanupDest, + CGF.getNormalCleanupDestSlot()); + } else { + // Currently, the end of the cleanup must always exist. + CGF.EnsureInsertPoint(); + } + } + } else { + // Emit objc_sync_exit(expr); as finally's sole statement for + // @synchronized. + llvm::Value *SyncArg = CGF.Builder.CreateLoad(SyncArgSlot); + CGF.EmitNounwindRuntimeCall(ObjCTypes.getSyncExitFn(), SyncArg); + } + } + }; + + class FragileHazards { + CodeGenFunction &CGF; + SmallVector<llvm::Value*, 20> Locals; + llvm::DenseSet<llvm::BasicBlock*> BlocksBeforeTry; + + llvm::InlineAsm *ReadHazard; + llvm::InlineAsm *WriteHazard; + + llvm::FunctionType *GetAsmFnType(); + + void collectLocals(); + void emitReadHazard(CGBuilderTy &Builder); + + public: + FragileHazards(CodeGenFunction &CGF); + + void emitWriteHazard(); + void emitHazardsInNewBlocks(); + }; +} // end anonymous namespace + +/// Create the fragile-ABI read and write hazards based on the current +/// state of the function, which is presumed to be immediately prior +/// to a @try block. These hazards are used to maintain correct +/// semantics in the face of optimization and the fragile ABI's +/// cavalier use of setjmp/longjmp. +FragileHazards::FragileHazards(CodeGenFunction &CGF) : CGF(CGF) { + collectLocals(); + + if (Locals.empty()) return; + + // Collect all the blocks in the function. + for (llvm::Function::iterator + I = CGF.CurFn->begin(), E = CGF.CurFn->end(); I != E; ++I) + BlocksBeforeTry.insert(&*I); + + llvm::FunctionType *AsmFnTy = GetAsmFnType(); + + // Create a read hazard for the allocas. This inhibits dead-store + // optimizations and forces the values to memory. This hazard is + // inserted before any 'throwing' calls in the protected scope to + // reflect the possibility that the variables might be read from the + // catch block if the call throws. + { + std::string Constraint; + for (unsigned I = 0, E = Locals.size(); I != E; ++I) { + if (I) Constraint += ','; + Constraint += "*m"; + } + + ReadHazard = llvm::InlineAsm::get(AsmFnTy, "", Constraint, true, false); + } + + // Create a write hazard for the allocas. This inhibits folding + // loads across the hazard. This hazard is inserted at the + // beginning of the catch path to reflect the possibility that the + // variables might have been written within the protected scope. + { + std::string Constraint; + for (unsigned I = 0, E = Locals.size(); I != E; ++I) { + if (I) Constraint += ','; + Constraint += "=*m"; + } + + WriteHazard = llvm::InlineAsm::get(AsmFnTy, "", Constraint, true, false); + } +} + +/// Emit a write hazard at the current location. +void FragileHazards::emitWriteHazard() { + if (Locals.empty()) return; + + CGF.EmitNounwindRuntimeCall(WriteHazard, Locals); +} + +void FragileHazards::emitReadHazard(CGBuilderTy &Builder) { + assert(!Locals.empty()); + llvm::CallInst *call = Builder.CreateCall(ReadHazard, Locals); + call->setDoesNotThrow(); + call->setCallingConv(CGF.getRuntimeCC()); +} + +/// Emit read hazards in all the protected blocks, i.e. all the blocks +/// which have been inserted since the beginning of the try. +void FragileHazards::emitHazardsInNewBlocks() { + if (Locals.empty()) return; + + CGBuilderTy Builder(CGF, CGF.getLLVMContext()); + + // Iterate through all blocks, skipping those prior to the try. + for (llvm::Function::iterator + FI = CGF.CurFn->begin(), FE = CGF.CurFn->end(); FI != FE; ++FI) { + llvm::BasicBlock &BB = *FI; + if (BlocksBeforeTry.count(&BB)) continue; + + // Walk through all the calls in the block. + for (llvm::BasicBlock::iterator + BI = BB.begin(), BE = BB.end(); BI != BE; ++BI) { + llvm::Instruction &I = *BI; + + // Ignore instructions that aren't non-intrinsic calls. + // These are the only calls that can possibly call longjmp. + if (!isa<llvm::CallInst>(I) && !isa<llvm::InvokeInst>(I)) + continue; + if (isa<llvm::IntrinsicInst>(I)) + continue; + + // Ignore call sites marked nounwind. This may be questionable, + // since 'nounwind' doesn't necessarily mean 'does not call longjmp'. + if (cast<llvm::CallBase>(I).doesNotThrow()) + continue; + + // Insert a read hazard before the call. This will ensure that + // any writes to the locals are performed before making the + // call. If the call throws, then this is sufficient to + // guarantee correctness as long as it doesn't also write to any + // locals. + Builder.SetInsertPoint(&BB, BI); + emitReadHazard(Builder); + } + } +} + +static void addIfPresent(llvm::DenseSet<llvm::Value*> &S, Address V) { + if (V.isValid()) S.insert(V.getPointer()); +} + +void FragileHazards::collectLocals() { + // Compute a set of allocas to ignore. + llvm::DenseSet<llvm::Value*> AllocasToIgnore; + addIfPresent(AllocasToIgnore, CGF.ReturnValue); + addIfPresent(AllocasToIgnore, CGF.NormalCleanupDest); + + // Collect all the allocas currently in the function. This is + // probably way too aggressive. + llvm::BasicBlock &Entry = CGF.CurFn->getEntryBlock(); + for (llvm::BasicBlock::iterator + I = Entry.begin(), E = Entry.end(); I != E; ++I) + if (isa<llvm::AllocaInst>(*I) && !AllocasToIgnore.count(&*I)) + Locals.push_back(&*I); +} + +llvm::FunctionType *FragileHazards::GetAsmFnType() { + SmallVector<llvm::Type *, 16> tys(Locals.size()); + for (unsigned i = 0, e = Locals.size(); i != e; ++i) + tys[i] = Locals[i]->getType(); + return llvm::FunctionType::get(CGF.VoidTy, tys, false); +} + +/* + + Objective-C setjmp-longjmp (sjlj) Exception Handling + -- + + A catch buffer is a setjmp buffer plus: + - a pointer to the exception that was caught + - a pointer to the previous exception data buffer + - two pointers of reserved storage + Therefore catch buffers form a stack, with a pointer to the top + of the stack kept in thread-local storage. + + objc_exception_try_enter pushes a catch buffer onto the EH stack. + objc_exception_try_exit pops the given catch buffer, which is + required to be the top of the EH stack. + objc_exception_throw pops the top of the EH stack, writes the + thrown exception into the appropriate field, and longjmps + to the setjmp buffer. It crashes the process (with a printf + and an abort()) if there are no catch buffers on the stack. + objc_exception_extract just reads the exception pointer out of the + catch buffer. + + There's no reason an implementation couldn't use a light-weight + setjmp here --- something like __builtin_setjmp, but API-compatible + with the heavyweight setjmp. This will be more important if we ever + want to implement correct ObjC/C++ exception interactions for the + fragile ABI. + + Note that for this use of setjmp/longjmp to be correct, we may need + to mark some local variables volatile: if a non-volatile local + variable is modified between the setjmp and the longjmp, it has + indeterminate value. For the purposes of LLVM IR, it may be + sufficient to make loads and stores within the @try (to variables + declared outside the @try) volatile. This is necessary for + optimized correctness, but is not currently being done; this is + being tracked as rdar://problem/8160285 + + The basic framework for a @try-catch-finally is as follows: + { + objc_exception_data d; + id _rethrow = null; + bool _call_try_exit = true; + + objc_exception_try_enter(&d); + if (!setjmp(d.jmp_buf)) { + ... try body ... + } else { + // exception path + id _caught = objc_exception_extract(&d); + + // enter new try scope for handlers + if (!setjmp(d.jmp_buf)) { + ... match exception and execute catch blocks ... + + // fell off end, rethrow. + _rethrow = _caught; + ... jump-through-finally to finally_rethrow ... + } else { + // exception in catch block + _rethrow = objc_exception_extract(&d); + _call_try_exit = false; + ... jump-through-finally to finally_rethrow ... + } + } + ... jump-through-finally to finally_end ... + + finally: + if (_call_try_exit) + objc_exception_try_exit(&d); + + ... finally block .... + ... dispatch to finally destination ... + + finally_rethrow: + objc_exception_throw(_rethrow); + + finally_end: + } + + This framework differs slightly from the one gcc uses, in that gcc + uses _rethrow to determine if objc_exception_try_exit should be called + and if the object should be rethrown. This breaks in the face of + throwing nil and introduces unnecessary branches. + + We specialize this framework for a few particular circumstances: + + - If there are no catch blocks, then we avoid emitting the second + exception handling context. + + - If there is a catch-all catch block (i.e. @catch(...) or @catch(id + e)) we avoid emitting the code to rethrow an uncaught exception. + + - FIXME: If there is no @finally block we can do a few more + simplifications. + + Rethrows and Jumps-Through-Finally + -- + + '@throw;' is supported by pushing the currently-caught exception + onto ObjCEHStack while the @catch blocks are emitted. + + Branches through the @finally block are handled with an ordinary + normal cleanup. We do not register an EH cleanup; fragile-ABI ObjC + exceptions are not compatible with C++ exceptions, and this is + hardly the only place where this will go wrong. + + @synchronized(expr) { stmt; } is emitted as if it were: + id synch_value = expr; + objc_sync_enter(synch_value); + @try { stmt; } @finally { objc_sync_exit(synch_value); } +*/ + +void CGObjCMac::EmitTryOrSynchronizedStmt(CodeGen::CodeGenFunction &CGF, + const Stmt &S) { + bool isTry = isa<ObjCAtTryStmt>(S); + + // A destination for the fall-through edges of the catch handlers to + // jump to. + CodeGenFunction::JumpDest FinallyEnd = + CGF.getJumpDestInCurrentScope("finally.end"); + + // A destination for the rethrow edge of the catch handlers to jump + // to. + CodeGenFunction::JumpDest FinallyRethrow = + CGF.getJumpDestInCurrentScope("finally.rethrow"); + + // For @synchronized, call objc_sync_enter(sync.expr). The + // evaluation of the expression must occur before we enter the + // @synchronized. We can't avoid a temp here because we need the + // value to be preserved. If the backend ever does liveness + // correctly after setjmp, this will be unnecessary. + Address SyncArgSlot = Address::invalid(); + if (!isTry) { + llvm::Value *SyncArg = + CGF.EmitScalarExpr(cast<ObjCAtSynchronizedStmt>(S).getSynchExpr()); + SyncArg = CGF.Builder.CreateBitCast(SyncArg, ObjCTypes.ObjectPtrTy); + CGF.EmitNounwindRuntimeCall(ObjCTypes.getSyncEnterFn(), SyncArg); + + SyncArgSlot = CGF.CreateTempAlloca(SyncArg->getType(), + CGF.getPointerAlign(), "sync.arg"); + CGF.Builder.CreateStore(SyncArg, SyncArgSlot); + } + + // Allocate memory for the setjmp buffer. This needs to be kept + // live throughout the try and catch blocks. + Address ExceptionData = CGF.CreateTempAlloca(ObjCTypes.ExceptionDataTy, + CGF.getPointerAlign(), + "exceptiondata.ptr"); + + // Create the fragile hazards. Note that this will not capture any + // of the allocas required for exception processing, but will + // capture the current basic block (which extends all the way to the + // setjmp call) as "before the @try". + FragileHazards Hazards(CGF); + + // Create a flag indicating whether the cleanup needs to call + // objc_exception_try_exit. This is true except when + // - no catches match and we're branching through the cleanup + // just to rethrow the exception, or + // - a catch matched and we're falling out of the catch handler. + // The setjmp-safety rule here is that we should always store to this + // variable in a place that dominates the branch through the cleanup + // without passing through any setjmps. + Address CallTryExitVar = CGF.CreateTempAlloca(CGF.Builder.getInt1Ty(), + CharUnits::One(), + "_call_try_exit"); + + // A slot containing the exception to rethrow. Only needed when we + // have both a @catch and a @finally. + Address PropagatingExnVar = Address::invalid(); + + // Push a normal cleanup to leave the try scope. + CGF.EHStack.pushCleanup<PerformFragileFinally>(NormalAndEHCleanup, &S, + SyncArgSlot, + CallTryExitVar, + ExceptionData, + &ObjCTypes); + + // Enter a try block: + // - Call objc_exception_try_enter to push ExceptionData on top of + // the EH stack. + CGF.EmitNounwindRuntimeCall(ObjCTypes.getExceptionTryEnterFn(), + ExceptionData.getPointer()); + + // - Call setjmp on the exception data buffer. + llvm::Constant *Zero = llvm::ConstantInt::get(CGF.Builder.getInt32Ty(), 0); + llvm::Value *GEPIndexes[] = { Zero, Zero, Zero }; + llvm::Value *SetJmpBuffer = CGF.Builder.CreateGEP( + ObjCTypes.ExceptionDataTy, ExceptionData.getPointer(), GEPIndexes, + "setjmp_buffer"); + llvm::CallInst *SetJmpResult = CGF.EmitNounwindRuntimeCall( + ObjCTypes.getSetJmpFn(), SetJmpBuffer, "setjmp_result"); + SetJmpResult->setCanReturnTwice(); + + // If setjmp returned 0, enter the protected block; otherwise, + // branch to the handler. + llvm::BasicBlock *TryBlock = CGF.createBasicBlock("try"); + llvm::BasicBlock *TryHandler = CGF.createBasicBlock("try.handler"); + llvm::Value *DidCatch = + CGF.Builder.CreateIsNotNull(SetJmpResult, "did_catch_exception"); + CGF.Builder.CreateCondBr(DidCatch, TryHandler, TryBlock); + + // Emit the protected block. + CGF.EmitBlock(TryBlock); + CGF.Builder.CreateStore(CGF.Builder.getTrue(), CallTryExitVar); + CGF.EmitStmt(isTry ? cast<ObjCAtTryStmt>(S).getTryBody() + : cast<ObjCAtSynchronizedStmt>(S).getSynchBody()); + + CGBuilderTy::InsertPoint TryFallthroughIP = CGF.Builder.saveAndClearIP(); + + // Emit the exception handler block. + CGF.EmitBlock(TryHandler); + + // Don't optimize loads of the in-scope locals across this point. + Hazards.emitWriteHazard(); + + // For a @synchronized (or a @try with no catches), just branch + // through the cleanup to the rethrow block. + if (!isTry || !cast<ObjCAtTryStmt>(S).getNumCatchStmts()) { + // Tell the cleanup not to re-pop the exit. + CGF.Builder.CreateStore(CGF.Builder.getFalse(), CallTryExitVar); + CGF.EmitBranchThroughCleanup(FinallyRethrow); + + // Otherwise, we have to match against the caught exceptions. + } else { + // Retrieve the exception object. We may emit multiple blocks but + // nothing can cross this so the value is already in SSA form. + llvm::CallInst *Caught = + CGF.EmitNounwindRuntimeCall(ObjCTypes.getExceptionExtractFn(), + ExceptionData.getPointer(), "caught"); + + // Push the exception to rethrow onto the EH value stack for the + // benefit of any @throws in the handlers. + CGF.ObjCEHValueStack.push_back(Caught); + + const ObjCAtTryStmt* AtTryStmt = cast<ObjCAtTryStmt>(&S); + + bool HasFinally = (AtTryStmt->getFinallyStmt() != nullptr); + + llvm::BasicBlock *CatchBlock = nullptr; + llvm::BasicBlock *CatchHandler = nullptr; + if (HasFinally) { + // Save the currently-propagating exception before + // objc_exception_try_enter clears the exception slot. + PropagatingExnVar = CGF.CreateTempAlloca(Caught->getType(), + CGF.getPointerAlign(), + "propagating_exception"); + CGF.Builder.CreateStore(Caught, PropagatingExnVar); + + // Enter a new exception try block (in case a @catch block + // throws an exception). + CGF.EmitNounwindRuntimeCall(ObjCTypes.getExceptionTryEnterFn(), + ExceptionData.getPointer()); + + llvm::CallInst *SetJmpResult = + CGF.EmitNounwindRuntimeCall(ObjCTypes.getSetJmpFn(), + SetJmpBuffer, "setjmp.result"); + SetJmpResult->setCanReturnTwice(); + + llvm::Value *Threw = + CGF.Builder.CreateIsNotNull(SetJmpResult, "did_catch_exception"); + + CatchBlock = CGF.createBasicBlock("catch"); + CatchHandler = CGF.createBasicBlock("catch_for_catch"); + CGF.Builder.CreateCondBr(Threw, CatchHandler, CatchBlock); + + CGF.EmitBlock(CatchBlock); + } + + CGF.Builder.CreateStore(CGF.Builder.getInt1(HasFinally), CallTryExitVar); + + // Handle catch list. As a special case we check if everything is + // matched and avoid generating code for falling off the end if + // so. + bool AllMatched = false; + for (unsigned I = 0, N = AtTryStmt->getNumCatchStmts(); I != N; ++I) { + const ObjCAtCatchStmt *CatchStmt = AtTryStmt->getCatchStmt(I); + + const VarDecl *CatchParam = CatchStmt->getCatchParamDecl(); + const ObjCObjectPointerType *OPT = nullptr; + + // catch(...) always matches. + if (!CatchParam) { + AllMatched = true; + } else { + OPT = CatchParam->getType()->getAs<ObjCObjectPointerType>(); + + // catch(id e) always matches under this ABI, since only + // ObjC exceptions end up here in the first place. + // FIXME: For the time being we also match id<X>; this should + // be rejected by Sema instead. + if (OPT && (OPT->isObjCIdType() || OPT->isObjCQualifiedIdType())) + AllMatched = true; + } + + // If this is a catch-all, we don't need to test anything. + if (AllMatched) { + CodeGenFunction::RunCleanupsScope CatchVarCleanups(CGF); + + if (CatchParam) { + CGF.EmitAutoVarDecl(*CatchParam); + assert(CGF.HaveInsertPoint() && "DeclStmt destroyed insert point?"); + + // These types work out because ConvertType(id) == i8*. + EmitInitOfCatchParam(CGF, Caught, CatchParam); + } + + CGF.EmitStmt(CatchStmt->getCatchBody()); + + // The scope of the catch variable ends right here. + CatchVarCleanups.ForceCleanup(); + + CGF.EmitBranchThroughCleanup(FinallyEnd); + break; + } + + assert(OPT && "Unexpected non-object pointer type in @catch"); + const ObjCObjectType *ObjTy = OPT->getObjectType(); + + // FIXME: @catch (Class c) ? + ObjCInterfaceDecl *IDecl = ObjTy->getInterface(); + assert(IDecl && "Catch parameter must have Objective-C type!"); + + // Check if the @catch block matches the exception object. + llvm::Value *Class = EmitClassRef(CGF, IDecl); + + llvm::Value *matchArgs[] = { Class, Caught }; + llvm::CallInst *Match = + CGF.EmitNounwindRuntimeCall(ObjCTypes.getExceptionMatchFn(), + matchArgs, "match"); + + llvm::BasicBlock *MatchedBlock = CGF.createBasicBlock("match"); + llvm::BasicBlock *NextCatchBlock = CGF.createBasicBlock("catch.next"); + + CGF.Builder.CreateCondBr(CGF.Builder.CreateIsNotNull(Match, "matched"), + MatchedBlock, NextCatchBlock); + + // Emit the @catch block. + CGF.EmitBlock(MatchedBlock); + + // Collect any cleanups for the catch variable. The scope lasts until + // the end of the catch body. + CodeGenFunction::RunCleanupsScope CatchVarCleanups(CGF); + + CGF.EmitAutoVarDecl(*CatchParam); + assert(CGF.HaveInsertPoint() && "DeclStmt destroyed insert point?"); + + // Initialize the catch variable. + llvm::Value *Tmp = + CGF.Builder.CreateBitCast(Caught, + CGF.ConvertType(CatchParam->getType())); + EmitInitOfCatchParam(CGF, Tmp, CatchParam); + + CGF.EmitStmt(CatchStmt->getCatchBody()); + + // We're done with the catch variable. + CatchVarCleanups.ForceCleanup(); + + CGF.EmitBranchThroughCleanup(FinallyEnd); + + CGF.EmitBlock(NextCatchBlock); + } + + CGF.ObjCEHValueStack.pop_back(); + + // If nothing wanted anything to do with the caught exception, + // kill the extract call. + if (Caught->use_empty()) + Caught->eraseFromParent(); + + if (!AllMatched) + CGF.EmitBranchThroughCleanup(FinallyRethrow); + + if (HasFinally) { + // Emit the exception handler for the @catch blocks. + CGF.EmitBlock(CatchHandler); + + // In theory we might now need a write hazard, but actually it's + // unnecessary because there's no local-accessing code between + // the try's write hazard and here. + //Hazards.emitWriteHazard(); + + // Extract the new exception and save it to the + // propagating-exception slot. + assert(PropagatingExnVar.isValid()); + llvm::CallInst *NewCaught = + CGF.EmitNounwindRuntimeCall(ObjCTypes.getExceptionExtractFn(), + ExceptionData.getPointer(), "caught"); + CGF.Builder.CreateStore(NewCaught, PropagatingExnVar); + + // Don't pop the catch handler; the throw already did. + CGF.Builder.CreateStore(CGF.Builder.getFalse(), CallTryExitVar); + CGF.EmitBranchThroughCleanup(FinallyRethrow); + } + } + + // Insert read hazards as required in the new blocks. + Hazards.emitHazardsInNewBlocks(); + + // Pop the cleanup. + CGF.Builder.restoreIP(TryFallthroughIP); + if (CGF.HaveInsertPoint()) + CGF.Builder.CreateStore(CGF.Builder.getTrue(), CallTryExitVar); + CGF.PopCleanupBlock(); + CGF.EmitBlock(FinallyEnd.getBlock(), true); + + // Emit the rethrow block. + CGBuilderTy::InsertPoint SavedIP = CGF.Builder.saveAndClearIP(); + CGF.EmitBlock(FinallyRethrow.getBlock(), true); + if (CGF.HaveInsertPoint()) { + // If we have a propagating-exception variable, check it. + llvm::Value *PropagatingExn; + if (PropagatingExnVar.isValid()) { + PropagatingExn = CGF.Builder.CreateLoad(PropagatingExnVar); + + // Otherwise, just look in the buffer for the exception to throw. + } else { + llvm::CallInst *Caught = + CGF.EmitNounwindRuntimeCall(ObjCTypes.getExceptionExtractFn(), + ExceptionData.getPointer()); + PropagatingExn = Caught; + } + + CGF.EmitNounwindRuntimeCall(ObjCTypes.getExceptionThrowFn(), + PropagatingExn); + CGF.Builder.CreateUnreachable(); + } + + CGF.Builder.restoreIP(SavedIP); +} + +void CGObjCMac::EmitThrowStmt(CodeGen::CodeGenFunction &CGF, + const ObjCAtThrowStmt &S, + bool ClearInsertionPoint) { + llvm::Value *ExceptionAsObject; + + if (const Expr *ThrowExpr = S.getThrowExpr()) { + llvm::Value *Exception = CGF.EmitObjCThrowOperand(ThrowExpr); + ExceptionAsObject = + CGF.Builder.CreateBitCast(Exception, ObjCTypes.ObjectPtrTy); + } else { + assert((!CGF.ObjCEHValueStack.empty() && CGF.ObjCEHValueStack.back()) && + "Unexpected rethrow outside @catch block."); + ExceptionAsObject = CGF.ObjCEHValueStack.back(); + } + + CGF.EmitRuntimeCall(ObjCTypes.getExceptionThrowFn(), ExceptionAsObject) + ->setDoesNotReturn(); + CGF.Builder.CreateUnreachable(); + + // Clear the insertion point to indicate we are in unreachable code. + if (ClearInsertionPoint) + CGF.Builder.ClearInsertionPoint(); +} + +/// EmitObjCWeakRead - Code gen for loading value of a __weak +/// object: objc_read_weak (id *src) +/// +llvm::Value * CGObjCMac::EmitObjCWeakRead(CodeGen::CodeGenFunction &CGF, + Address AddrWeakObj) { + llvm::Type* DestTy = AddrWeakObj.getElementType(); + AddrWeakObj = CGF.Builder.CreateBitCast(AddrWeakObj, + ObjCTypes.PtrObjectPtrTy); + llvm::Value *read_weak = + CGF.EmitNounwindRuntimeCall(ObjCTypes.getGcReadWeakFn(), + AddrWeakObj.getPointer(), "weakread"); + read_weak = CGF.Builder.CreateBitCast(read_weak, DestTy); + return read_weak; +} + +/// EmitObjCWeakAssign - Code gen for assigning to a __weak object. +/// objc_assign_weak (id src, id *dst) +/// +void CGObjCMac::EmitObjCWeakAssign(CodeGen::CodeGenFunction &CGF, + llvm::Value *src, Address dst) { + llvm::Type * SrcTy = src->getType(); + if (!isa<llvm::PointerType>(SrcTy)) { + unsigned Size = CGM.getDataLayout().getTypeAllocSize(SrcTy); + assert(Size <= 8 && "does not support size > 8"); + src = (Size == 4) ? CGF.Builder.CreateBitCast(src, CGM.Int32Ty) + : CGF.Builder.CreateBitCast(src, CGM.Int64Ty); + src = CGF.Builder.CreateIntToPtr(src, ObjCTypes.Int8PtrTy); + } + src = CGF.Builder.CreateBitCast(src, ObjCTypes.ObjectPtrTy); + dst = CGF.Builder.CreateBitCast(dst, ObjCTypes.PtrObjectPtrTy); + llvm::Value *args[] = { src, dst.getPointer() }; + CGF.EmitNounwindRuntimeCall(ObjCTypes.getGcAssignWeakFn(), + args, "weakassign"); +} + +/// EmitObjCGlobalAssign - Code gen for assigning to a __strong object. +/// objc_assign_global (id src, id *dst) +/// +void CGObjCMac::EmitObjCGlobalAssign(CodeGen::CodeGenFunction &CGF, + llvm::Value *src, Address dst, + bool threadlocal) { + llvm::Type * SrcTy = src->getType(); + if (!isa<llvm::PointerType>(SrcTy)) { + unsigned Size = CGM.getDataLayout().getTypeAllocSize(SrcTy); + assert(Size <= 8 && "does not support size > 8"); + src = (Size == 4) ? CGF.Builder.CreateBitCast(src, CGM.Int32Ty) + : CGF.Builder.CreateBitCast(src, CGM.Int64Ty); + src = CGF.Builder.CreateIntToPtr(src, ObjCTypes.Int8PtrTy); + } + src = CGF.Builder.CreateBitCast(src, ObjCTypes.ObjectPtrTy); + dst = CGF.Builder.CreateBitCast(dst, ObjCTypes.PtrObjectPtrTy); + llvm::Value *args[] = { src, dst.getPointer() }; + if (!threadlocal) + CGF.EmitNounwindRuntimeCall(ObjCTypes.getGcAssignGlobalFn(), + args, "globalassign"); + else + CGF.EmitNounwindRuntimeCall(ObjCTypes.getGcAssignThreadLocalFn(), + args, "threadlocalassign"); +} + +/// EmitObjCIvarAssign - Code gen for assigning to a __strong object. +/// objc_assign_ivar (id src, id *dst, ptrdiff_t ivaroffset) +/// +void CGObjCMac::EmitObjCIvarAssign(CodeGen::CodeGenFunction &CGF, + llvm::Value *src, Address dst, + llvm::Value *ivarOffset) { + assert(ivarOffset && "EmitObjCIvarAssign - ivarOffset is NULL"); + llvm::Type * SrcTy = src->getType(); + if (!isa<llvm::PointerType>(SrcTy)) { + unsigned Size = CGM.getDataLayout().getTypeAllocSize(SrcTy); + assert(Size <= 8 && "does not support size > 8"); + src = (Size == 4) ? CGF.Builder.CreateBitCast(src, CGM.Int32Ty) + : CGF.Builder.CreateBitCast(src, CGM.Int64Ty); + src = CGF.Builder.CreateIntToPtr(src, ObjCTypes.Int8PtrTy); + } + src = CGF.Builder.CreateBitCast(src, ObjCTypes.ObjectPtrTy); + dst = CGF.Builder.CreateBitCast(dst, ObjCTypes.PtrObjectPtrTy); + llvm::Value *args[] = { src, dst.getPointer(), ivarOffset }; + CGF.EmitNounwindRuntimeCall(ObjCTypes.getGcAssignIvarFn(), args); +} + +/// EmitObjCStrongCastAssign - Code gen for assigning to a __strong cast object. +/// objc_assign_strongCast (id src, id *dst) +/// +void CGObjCMac::EmitObjCStrongCastAssign(CodeGen::CodeGenFunction &CGF, + llvm::Value *src, Address dst) { + llvm::Type * SrcTy = src->getType(); + if (!isa<llvm::PointerType>(SrcTy)) { + unsigned Size = CGM.getDataLayout().getTypeAllocSize(SrcTy); + assert(Size <= 8 && "does not support size > 8"); + src = (Size == 4) ? CGF.Builder.CreateBitCast(src, CGM.Int32Ty) + : CGF.Builder.CreateBitCast(src, CGM.Int64Ty); + src = CGF.Builder.CreateIntToPtr(src, ObjCTypes.Int8PtrTy); + } + src = CGF.Builder.CreateBitCast(src, ObjCTypes.ObjectPtrTy); + dst = CGF.Builder.CreateBitCast(dst, ObjCTypes.PtrObjectPtrTy); + llvm::Value *args[] = { src, dst.getPointer() }; + CGF.EmitNounwindRuntimeCall(ObjCTypes.getGcAssignStrongCastFn(), + args, "strongassign"); +} + +void CGObjCMac::EmitGCMemmoveCollectable(CodeGen::CodeGenFunction &CGF, + Address DestPtr, + Address SrcPtr, + llvm::Value *size) { + SrcPtr = CGF.Builder.CreateBitCast(SrcPtr, ObjCTypes.Int8PtrTy); + DestPtr = CGF.Builder.CreateBitCast(DestPtr, ObjCTypes.Int8PtrTy); + llvm::Value *args[] = { DestPtr.getPointer(), SrcPtr.getPointer(), size }; + CGF.EmitNounwindRuntimeCall(ObjCTypes.GcMemmoveCollectableFn(), args); +} + +/// EmitObjCValueForIvar - Code Gen for ivar reference. +/// +LValue CGObjCMac::EmitObjCValueForIvar(CodeGen::CodeGenFunction &CGF, + QualType ObjectTy, + llvm::Value *BaseValue, + const ObjCIvarDecl *Ivar, + unsigned CVRQualifiers) { + const ObjCInterfaceDecl *ID = + ObjectTy->getAs<ObjCObjectType>()->getInterface(); + return EmitValueForIvarAtOffset(CGF, ID, BaseValue, Ivar, CVRQualifiers, + EmitIvarOffset(CGF, ID, Ivar)); +} + +llvm::Value *CGObjCMac::EmitIvarOffset(CodeGen::CodeGenFunction &CGF, + const ObjCInterfaceDecl *Interface, + const ObjCIvarDecl *Ivar) { + uint64_t Offset = ComputeIvarBaseOffset(CGM, Interface, Ivar); + return llvm::ConstantInt::get( + CGM.getTypes().ConvertType(CGM.getContext().LongTy), + Offset); +} + +/* *** Private Interface *** */ + +std::string CGObjCCommonMac::GetSectionName(StringRef Section, + StringRef MachOAttributes) { + switch (CGM.getTriple().getObjectFormat()) { + case llvm::Triple::UnknownObjectFormat: + llvm_unreachable("unexpected object file format"); + case llvm::Triple::MachO: { + if (MachOAttributes.empty()) + return ("__DATA," + Section).str(); + return ("__DATA," + Section + "," + MachOAttributes).str(); + } + case llvm::Triple::ELF: + assert(Section.substr(0, 2) == "__" && + "expected the name to begin with __"); + return Section.substr(2).str(); + case llvm::Triple::COFF: + assert(Section.substr(0, 2) == "__" && + "expected the name to begin with __"); + return ("." + Section.substr(2) + "$B").str(); + case llvm::Triple::Wasm: + case llvm::Triple::XCOFF: + llvm::report_fatal_error( + "Objective-C support is unimplemented for object file format."); + } + + llvm_unreachable("Unhandled llvm::Triple::ObjectFormatType enum"); +} + +/// EmitImageInfo - Emit the image info marker used to encode some module +/// level information. +/// +/// See: <rdr://4810609&4810587&4810587> +/// struct IMAGE_INFO { +/// unsigned version; +/// unsigned flags; +/// }; +enum ImageInfoFlags { + eImageInfo_FixAndContinue = (1 << 0), // This flag is no longer set by clang. + eImageInfo_GarbageCollected = (1 << 1), + eImageInfo_GCOnly = (1 << 2), + eImageInfo_OptimizedByDyld = (1 << 3), // This flag is set by the dyld shared cache. + + // A flag indicating that the module has no instances of a @synthesize of a + // superclass variable. <rdar://problem/6803242> + eImageInfo_CorrectedSynthesize = (1 << 4), // This flag is no longer set by clang. + eImageInfo_ImageIsSimulated = (1 << 5), + eImageInfo_ClassProperties = (1 << 6) +}; + +void CGObjCCommonMac::EmitImageInfo() { + unsigned version = 0; // Version is unused? + std::string Section = + (ObjCABI == 1) + ? "__OBJC,__image_info,regular" + : GetSectionName("__objc_imageinfo", "regular,no_dead_strip"); + + // Generate module-level named metadata to convey this information to the + // linker and code-gen. + llvm::Module &Mod = CGM.getModule(); + + // Add the ObjC ABI version to the module flags. + Mod.addModuleFlag(llvm::Module::Error, "Objective-C Version", ObjCABI); + Mod.addModuleFlag(llvm::Module::Error, "Objective-C Image Info Version", + version); + Mod.addModuleFlag(llvm::Module::Error, "Objective-C Image Info Section", + llvm::MDString::get(VMContext, Section)); + + if (CGM.getLangOpts().getGC() == LangOptions::NonGC) { + // Non-GC overrides those files which specify GC. + Mod.addModuleFlag(llvm::Module::Override, + "Objective-C Garbage Collection", (uint32_t)0); + } else { + // Add the ObjC garbage collection value. + Mod.addModuleFlag(llvm::Module::Error, + "Objective-C Garbage Collection", + eImageInfo_GarbageCollected); + + if (CGM.getLangOpts().getGC() == LangOptions::GCOnly) { + // Add the ObjC GC Only value. + Mod.addModuleFlag(llvm::Module::Error, "Objective-C GC Only", + eImageInfo_GCOnly); + + // Require that GC be specified and set to eImageInfo_GarbageCollected. + llvm::Metadata *Ops[2] = { + llvm::MDString::get(VMContext, "Objective-C Garbage Collection"), + llvm::ConstantAsMetadata::get(llvm::ConstantInt::get( + llvm::Type::getInt32Ty(VMContext), eImageInfo_GarbageCollected))}; + Mod.addModuleFlag(llvm::Module::Require, "Objective-C GC Only", + llvm::MDNode::get(VMContext, Ops)); + } + } + + // Indicate whether we're compiling this to run on a simulator. + if (CGM.getTarget().getTriple().isSimulatorEnvironment()) + Mod.addModuleFlag(llvm::Module::Error, "Objective-C Is Simulated", + eImageInfo_ImageIsSimulated); + + // Indicate whether we are generating class properties. + Mod.addModuleFlag(llvm::Module::Error, "Objective-C Class Properties", + eImageInfo_ClassProperties); +} + +// struct objc_module { +// unsigned long version; +// unsigned long size; +// const char *name; +// Symtab symtab; +// }; + +// FIXME: Get from somewhere +static const int ModuleVersion = 7; + +void CGObjCMac::EmitModuleInfo() { + uint64_t Size = CGM.getDataLayout().getTypeAllocSize(ObjCTypes.ModuleTy); + + ConstantInitBuilder builder(CGM); + auto values = builder.beginStruct(ObjCTypes.ModuleTy); + values.addInt(ObjCTypes.LongTy, ModuleVersion); + values.addInt(ObjCTypes.LongTy, Size); + // This used to be the filename, now it is unused. <rdr://4327263> + values.add(GetClassName(StringRef(""))); + values.add(EmitModuleSymbols()); + CreateMetadataVar("OBJC_MODULES", values, + "__OBJC,__module_info,regular,no_dead_strip", + CGM.getPointerAlign(), true); +} + +llvm::Constant *CGObjCMac::EmitModuleSymbols() { + unsigned NumClasses = DefinedClasses.size(); + unsigned NumCategories = DefinedCategories.size(); + + // Return null if no symbols were defined. + if (!NumClasses && !NumCategories) + return llvm::Constant::getNullValue(ObjCTypes.SymtabPtrTy); + + ConstantInitBuilder builder(CGM); + auto values = builder.beginStruct(); + values.addInt(ObjCTypes.LongTy, 0); + values.addNullPointer(ObjCTypes.SelectorPtrTy); + values.addInt(ObjCTypes.ShortTy, NumClasses); + values.addInt(ObjCTypes.ShortTy, NumCategories); + + // The runtime expects exactly the list of defined classes followed + // by the list of defined categories, in a single array. + auto array = values.beginArray(ObjCTypes.Int8PtrTy); + for (unsigned i=0; i<NumClasses; i++) { + const ObjCInterfaceDecl *ID = ImplementedClasses[i]; + assert(ID); + if (ObjCImplementationDecl *IMP = ID->getImplementation()) + // We are implementing a weak imported interface. Give it external linkage + if (ID->isWeakImported() && !IMP->isWeakImported()) + DefinedClasses[i]->setLinkage(llvm::GlobalVariable::ExternalLinkage); + + array.addBitCast(DefinedClasses[i], ObjCTypes.Int8PtrTy); + } + for (unsigned i=0; i<NumCategories; i++) + array.addBitCast(DefinedCategories[i], ObjCTypes.Int8PtrTy); + + array.finishAndAddTo(values); + + llvm::GlobalVariable *GV = CreateMetadataVar( + "OBJC_SYMBOLS", values, "__OBJC,__symbols,regular,no_dead_strip", + CGM.getPointerAlign(), true); + return llvm::ConstantExpr::getBitCast(GV, ObjCTypes.SymtabPtrTy); +} + +llvm::Value *CGObjCMac::EmitClassRefFromId(CodeGenFunction &CGF, + IdentifierInfo *II) { + LazySymbols.insert(II); + + llvm::GlobalVariable *&Entry = ClassReferences[II]; + + if (!Entry) { + llvm::Constant *Casted = + llvm::ConstantExpr::getBitCast(GetClassName(II->getName()), + ObjCTypes.ClassPtrTy); + Entry = CreateMetadataVar( + "OBJC_CLASS_REFERENCES_", Casted, + "__OBJC,__cls_refs,literal_pointers,no_dead_strip", + CGM.getPointerAlign(), true); + } + + return CGF.Builder.CreateAlignedLoad(Entry, CGF.getPointerAlign()); +} + +llvm::Value *CGObjCMac::EmitClassRef(CodeGenFunction &CGF, + const ObjCInterfaceDecl *ID) { + // If the class has the objc_runtime_visible attribute, we need to + // use the Objective-C runtime to get the class. + if (ID->hasAttr<ObjCRuntimeVisibleAttr>()) + return EmitClassRefViaRuntime(CGF, ID, ObjCTypes); + + IdentifierInfo *RuntimeName = + &CGM.getContext().Idents.get(ID->getObjCRuntimeNameAsString()); + return EmitClassRefFromId(CGF, RuntimeName); +} + +llvm::Value *CGObjCMac::EmitNSAutoreleasePoolClassRef(CodeGenFunction &CGF) { + IdentifierInfo *II = &CGM.getContext().Idents.get("NSAutoreleasePool"); + return EmitClassRefFromId(CGF, II); +} + +llvm::Value *CGObjCMac::EmitSelector(CodeGenFunction &CGF, Selector Sel) { + return CGF.Builder.CreateLoad(EmitSelectorAddr(CGF, Sel)); +} + +Address CGObjCMac::EmitSelectorAddr(CodeGenFunction &CGF, Selector Sel) { + CharUnits Align = CGF.getPointerAlign(); + + llvm::GlobalVariable *&Entry = SelectorReferences[Sel]; + if (!Entry) { + llvm::Constant *Casted = + llvm::ConstantExpr::getBitCast(GetMethodVarName(Sel), + ObjCTypes.SelectorPtrTy); + Entry = CreateMetadataVar( + "OBJC_SELECTOR_REFERENCES_", Casted, + "__OBJC,__message_refs,literal_pointers,no_dead_strip", Align, true); + Entry->setExternallyInitialized(true); + } + + return Address(Entry, Align); +} + +llvm::Constant *CGObjCCommonMac::GetClassName(StringRef RuntimeName) { + llvm::GlobalVariable *&Entry = ClassNames[RuntimeName]; + if (!Entry) + Entry = CreateCStringLiteral(RuntimeName, ObjCLabelType::ClassName); + return getConstantGEP(VMContext, Entry, 0, 0); +} + +llvm::Function *CGObjCCommonMac::GetMethodDefinition(const ObjCMethodDecl *MD) { + llvm::DenseMap<const ObjCMethodDecl*, llvm::Function*>::iterator + I = MethodDefinitions.find(MD); + if (I != MethodDefinitions.end()) + return I->second; + + return nullptr; +} + +/// GetIvarLayoutName - Returns a unique constant for the given +/// ivar layout bitmap. +llvm::Constant *CGObjCCommonMac::GetIvarLayoutName(IdentifierInfo *Ident, + const ObjCCommonTypesHelper &ObjCTypes) { + return llvm::Constant::getNullValue(ObjCTypes.Int8PtrTy); +} + +void IvarLayoutBuilder::visitRecord(const RecordType *RT, + CharUnits offset) { + const RecordDecl *RD = RT->getDecl(); + + // If this is a union, remember that we had one, because it might mess + // up the ordering of layout entries. + if (RD->isUnion()) + IsDisordered = true; + + const ASTRecordLayout *recLayout = nullptr; + visitAggregate(RD->field_begin(), RD->field_end(), offset, + [&](const FieldDecl *field) -> CharUnits { + if (!recLayout) + recLayout = &CGM.getContext().getASTRecordLayout(RD); + auto offsetInBits = recLayout->getFieldOffset(field->getFieldIndex()); + return CGM.getContext().toCharUnitsFromBits(offsetInBits); + }); +} + +template <class Iterator, class GetOffsetFn> +void IvarLayoutBuilder::visitAggregate(Iterator begin, Iterator end, + CharUnits aggregateOffset, + const GetOffsetFn &getOffset) { + for (; begin != end; ++begin) { + auto field = *begin; + + // Skip over bitfields. + if (field->isBitField()) { + continue; + } + + // Compute the offset of the field within the aggregate. + CharUnits fieldOffset = aggregateOffset + getOffset(field); + + visitField(field, fieldOffset); + } +} + +/// Collect layout information for the given fields into IvarsInfo. +void IvarLayoutBuilder::visitField(const FieldDecl *field, + CharUnits fieldOffset) { + QualType fieldType = field->getType(); + + // Drill down into arrays. + uint64_t numElts = 1; + if (auto arrayType = CGM.getContext().getAsIncompleteArrayType(fieldType)) { + numElts = 0; + fieldType = arrayType->getElementType(); + } + // Unlike incomplete arrays, constant arrays can be nested. + while (auto arrayType = CGM.getContext().getAsConstantArrayType(fieldType)) { + numElts *= arrayType->getSize().getZExtValue(); + fieldType = arrayType->getElementType(); + } + + assert(!fieldType->isArrayType() && "ivar of non-constant array type?"); + + // If we ended up with a zero-sized array, we've done what we can do within + // the limits of this layout encoding. + if (numElts == 0) return; + + // Recurse if the base element type is a record type. + if (auto recType = fieldType->getAs<RecordType>()) { + size_t oldEnd = IvarsInfo.size(); + + visitRecord(recType, fieldOffset); + + // If we have an array, replicate the first entry's layout information. + auto numEltEntries = IvarsInfo.size() - oldEnd; + if (numElts != 1 && numEltEntries != 0) { + CharUnits eltSize = CGM.getContext().getTypeSizeInChars(recType); + for (uint64_t eltIndex = 1; eltIndex != numElts; ++eltIndex) { + // Copy the last numEltEntries onto the end of the array, adjusting + // each for the element size. + for (size_t i = 0; i != numEltEntries; ++i) { + auto firstEntry = IvarsInfo[oldEnd + i]; + IvarsInfo.push_back(IvarInfo(firstEntry.Offset + eltIndex * eltSize, + firstEntry.SizeInWords)); + } + } + } + + return; + } + + // Classify the element type. + Qualifiers::GC GCAttr = GetGCAttrTypeForType(CGM.getContext(), fieldType); + + // If it matches what we're looking for, add an entry. + if ((ForStrongLayout && GCAttr == Qualifiers::Strong) + || (!ForStrongLayout && GCAttr == Qualifiers::Weak)) { + assert(CGM.getContext().getTypeSizeInChars(fieldType) + == CGM.getPointerSize()); + IvarsInfo.push_back(IvarInfo(fieldOffset, numElts)); + } +} + +/// buildBitmap - This routine does the horsework of taking the offsets of +/// strong/weak references and creating a bitmap. The bitmap is also +/// returned in the given buffer, suitable for being passed to \c dump(). +llvm::Constant *IvarLayoutBuilder::buildBitmap(CGObjCCommonMac &CGObjC, + llvm::SmallVectorImpl<unsigned char> &buffer) { + // The bitmap is a series of skip/scan instructions, aligned to word + // boundaries. The skip is performed first. + const unsigned char MaxNibble = 0xF; + const unsigned char SkipMask = 0xF0, SkipShift = 4; + const unsigned char ScanMask = 0x0F, ScanShift = 0; + + assert(!IvarsInfo.empty() && "generating bitmap for no data"); + + // Sort the ivar info on byte position in case we encounterred a + // union nested in the ivar list. + if (IsDisordered) { + // This isn't a stable sort, but our algorithm should handle it fine. + llvm::array_pod_sort(IvarsInfo.begin(), IvarsInfo.end()); + } else { + assert(std::is_sorted(IvarsInfo.begin(), IvarsInfo.end())); + } + assert(IvarsInfo.back().Offset < InstanceEnd); + + assert(buffer.empty()); + + // Skip the next N words. + auto skip = [&](unsigned numWords) { + assert(numWords > 0); + + // Try to merge into the previous byte. Since scans happen second, we + // can't do this if it includes a scan. + if (!buffer.empty() && !(buffer.back() & ScanMask)) { + unsigned lastSkip = buffer.back() >> SkipShift; + if (lastSkip < MaxNibble) { + unsigned claimed = std::min(MaxNibble - lastSkip, numWords); + numWords -= claimed; + lastSkip += claimed; + buffer.back() = (lastSkip << SkipShift); + } + } + + while (numWords >= MaxNibble) { + buffer.push_back(MaxNibble << SkipShift); + numWords -= MaxNibble; + } + if (numWords) { + buffer.push_back(numWords << SkipShift); + } + }; + + // Scan the next N words. + auto scan = [&](unsigned numWords) { + assert(numWords > 0); + + // Try to merge into the previous byte. Since scans happen second, we can + // do this even if it includes a skip. + if (!buffer.empty()) { + unsigned lastScan = (buffer.back() & ScanMask) >> ScanShift; + if (lastScan < MaxNibble) { + unsigned claimed = std::min(MaxNibble - lastScan, numWords); + numWords -= claimed; + lastScan += claimed; + buffer.back() = (buffer.back() & SkipMask) | (lastScan << ScanShift); + } + } + + while (numWords >= MaxNibble) { + buffer.push_back(MaxNibble << ScanShift); + numWords -= MaxNibble; + } + if (numWords) { + buffer.push_back(numWords << ScanShift); + } + }; + + // One past the end of the last scan. + unsigned endOfLastScanInWords = 0; + const CharUnits WordSize = CGM.getPointerSize(); + + // Consider all the scan requests. + for (auto &request : IvarsInfo) { + CharUnits beginOfScan = request.Offset - InstanceBegin; + + // Ignore scan requests that don't start at an even multiple of the + // word size. We can't encode them. + if ((beginOfScan % WordSize) != 0) continue; + + // Ignore scan requests that start before the instance start. + // This assumes that scans never span that boundary. The boundary + // isn't the true start of the ivars, because in the fragile-ARC case + // it's rounded up to word alignment, but the test above should leave + // us ignoring that possibility. + if (beginOfScan.isNegative()) { + assert(request.Offset + request.SizeInWords * WordSize <= InstanceBegin); + continue; + } + + unsigned beginOfScanInWords = beginOfScan / WordSize; + unsigned endOfScanInWords = beginOfScanInWords + request.SizeInWords; + + // If the scan starts some number of words after the last one ended, + // skip forward. + if (beginOfScanInWords > endOfLastScanInWords) { + skip(beginOfScanInWords - endOfLastScanInWords); + + // Otherwise, start scanning where the last left off. + } else { + beginOfScanInWords = endOfLastScanInWords; + + // If that leaves us with nothing to scan, ignore this request. + if (beginOfScanInWords >= endOfScanInWords) continue; + } + + // Scan to the end of the request. + assert(beginOfScanInWords < endOfScanInWords); + scan(endOfScanInWords - beginOfScanInWords); + endOfLastScanInWords = endOfScanInWords; + } + + if (buffer.empty()) + return llvm::ConstantPointerNull::get(CGM.Int8PtrTy); + + // For GC layouts, emit a skip to the end of the allocation so that we + // have precise information about the entire thing. This isn't useful + // or necessary for the ARC-style layout strings. + if (CGM.getLangOpts().getGC() != LangOptions::NonGC) { + unsigned lastOffsetInWords = + (InstanceEnd - InstanceBegin + WordSize - CharUnits::One()) / WordSize; + if (lastOffsetInWords > endOfLastScanInWords) { + skip(lastOffsetInWords - endOfLastScanInWords); + } + } + + // Null terminate the string. + buffer.push_back(0); + + auto *Entry = CGObjC.CreateCStringLiteral( + reinterpret_cast<char *>(buffer.data()), ObjCLabelType::ClassName); + return getConstantGEP(CGM.getLLVMContext(), Entry, 0, 0); +} + +/// BuildIvarLayout - Builds ivar layout bitmap for the class +/// implementation for the __strong or __weak case. +/// The layout map displays which words in ivar list must be skipped +/// and which must be scanned by GC (see below). String is built of bytes. +/// Each byte is divided up in two nibbles (4-bit each). Left nibble is count +/// of words to skip and right nibble is count of words to scan. So, each +/// nibble represents up to 15 workds to skip or scan. Skipping the rest is +/// represented by a 0x00 byte which also ends the string. +/// 1. when ForStrongLayout is true, following ivars are scanned: +/// - id, Class +/// - object * +/// - __strong anything +/// +/// 2. When ForStrongLayout is false, following ivars are scanned: +/// - __weak anything +/// +llvm::Constant * +CGObjCCommonMac::BuildIvarLayout(const ObjCImplementationDecl *OMD, + CharUnits beginOffset, CharUnits endOffset, + bool ForStrongLayout, bool HasMRCWeakIvars) { + // If this is MRC, and we're either building a strong layout or there + // are no weak ivars, bail out early. + llvm::Type *PtrTy = CGM.Int8PtrTy; + if (CGM.getLangOpts().getGC() == LangOptions::NonGC && + !CGM.getLangOpts().ObjCAutoRefCount && + (ForStrongLayout || !HasMRCWeakIvars)) + return llvm::Constant::getNullValue(PtrTy); + + const ObjCInterfaceDecl *OI = OMD->getClassInterface(); + SmallVector<const ObjCIvarDecl*, 32> ivars; + + // GC layout strings include the complete object layout, possibly + // inaccurately in the non-fragile ABI; the runtime knows how to fix this + // up. + // + // ARC layout strings only include the class's ivars. In non-fragile + // runtimes, that means starting at InstanceStart, rounded up to word + // alignment. In fragile runtimes, there's no InstanceStart, so it means + // starting at the offset of the first ivar, rounded up to word alignment. + // + // MRC weak layout strings follow the ARC style. + CharUnits baseOffset; + if (CGM.getLangOpts().getGC() == LangOptions::NonGC) { + for (const ObjCIvarDecl *IVD = OI->all_declared_ivar_begin(); + IVD; IVD = IVD->getNextIvar()) + ivars.push_back(IVD); + + if (isNonFragileABI()) { + baseOffset = beginOffset; // InstanceStart + } else if (!ivars.empty()) { + baseOffset = + CharUnits::fromQuantity(ComputeIvarBaseOffset(CGM, OMD, ivars[0])); + } else { + baseOffset = CharUnits::Zero(); + } + + baseOffset = baseOffset.alignTo(CGM.getPointerAlign()); + } + else { + CGM.getContext().DeepCollectObjCIvars(OI, true, ivars); + + baseOffset = CharUnits::Zero(); + } + + if (ivars.empty()) + return llvm::Constant::getNullValue(PtrTy); + + IvarLayoutBuilder builder(CGM, baseOffset, endOffset, ForStrongLayout); + + builder.visitAggregate(ivars.begin(), ivars.end(), CharUnits::Zero(), + [&](const ObjCIvarDecl *ivar) -> CharUnits { + return CharUnits::fromQuantity(ComputeIvarBaseOffset(CGM, OMD, ivar)); + }); + + if (!builder.hasBitmapData()) + return llvm::Constant::getNullValue(PtrTy); + + llvm::SmallVector<unsigned char, 4> buffer; + llvm::Constant *C = builder.buildBitmap(*this, buffer); + + if (CGM.getLangOpts().ObjCGCBitmapPrint && !buffer.empty()) { + printf("\n%s ivar layout for class '%s': ", + ForStrongLayout ? "strong" : "weak", + OMD->getClassInterface()->getName().str().c_str()); + builder.dump(buffer); + } + return C; +} + +llvm::Constant *CGObjCCommonMac::GetMethodVarName(Selector Sel) { + llvm::GlobalVariable *&Entry = MethodVarNames[Sel]; + // FIXME: Avoid std::string in "Sel.getAsString()" + if (!Entry) + Entry = CreateCStringLiteral(Sel.getAsString(), ObjCLabelType::MethodVarName); + return getConstantGEP(VMContext, Entry, 0, 0); +} + +// FIXME: Merge into a single cstring creation function. +llvm::Constant *CGObjCCommonMac::GetMethodVarName(IdentifierInfo *ID) { + return GetMethodVarName(CGM.getContext().Selectors.getNullarySelector(ID)); +} + +llvm::Constant *CGObjCCommonMac::GetMethodVarType(const FieldDecl *Field) { + std::string TypeStr; + CGM.getContext().getObjCEncodingForType(Field->getType(), TypeStr, Field); + + llvm::GlobalVariable *&Entry = MethodVarTypes[TypeStr]; + if (!Entry) + Entry = CreateCStringLiteral(TypeStr, ObjCLabelType::MethodVarType); + return getConstantGEP(VMContext, Entry, 0, 0); +} + +llvm::Constant *CGObjCCommonMac::GetMethodVarType(const ObjCMethodDecl *D, + bool Extended) { + std::string TypeStr = + CGM.getContext().getObjCEncodingForMethodDecl(D, Extended); + + llvm::GlobalVariable *&Entry = MethodVarTypes[TypeStr]; + if (!Entry) + Entry = CreateCStringLiteral(TypeStr, ObjCLabelType::MethodVarType); + return getConstantGEP(VMContext, Entry, 0, 0); +} + +// FIXME: Merge into a single cstring creation function. +llvm::Constant *CGObjCCommonMac::GetPropertyName(IdentifierInfo *Ident) { + llvm::GlobalVariable *&Entry = PropertyNames[Ident]; + if (!Entry) + Entry = CreateCStringLiteral(Ident->getName(), ObjCLabelType::PropertyName); + return getConstantGEP(VMContext, Entry, 0, 0); +} + +// FIXME: Merge into a single cstring creation function. +// FIXME: This Decl should be more precise. +llvm::Constant * +CGObjCCommonMac::GetPropertyTypeString(const ObjCPropertyDecl *PD, + const Decl *Container) { + std::string TypeStr = + CGM.getContext().getObjCEncodingForPropertyDecl(PD, Container); + return GetPropertyName(&CGM.getContext().Idents.get(TypeStr)); +} + +void CGObjCCommonMac::GetNameForMethod(const ObjCMethodDecl *D, + const ObjCContainerDecl *CD, + SmallVectorImpl<char> &Name) { + llvm::raw_svector_ostream OS(Name); + assert (CD && "Missing container decl in GetNameForMethod"); + OS << '\01' << (D->isInstanceMethod() ? '-' : '+') + << '[' << CD->getName(); + if (const ObjCCategoryImplDecl *CID = + dyn_cast<ObjCCategoryImplDecl>(D->getDeclContext())) + OS << '(' << *CID << ')'; + OS << ' ' << D->getSelector().getAsString() << ']'; +} + +void CGObjCMac::FinishModule() { + EmitModuleInfo(); + + // Emit the dummy bodies for any protocols which were referenced but + // never defined. + for (auto &entry : Protocols) { + llvm::GlobalVariable *global = entry.second; + if (global->hasInitializer()) + continue; + + ConstantInitBuilder builder(CGM); + auto values = builder.beginStruct(ObjCTypes.ProtocolTy); + values.addNullPointer(ObjCTypes.ProtocolExtensionPtrTy); + values.add(GetClassName(entry.first->getName())); + values.addNullPointer(ObjCTypes.ProtocolListPtrTy); + values.addNullPointer(ObjCTypes.MethodDescriptionListPtrTy); + values.addNullPointer(ObjCTypes.MethodDescriptionListPtrTy); + values.finishAndSetAsInitializer(global); + CGM.addCompilerUsedGlobal(global); + } + + // Add assembler directives to add lazy undefined symbol references + // for classes which are referenced but not defined. This is + // important for correct linker interaction. + // + // FIXME: It would be nice if we had an LLVM construct for this. + if ((!LazySymbols.empty() || !DefinedSymbols.empty()) && + CGM.getTriple().isOSBinFormatMachO()) { + SmallString<256> Asm; + Asm += CGM.getModule().getModuleInlineAsm(); + if (!Asm.empty() && Asm.back() != '\n') + Asm += '\n'; + + llvm::raw_svector_ostream OS(Asm); + for (const auto *Sym : DefinedSymbols) + OS << "\t.objc_class_name_" << Sym->getName() << "=0\n" + << "\t.globl .objc_class_name_" << Sym->getName() << "\n"; + for (const auto *Sym : LazySymbols) + OS << "\t.lazy_reference .objc_class_name_" << Sym->getName() << "\n"; + for (const auto &Category : DefinedCategoryNames) + OS << "\t.objc_category_name_" << Category << "=0\n" + << "\t.globl .objc_category_name_" << Category << "\n"; + + CGM.getModule().setModuleInlineAsm(OS.str()); + } +} + +CGObjCNonFragileABIMac::CGObjCNonFragileABIMac(CodeGen::CodeGenModule &cgm) + : CGObjCCommonMac(cgm), ObjCTypes(cgm), ObjCEmptyCacheVar(nullptr), + ObjCEmptyVtableVar(nullptr) { + ObjCABI = 2; +} + +/* *** */ + +ObjCCommonTypesHelper::ObjCCommonTypesHelper(CodeGen::CodeGenModule &cgm) + : VMContext(cgm.getLLVMContext()), CGM(cgm), ExternalProtocolPtrTy(nullptr) +{ + CodeGen::CodeGenTypes &Types = CGM.getTypes(); + ASTContext &Ctx = CGM.getContext(); + + ShortTy = cast<llvm::IntegerType>(Types.ConvertType(Ctx.ShortTy)); + IntTy = CGM.IntTy; + LongTy = cast<llvm::IntegerType>(Types.ConvertType(Ctx.LongTy)); + Int8PtrTy = CGM.Int8PtrTy; + Int8PtrPtrTy = CGM.Int8PtrPtrTy; + + // arm64 targets use "int" ivar offset variables. All others, + // including OS X x86_64 and Windows x86_64, use "long" ivar offsets. + if (CGM.getTarget().getTriple().getArch() == llvm::Triple::aarch64) + IvarOffsetVarTy = IntTy; + else + IvarOffsetVarTy = LongTy; + + ObjectPtrTy = + cast<llvm::PointerType>(Types.ConvertType(Ctx.getObjCIdType())); + PtrObjectPtrTy = + llvm::PointerType::getUnqual(ObjectPtrTy); + SelectorPtrTy = + cast<llvm::PointerType>(Types.ConvertType(Ctx.getObjCSelType())); + + // I'm not sure I like this. The implicit coordination is a bit + // gross. We should solve this in a reasonable fashion because this + // is a pretty common task (match some runtime data structure with + // an LLVM data structure). + + // FIXME: This is leaked. + // FIXME: Merge with rewriter code? + + // struct _objc_super { + // id self; + // Class cls; + // } + RecordDecl *RD = RecordDecl::Create(Ctx, TTK_Struct, + Ctx.getTranslationUnitDecl(), + SourceLocation(), SourceLocation(), + &Ctx.Idents.get("_objc_super")); + RD->addDecl(FieldDecl::Create(Ctx, RD, SourceLocation(), SourceLocation(), + nullptr, Ctx.getObjCIdType(), nullptr, nullptr, + false, ICIS_NoInit)); + RD->addDecl(FieldDecl::Create(Ctx, RD, SourceLocation(), SourceLocation(), + nullptr, Ctx.getObjCClassType(), nullptr, + nullptr, false, ICIS_NoInit)); + RD->completeDefinition(); + + SuperCTy = Ctx.getTagDeclType(RD); + SuperPtrCTy = Ctx.getPointerType(SuperCTy); + + SuperTy = cast<llvm::StructType>(Types.ConvertType(SuperCTy)); + SuperPtrTy = llvm::PointerType::getUnqual(SuperTy); + + // struct _prop_t { + // char *name; + // char *attributes; + // } + PropertyTy = llvm::StructType::create("struct._prop_t", Int8PtrTy, Int8PtrTy); + + // struct _prop_list_t { + // uint32_t entsize; // sizeof(struct _prop_t) + // uint32_t count_of_properties; + // struct _prop_t prop_list[count_of_properties]; + // } + PropertyListTy = llvm::StructType::create( + "struct._prop_list_t", IntTy, IntTy, llvm::ArrayType::get(PropertyTy, 0)); + // struct _prop_list_t * + PropertyListPtrTy = llvm::PointerType::getUnqual(PropertyListTy); + + // struct _objc_method { + // SEL _cmd; + // char *method_type; + // char *_imp; + // } + MethodTy = llvm::StructType::create("struct._objc_method", SelectorPtrTy, + Int8PtrTy, Int8PtrTy); + + // struct _objc_cache * + CacheTy = llvm::StructType::create(VMContext, "struct._objc_cache"); + CachePtrTy = llvm::PointerType::getUnqual(CacheTy); +} + +ObjCTypesHelper::ObjCTypesHelper(CodeGen::CodeGenModule &cgm) + : ObjCCommonTypesHelper(cgm) { + // struct _objc_method_description { + // SEL name; + // char *types; + // } + MethodDescriptionTy = llvm::StructType::create( + "struct._objc_method_description", SelectorPtrTy, Int8PtrTy); + + // struct _objc_method_description_list { + // int count; + // struct _objc_method_description[1]; + // } + MethodDescriptionListTy = + llvm::StructType::create("struct._objc_method_description_list", IntTy, + llvm::ArrayType::get(MethodDescriptionTy, 0)); + + // struct _objc_method_description_list * + MethodDescriptionListPtrTy = + llvm::PointerType::getUnqual(MethodDescriptionListTy); + + // Protocol description structures + + // struct _objc_protocol_extension { + // uint32_t size; // sizeof(struct _objc_protocol_extension) + // struct _objc_method_description_list *optional_instance_methods; + // struct _objc_method_description_list *optional_class_methods; + // struct _objc_property_list *instance_properties; + // const char ** extendedMethodTypes; + // struct _objc_property_list *class_properties; + // } + ProtocolExtensionTy = llvm::StructType::create( + "struct._objc_protocol_extension", IntTy, MethodDescriptionListPtrTy, + MethodDescriptionListPtrTy, PropertyListPtrTy, Int8PtrPtrTy, + PropertyListPtrTy); + + // struct _objc_protocol_extension * + ProtocolExtensionPtrTy = llvm::PointerType::getUnqual(ProtocolExtensionTy); + + // Handle recursive construction of Protocol and ProtocolList types + + ProtocolTy = + llvm::StructType::create(VMContext, "struct._objc_protocol"); + + ProtocolListTy = + llvm::StructType::create(VMContext, "struct._objc_protocol_list"); + ProtocolListTy->setBody(llvm::PointerType::getUnqual(ProtocolListTy), LongTy, + llvm::ArrayType::get(ProtocolTy, 0)); + + // struct _objc_protocol { + // struct _objc_protocol_extension *isa; + // char *protocol_name; + // struct _objc_protocol **_objc_protocol_list; + // struct _objc_method_description_list *instance_methods; + // struct _objc_method_description_list *class_methods; + // } + ProtocolTy->setBody(ProtocolExtensionPtrTy, Int8PtrTy, + llvm::PointerType::getUnqual(ProtocolListTy), + MethodDescriptionListPtrTy, MethodDescriptionListPtrTy); + + // struct _objc_protocol_list * + ProtocolListPtrTy = llvm::PointerType::getUnqual(ProtocolListTy); + + ProtocolPtrTy = llvm::PointerType::getUnqual(ProtocolTy); + + // Class description structures + + // struct _objc_ivar { + // char *ivar_name; + // char *ivar_type; + // int ivar_offset; + // } + IvarTy = llvm::StructType::create("struct._objc_ivar", Int8PtrTy, Int8PtrTy, + IntTy); + + // struct _objc_ivar_list * + IvarListTy = + llvm::StructType::create(VMContext, "struct._objc_ivar_list"); + IvarListPtrTy = llvm::PointerType::getUnqual(IvarListTy); + + // struct _objc_method_list * + MethodListTy = + llvm::StructType::create(VMContext, "struct._objc_method_list"); + MethodListPtrTy = llvm::PointerType::getUnqual(MethodListTy); + + // struct _objc_class_extension * + ClassExtensionTy = llvm::StructType::create( + "struct._objc_class_extension", IntTy, Int8PtrTy, PropertyListPtrTy); + ClassExtensionPtrTy = llvm::PointerType::getUnqual(ClassExtensionTy); + + ClassTy = llvm::StructType::create(VMContext, "struct._objc_class"); + + // struct _objc_class { + // Class isa; + // Class super_class; + // char *name; + // long version; + // long info; + // long instance_size; + // struct _objc_ivar_list *ivars; + // struct _objc_method_list *methods; + // struct _objc_cache *cache; + // struct _objc_protocol_list *protocols; + // char *ivar_layout; + // struct _objc_class_ext *ext; + // }; + ClassTy->setBody(llvm::PointerType::getUnqual(ClassTy), + llvm::PointerType::getUnqual(ClassTy), Int8PtrTy, LongTy, + LongTy, LongTy, IvarListPtrTy, MethodListPtrTy, CachePtrTy, + ProtocolListPtrTy, Int8PtrTy, ClassExtensionPtrTy); + + ClassPtrTy = llvm::PointerType::getUnqual(ClassTy); + + // struct _objc_category { + // char *category_name; + // char *class_name; + // struct _objc_method_list *instance_method; + // struct _objc_method_list *class_method; + // struct _objc_protocol_list *protocols; + // uint32_t size; // sizeof(struct _objc_category) + // struct _objc_property_list *instance_properties;// category's @property + // struct _objc_property_list *class_properties; + // } + CategoryTy = llvm::StructType::create( + "struct._objc_category", Int8PtrTy, Int8PtrTy, MethodListPtrTy, + MethodListPtrTy, ProtocolListPtrTy, IntTy, PropertyListPtrTy, + PropertyListPtrTy); + + // Global metadata structures + + // struct _objc_symtab { + // long sel_ref_cnt; + // SEL *refs; + // short cls_def_cnt; + // short cat_def_cnt; + // char *defs[cls_def_cnt + cat_def_cnt]; + // } + SymtabTy = llvm::StructType::create("struct._objc_symtab", LongTy, + SelectorPtrTy, ShortTy, ShortTy, + llvm::ArrayType::get(Int8PtrTy, 0)); + SymtabPtrTy = llvm::PointerType::getUnqual(SymtabTy); + + // struct _objc_module { + // long version; + // long size; // sizeof(struct _objc_module) + // char *name; + // struct _objc_symtab* symtab; + // } + ModuleTy = llvm::StructType::create("struct._objc_module", LongTy, LongTy, + Int8PtrTy, SymtabPtrTy); + + // FIXME: This is the size of the setjmp buffer and should be target + // specific. 18 is what's used on 32-bit X86. + uint64_t SetJmpBufferSize = 18; + + // Exceptions + llvm::Type *StackPtrTy = llvm::ArrayType::get(CGM.Int8PtrTy, 4); + + ExceptionDataTy = llvm::StructType::create( + "struct._objc_exception_data", + llvm::ArrayType::get(CGM.Int32Ty, SetJmpBufferSize), StackPtrTy); +} + +ObjCNonFragileABITypesHelper::ObjCNonFragileABITypesHelper(CodeGen::CodeGenModule &cgm) + : ObjCCommonTypesHelper(cgm) { + // struct _method_list_t { + // uint32_t entsize; // sizeof(struct _objc_method) + // uint32_t method_count; + // struct _objc_method method_list[method_count]; + // } + MethodListnfABITy = + llvm::StructType::create("struct.__method_list_t", IntTy, IntTy, + llvm::ArrayType::get(MethodTy, 0)); + // struct method_list_t * + MethodListnfABIPtrTy = llvm::PointerType::getUnqual(MethodListnfABITy); + + // struct _protocol_t { + // id isa; // NULL + // const char * const protocol_name; + // const struct _protocol_list_t * protocol_list; // super protocols + // const struct method_list_t * const instance_methods; + // const struct method_list_t * const class_methods; + // const struct method_list_t *optionalInstanceMethods; + // const struct method_list_t *optionalClassMethods; + // const struct _prop_list_t * properties; + // const uint32_t size; // sizeof(struct _protocol_t) + // const uint32_t flags; // = 0 + // const char ** extendedMethodTypes; + // const char *demangledName; + // const struct _prop_list_t * class_properties; + // } + + // Holder for struct _protocol_list_t * + ProtocolListnfABITy = + llvm::StructType::create(VMContext, "struct._objc_protocol_list"); + + ProtocolnfABITy = llvm::StructType::create( + "struct._protocol_t", ObjectPtrTy, Int8PtrTy, + llvm::PointerType::getUnqual(ProtocolListnfABITy), MethodListnfABIPtrTy, + MethodListnfABIPtrTy, MethodListnfABIPtrTy, MethodListnfABIPtrTy, + PropertyListPtrTy, IntTy, IntTy, Int8PtrPtrTy, Int8PtrTy, + PropertyListPtrTy); + + // struct _protocol_t* + ProtocolnfABIPtrTy = llvm::PointerType::getUnqual(ProtocolnfABITy); + + // struct _protocol_list_t { + // long protocol_count; // Note, this is 32/64 bit + // struct _protocol_t *[protocol_count]; + // } + ProtocolListnfABITy->setBody(LongTy, + llvm::ArrayType::get(ProtocolnfABIPtrTy, 0)); + + // struct _objc_protocol_list* + ProtocolListnfABIPtrTy = llvm::PointerType::getUnqual(ProtocolListnfABITy); + + // struct _ivar_t { + // unsigned [long] int *offset; // pointer to ivar offset location + // char *name; + // char *type; + // uint32_t alignment; + // uint32_t size; + // } + IvarnfABITy = llvm::StructType::create( + "struct._ivar_t", llvm::PointerType::getUnqual(IvarOffsetVarTy), + Int8PtrTy, Int8PtrTy, IntTy, IntTy); + + // struct _ivar_list_t { + // uint32 entsize; // sizeof(struct _ivar_t) + // uint32 count; + // struct _iver_t list[count]; + // } + IvarListnfABITy = + llvm::StructType::create("struct._ivar_list_t", IntTy, IntTy, + llvm::ArrayType::get(IvarnfABITy, 0)); + + IvarListnfABIPtrTy = llvm::PointerType::getUnqual(IvarListnfABITy); + + // struct _class_ro_t { + // uint32_t const flags; + // uint32_t const instanceStart; + // uint32_t const instanceSize; + // uint32_t const reserved; // only when building for 64bit targets + // const uint8_t * const ivarLayout; + // const char *const name; + // const struct _method_list_t * const baseMethods; + // const struct _objc_protocol_list *const baseProtocols; + // const struct _ivar_list_t *const ivars; + // const uint8_t * const weakIvarLayout; + // const struct _prop_list_t * const properties; + // } + + // FIXME. Add 'reserved' field in 64bit abi mode! + ClassRonfABITy = llvm::StructType::create( + "struct._class_ro_t", IntTy, IntTy, IntTy, Int8PtrTy, Int8PtrTy, + MethodListnfABIPtrTy, ProtocolListnfABIPtrTy, IvarListnfABIPtrTy, + Int8PtrTy, PropertyListPtrTy); + + // ImpnfABITy - LLVM for id (*)(id, SEL, ...) + llvm::Type *params[] = { ObjectPtrTy, SelectorPtrTy }; + ImpnfABITy = llvm::FunctionType::get(ObjectPtrTy, params, false) + ->getPointerTo(); + + // struct _class_t { + // struct _class_t *isa; + // struct _class_t * const superclass; + // void *cache; + // IMP *vtable; + // struct class_ro_t *ro; + // } + + ClassnfABITy = llvm::StructType::create(VMContext, "struct._class_t"); + ClassnfABITy->setBody(llvm::PointerType::getUnqual(ClassnfABITy), + llvm::PointerType::getUnqual(ClassnfABITy), CachePtrTy, + llvm::PointerType::getUnqual(ImpnfABITy), + llvm::PointerType::getUnqual(ClassRonfABITy)); + + // LLVM for struct _class_t * + ClassnfABIPtrTy = llvm::PointerType::getUnqual(ClassnfABITy); + + // struct _category_t { + // const char * const name; + // struct _class_t *const cls; + // const struct _method_list_t * const instance_methods; + // const struct _method_list_t * const class_methods; + // const struct _protocol_list_t * const protocols; + // const struct _prop_list_t * const properties; + // const struct _prop_list_t * const class_properties; + // const uint32_t size; + // } + CategorynfABITy = llvm::StructType::create( + "struct._category_t", Int8PtrTy, ClassnfABIPtrTy, MethodListnfABIPtrTy, + MethodListnfABIPtrTy, ProtocolListnfABIPtrTy, PropertyListPtrTy, + PropertyListPtrTy, IntTy); + + // New types for nonfragile abi messaging. + CodeGen::CodeGenTypes &Types = CGM.getTypes(); + ASTContext &Ctx = CGM.getContext(); + + // MessageRefTy - LLVM for: + // struct _message_ref_t { + // IMP messenger; + // SEL name; + // }; + + // First the clang type for struct _message_ref_t + RecordDecl *RD = RecordDecl::Create(Ctx, TTK_Struct, + Ctx.getTranslationUnitDecl(), + SourceLocation(), SourceLocation(), + &Ctx.Idents.get("_message_ref_t")); + RD->addDecl(FieldDecl::Create(Ctx, RD, SourceLocation(), SourceLocation(), + nullptr, Ctx.VoidPtrTy, nullptr, nullptr, false, + ICIS_NoInit)); + RD->addDecl(FieldDecl::Create(Ctx, RD, SourceLocation(), SourceLocation(), + nullptr, Ctx.getObjCSelType(), nullptr, nullptr, + false, ICIS_NoInit)); + RD->completeDefinition(); + + MessageRefCTy = Ctx.getTagDeclType(RD); + MessageRefCPtrTy = Ctx.getPointerType(MessageRefCTy); + MessageRefTy = cast<llvm::StructType>(Types.ConvertType(MessageRefCTy)); + + // MessageRefPtrTy - LLVM for struct _message_ref_t* + MessageRefPtrTy = llvm::PointerType::getUnqual(MessageRefTy); + + // SuperMessageRefTy - LLVM for: + // struct _super_message_ref_t { + // SUPER_IMP messenger; + // SEL name; + // }; + SuperMessageRefTy = llvm::StructType::create("struct._super_message_ref_t", + ImpnfABITy, SelectorPtrTy); + + // SuperMessageRefPtrTy - LLVM for struct _super_message_ref_t* + SuperMessageRefPtrTy = llvm::PointerType::getUnqual(SuperMessageRefTy); + + + // struct objc_typeinfo { + // const void** vtable; // objc_ehtype_vtable + 2 + // const char* name; // c++ typeinfo string + // Class cls; + // }; + EHTypeTy = llvm::StructType::create("struct._objc_typeinfo", + llvm::PointerType::getUnqual(Int8PtrTy), + Int8PtrTy, ClassnfABIPtrTy); + EHTypePtrTy = llvm::PointerType::getUnqual(EHTypeTy); +} + +llvm::Function *CGObjCNonFragileABIMac::ModuleInitFunction() { + FinishNonFragileABIModule(); + + return nullptr; +} + +void CGObjCNonFragileABIMac::AddModuleClassList( + ArrayRef<llvm::GlobalValue *> Container, StringRef SymbolName, + StringRef SectionName) { + unsigned NumClasses = Container.size(); + + if (!NumClasses) + return; + + SmallVector<llvm::Constant*, 8> Symbols(NumClasses); + for (unsigned i=0; i<NumClasses; i++) + Symbols[i] = llvm::ConstantExpr::getBitCast(Container[i], + ObjCTypes.Int8PtrTy); + llvm::Constant *Init = + llvm::ConstantArray::get(llvm::ArrayType::get(ObjCTypes.Int8PtrTy, + Symbols.size()), + Symbols); + + // Section name is obtained by calling GetSectionName, which returns + // sections in the __DATA segment on MachO. + assert((!CGM.getTriple().isOSBinFormatMachO() || + SectionName.startswith("__DATA")) && + "SectionName expected to start with __DATA on MachO"); + llvm::GlobalValue::LinkageTypes LT = + getLinkageTypeForObjCMetadata(CGM, SectionName); + llvm::GlobalVariable *GV = + new llvm::GlobalVariable(CGM.getModule(), Init->getType(), false, LT, Init, + SymbolName); + GV->setAlignment(CGM.getDataLayout().getABITypeAlignment(Init->getType())); + GV->setSection(SectionName); + CGM.addCompilerUsedGlobal(GV); +} + +void CGObjCNonFragileABIMac::FinishNonFragileABIModule() { + // nonfragile abi has no module definition. + + // Build list of all implemented class addresses in array + // L_OBJC_LABEL_CLASS_$. + + for (unsigned i=0, NumClasses=ImplementedClasses.size(); i<NumClasses; i++) { + const ObjCInterfaceDecl *ID = ImplementedClasses[i]; + assert(ID); + if (ObjCImplementationDecl *IMP = ID->getImplementation()) + // We are implementing a weak imported interface. Give it external linkage + if (ID->isWeakImported() && !IMP->isWeakImported()) { + DefinedClasses[i]->setLinkage(llvm::GlobalVariable::ExternalLinkage); + DefinedMetaClasses[i]->setLinkage(llvm::GlobalVariable::ExternalLinkage); + } + } + + AddModuleClassList(DefinedClasses, "OBJC_LABEL_CLASS_$", + GetSectionName("__objc_classlist", + "regular,no_dead_strip")); + + AddModuleClassList(DefinedNonLazyClasses, "OBJC_LABEL_NONLAZY_CLASS_$", + GetSectionName("__objc_nlclslist", + "regular,no_dead_strip")); + + // Build list of all implemented category addresses in array + // L_OBJC_LABEL_CATEGORY_$. + AddModuleClassList(DefinedCategories, "OBJC_LABEL_CATEGORY_$", + GetSectionName("__objc_catlist", + "regular,no_dead_strip")); + AddModuleClassList(DefinedStubCategories, "OBJC_LABEL_STUB_CATEGORY_$", + GetSectionName("__objc_catlist2", + "regular,no_dead_strip")); + AddModuleClassList(DefinedNonLazyCategories, "OBJC_LABEL_NONLAZY_CATEGORY_$", + GetSectionName("__objc_nlcatlist", + "regular,no_dead_strip")); + + EmitImageInfo(); +} + +/// isVTableDispatchedSelector - Returns true if SEL is not in the list of +/// VTableDispatchMethods; false otherwise. What this means is that +/// except for the 19 selectors in the list, we generate 32bit-style +/// message dispatch call for all the rest. +bool CGObjCNonFragileABIMac::isVTableDispatchedSelector(Selector Sel) { + // At various points we've experimented with using vtable-based + // dispatch for all methods. + switch (CGM.getCodeGenOpts().getObjCDispatchMethod()) { + case CodeGenOptions::Legacy: + return false; + case CodeGenOptions::NonLegacy: + return true; + case CodeGenOptions::Mixed: + break; + } + + // If so, see whether this selector is in the white-list of things which must + // use the new dispatch convention. We lazily build a dense set for this. + if (VTableDispatchMethods.empty()) { + VTableDispatchMethods.insert(GetNullarySelector("alloc")); + VTableDispatchMethods.insert(GetNullarySelector("class")); + VTableDispatchMethods.insert(GetNullarySelector("self")); + VTableDispatchMethods.insert(GetNullarySelector("isFlipped")); + VTableDispatchMethods.insert(GetNullarySelector("length")); + VTableDispatchMethods.insert(GetNullarySelector("count")); + + // These are vtable-based if GC is disabled. + // Optimistically use vtable dispatch for hybrid compiles. + if (CGM.getLangOpts().getGC() != LangOptions::GCOnly) { + VTableDispatchMethods.insert(GetNullarySelector("retain")); + VTableDispatchMethods.insert(GetNullarySelector("release")); + VTableDispatchMethods.insert(GetNullarySelector("autorelease")); + } + + VTableDispatchMethods.insert(GetUnarySelector("allocWithZone")); + VTableDispatchMethods.insert(GetUnarySelector("isKindOfClass")); + VTableDispatchMethods.insert(GetUnarySelector("respondsToSelector")); + VTableDispatchMethods.insert(GetUnarySelector("objectForKey")); + VTableDispatchMethods.insert(GetUnarySelector("objectAtIndex")); + VTableDispatchMethods.insert(GetUnarySelector("isEqualToString")); + VTableDispatchMethods.insert(GetUnarySelector("isEqual")); + + // These are vtable-based if GC is enabled. + // Optimistically use vtable dispatch for hybrid compiles. + if (CGM.getLangOpts().getGC() != LangOptions::NonGC) { + VTableDispatchMethods.insert(GetNullarySelector("hash")); + VTableDispatchMethods.insert(GetUnarySelector("addObject")); + + // "countByEnumeratingWithState:objects:count" + IdentifierInfo *KeyIdents[] = { + &CGM.getContext().Idents.get("countByEnumeratingWithState"), + &CGM.getContext().Idents.get("objects"), + &CGM.getContext().Idents.get("count") + }; + VTableDispatchMethods.insert( + CGM.getContext().Selectors.getSelector(3, KeyIdents)); + } + } + + return VTableDispatchMethods.count(Sel); +} + +/// BuildClassRoTInitializer - generate meta-data for: +/// struct _class_ro_t { +/// uint32_t const flags; +/// uint32_t const instanceStart; +/// uint32_t const instanceSize; +/// uint32_t const reserved; // only when building for 64bit targets +/// const uint8_t * const ivarLayout; +/// const char *const name; +/// const struct _method_list_t * const baseMethods; +/// const struct _protocol_list_t *const baseProtocols; +/// const struct _ivar_list_t *const ivars; +/// const uint8_t * const weakIvarLayout; +/// const struct _prop_list_t * const properties; +/// } +/// +llvm::GlobalVariable * CGObjCNonFragileABIMac::BuildClassRoTInitializer( + unsigned flags, + unsigned InstanceStart, + unsigned InstanceSize, + const ObjCImplementationDecl *ID) { + std::string ClassName = ID->getObjCRuntimeNameAsString(); + + CharUnits beginInstance = CharUnits::fromQuantity(InstanceStart); + CharUnits endInstance = CharUnits::fromQuantity(InstanceSize); + + bool hasMRCWeak = false; + if (CGM.getLangOpts().ObjCAutoRefCount) + flags |= NonFragileABI_Class_CompiledByARC; + else if ((hasMRCWeak = hasMRCWeakIvars(CGM, ID))) + flags |= NonFragileABI_Class_HasMRCWeakIvars; + + ConstantInitBuilder builder(CGM); + auto values = builder.beginStruct(ObjCTypes.ClassRonfABITy); + + values.addInt(ObjCTypes.IntTy, flags); + values.addInt(ObjCTypes.IntTy, InstanceStart); + values.addInt(ObjCTypes.IntTy, InstanceSize); + values.add((flags & NonFragileABI_Class_Meta) + ? GetIvarLayoutName(nullptr, ObjCTypes) + : BuildStrongIvarLayout(ID, beginInstance, endInstance)); + values.add(GetClassName(ID->getObjCRuntimeNameAsString())); + + // const struct _method_list_t * const baseMethods; + SmallVector<const ObjCMethodDecl*, 16> methods; + if (flags & NonFragileABI_Class_Meta) { + for (const auto *MD : ID->class_methods()) + methods.push_back(MD); + } else { + for (const auto *MD : ID->instance_methods()) + methods.push_back(MD); + + for (const auto *PID : ID->property_impls()) { + if (PID->getPropertyImplementation() == ObjCPropertyImplDecl::Synthesize){ + ObjCPropertyDecl *PD = PID->getPropertyDecl(); + + if (auto MD = PD->getGetterMethodDecl()) + if (GetMethodDefinition(MD)) + methods.push_back(MD); + if (auto MD = PD->getSetterMethodDecl()) + if (GetMethodDefinition(MD)) + methods.push_back(MD); + } + } + } + + values.add(emitMethodList(ID->getObjCRuntimeNameAsString(), + (flags & NonFragileABI_Class_Meta) + ? MethodListType::ClassMethods + : MethodListType::InstanceMethods, + methods)); + + const ObjCInterfaceDecl *OID = ID->getClassInterface(); + assert(OID && "CGObjCNonFragileABIMac::BuildClassRoTInitializer"); + values.add(EmitProtocolList("_OBJC_CLASS_PROTOCOLS_$_" + + OID->getObjCRuntimeNameAsString(), + OID->all_referenced_protocol_begin(), + OID->all_referenced_protocol_end())); + + if (flags & NonFragileABI_Class_Meta) { + values.addNullPointer(ObjCTypes.IvarListnfABIPtrTy); + values.add(GetIvarLayoutName(nullptr, ObjCTypes)); + values.add(EmitPropertyList( + "_OBJC_$_CLASS_PROP_LIST_" + ID->getObjCRuntimeNameAsString(), + ID, ID->getClassInterface(), ObjCTypes, true)); + } else { + values.add(EmitIvarList(ID)); + values.add(BuildWeakIvarLayout(ID, beginInstance, endInstance, hasMRCWeak)); + values.add(EmitPropertyList( + "_OBJC_$_PROP_LIST_" + ID->getObjCRuntimeNameAsString(), + ID, ID->getClassInterface(), ObjCTypes, false)); + } + + llvm::SmallString<64> roLabel; + llvm::raw_svector_ostream(roLabel) + << ((flags & NonFragileABI_Class_Meta) ? "_OBJC_METACLASS_RO_$_" + : "_OBJC_CLASS_RO_$_") + << ClassName; + + return finishAndCreateGlobal(values, roLabel, CGM); +} + +/// Build the metaclass object for a class. +/// +/// struct _class_t { +/// struct _class_t *isa; +/// struct _class_t * const superclass; +/// void *cache; +/// IMP *vtable; +/// struct class_ro_t *ro; +/// } +/// +llvm::GlobalVariable * +CGObjCNonFragileABIMac::BuildClassObject(const ObjCInterfaceDecl *CI, + bool isMetaclass, + llvm::Constant *IsAGV, + llvm::Constant *SuperClassGV, + llvm::Constant *ClassRoGV, + bool HiddenVisibility) { + ConstantInitBuilder builder(CGM); + auto values = builder.beginStruct(ObjCTypes.ClassnfABITy); + values.add(IsAGV); + if (SuperClassGV) { + values.add(SuperClassGV); + } else { + values.addNullPointer(ObjCTypes.ClassnfABIPtrTy); + } + values.add(ObjCEmptyCacheVar); + values.add(ObjCEmptyVtableVar); + values.add(ClassRoGV); + + llvm::GlobalVariable *GV = + cast<llvm::GlobalVariable>(GetClassGlobal(CI, isMetaclass, ForDefinition)); + values.finishAndSetAsInitializer(GV); + + if (CGM.getTriple().isOSBinFormatMachO()) + GV->setSection("__DATA, __objc_data"); + GV->setAlignment( + CGM.getDataLayout().getABITypeAlignment(ObjCTypes.ClassnfABITy)); + if (!CGM.getTriple().isOSBinFormatCOFF()) + if (HiddenVisibility) + GV->setVisibility(llvm::GlobalValue::HiddenVisibility); + return GV; +} + +bool CGObjCNonFragileABIMac::ImplementationIsNonLazy( + const ObjCImplDecl *OD) const { + return OD->getClassMethod(GetNullarySelector("load")) != nullptr || + OD->getClassInterface()->hasAttr<ObjCNonLazyClassAttr>() || + OD->hasAttr<ObjCNonLazyClassAttr>(); +} + +void CGObjCNonFragileABIMac::GetClassSizeInfo(const ObjCImplementationDecl *OID, + uint32_t &InstanceStart, + uint32_t &InstanceSize) { + const ASTRecordLayout &RL = + CGM.getContext().getASTObjCImplementationLayout(OID); + + // InstanceSize is really instance end. + InstanceSize = RL.getDataSize().getQuantity(); + + // If there are no fields, the start is the same as the end. + if (!RL.getFieldCount()) + InstanceStart = InstanceSize; + else + InstanceStart = RL.getFieldOffset(0) / CGM.getContext().getCharWidth(); +} + +static llvm::GlobalValue::DLLStorageClassTypes getStorage(CodeGenModule &CGM, + StringRef Name) { + IdentifierInfo &II = CGM.getContext().Idents.get(Name); + TranslationUnitDecl *TUDecl = CGM.getContext().getTranslationUnitDecl(); + DeclContext *DC = TranslationUnitDecl::castToDeclContext(TUDecl); + + const VarDecl *VD = nullptr; + for (const auto &Result : DC->lookup(&II)) + if ((VD = dyn_cast<VarDecl>(Result))) + break; + + if (!VD) + return llvm::GlobalValue::DLLImportStorageClass; + if (VD->hasAttr<DLLExportAttr>()) + return llvm::GlobalValue::DLLExportStorageClass; + if (VD->hasAttr<DLLImportAttr>()) + return llvm::GlobalValue::DLLImportStorageClass; + return llvm::GlobalValue::DefaultStorageClass; +} + +void CGObjCNonFragileABIMac::GenerateClass(const ObjCImplementationDecl *ID) { + if (!ObjCEmptyCacheVar) { + ObjCEmptyCacheVar = + new llvm::GlobalVariable(CGM.getModule(), ObjCTypes.CacheTy, false, + llvm::GlobalValue::ExternalLinkage, nullptr, + "_objc_empty_cache"); + if (CGM.getTriple().isOSBinFormatCOFF()) + ObjCEmptyCacheVar->setDLLStorageClass(getStorage(CGM, "_objc_empty_cache")); + + // Only OS X with deployment version <10.9 use the empty vtable symbol + const llvm::Triple &Triple = CGM.getTarget().getTriple(); + if (Triple.isMacOSX() && Triple.isMacOSXVersionLT(10, 9)) + ObjCEmptyVtableVar = + new llvm::GlobalVariable(CGM.getModule(), ObjCTypes.ImpnfABITy, false, + llvm::GlobalValue::ExternalLinkage, nullptr, + "_objc_empty_vtable"); + else + ObjCEmptyVtableVar = + llvm::ConstantPointerNull::get(ObjCTypes.ImpnfABITy->getPointerTo()); + } + + // FIXME: Is this correct (that meta class size is never computed)? + uint32_t InstanceStart = + CGM.getDataLayout().getTypeAllocSize(ObjCTypes.ClassnfABITy); + uint32_t InstanceSize = InstanceStart; + uint32_t flags = NonFragileABI_Class_Meta; + + llvm::Constant *SuperClassGV, *IsAGV; + + const auto *CI = ID->getClassInterface(); + assert(CI && "CGObjCNonFragileABIMac::GenerateClass - class is 0"); + + // Build the flags for the metaclass. + bool classIsHidden = (CGM.getTriple().isOSBinFormatCOFF()) + ? !CI->hasAttr<DLLExportAttr>() + : CI->getVisibility() == HiddenVisibility; + if (classIsHidden) + flags |= NonFragileABI_Class_Hidden; + + // FIXME: why is this flag set on the metaclass? + // ObjC metaclasses have no fields and don't really get constructed. + if (ID->hasNonZeroConstructors() || ID->hasDestructors()) { + flags |= NonFragileABI_Class_HasCXXStructors; + if (!ID->hasNonZeroConstructors()) + flags |= NonFragileABI_Class_HasCXXDestructorOnly; + } + + if (!CI->getSuperClass()) { + // class is root + flags |= NonFragileABI_Class_Root; + + SuperClassGV = GetClassGlobal(CI, /*metaclass*/ false, NotForDefinition); + IsAGV = GetClassGlobal(CI, /*metaclass*/ true, NotForDefinition); + } else { + // Has a root. Current class is not a root. + const ObjCInterfaceDecl *Root = ID->getClassInterface(); + while (const ObjCInterfaceDecl *Super = Root->getSuperClass()) + Root = Super; + + const auto *Super = CI->getSuperClass(); + IsAGV = GetClassGlobal(Root, /*metaclass*/ true, NotForDefinition); + SuperClassGV = GetClassGlobal(Super, /*metaclass*/ true, NotForDefinition); + } + + llvm::GlobalVariable *CLASS_RO_GV = + BuildClassRoTInitializer(flags, InstanceStart, InstanceSize, ID); + + llvm::GlobalVariable *MetaTClass = + BuildClassObject(CI, /*metaclass*/ true, + IsAGV, SuperClassGV, CLASS_RO_GV, classIsHidden); + CGM.setGVProperties(MetaTClass, CI); + DefinedMetaClasses.push_back(MetaTClass); + + // Metadata for the class + flags = 0; + if (classIsHidden) + flags |= NonFragileABI_Class_Hidden; + + if (ID->hasNonZeroConstructors() || ID->hasDestructors()) { + flags |= NonFragileABI_Class_HasCXXStructors; + + // Set a flag to enable a runtime optimization when a class has + // fields that require destruction but which don't require + // anything except zero-initialization during construction. This + // is most notably true of __strong and __weak types, but you can + // also imagine there being C++ types with non-trivial default + // constructors that merely set all fields to null. + if (!ID->hasNonZeroConstructors()) + flags |= NonFragileABI_Class_HasCXXDestructorOnly; + } + + if (hasObjCExceptionAttribute(CGM.getContext(), CI)) + flags |= NonFragileABI_Class_Exception; + + if (!CI->getSuperClass()) { + flags |= NonFragileABI_Class_Root; + SuperClassGV = nullptr; + } else { + // Has a root. Current class is not a root. + const auto *Super = CI->getSuperClass(); + SuperClassGV = GetClassGlobal(Super, /*metaclass*/ false, NotForDefinition); + } + + GetClassSizeInfo(ID, InstanceStart, InstanceSize); + CLASS_RO_GV = + BuildClassRoTInitializer(flags, InstanceStart, InstanceSize, ID); + + llvm::GlobalVariable *ClassMD = + BuildClassObject(CI, /*metaclass*/ false, + MetaTClass, SuperClassGV, CLASS_RO_GV, classIsHidden); + CGM.setGVProperties(ClassMD, CI); + DefinedClasses.push_back(ClassMD); + ImplementedClasses.push_back(CI); + + // Determine if this class is also "non-lazy". + if (ImplementationIsNonLazy(ID)) + DefinedNonLazyClasses.push_back(ClassMD); + + // Force the definition of the EHType if necessary. + if (flags & NonFragileABI_Class_Exception) + (void) GetInterfaceEHType(CI, ForDefinition); + // Make sure method definition entries are all clear for next implementation. + MethodDefinitions.clear(); +} + +/// GenerateProtocolRef - This routine is called to generate code for +/// a protocol reference expression; as in: +/// @code +/// @protocol(Proto1); +/// @endcode +/// It generates a weak reference to l_OBJC_PROTOCOL_REFERENCE_$_Proto1 +/// which will hold address of the protocol meta-data. +/// +llvm::Value *CGObjCNonFragileABIMac::GenerateProtocolRef(CodeGenFunction &CGF, + const ObjCProtocolDecl *PD) { + + // This routine is called for @protocol only. So, we must build definition + // of protocol's meta-data (not a reference to it!) + // + llvm::Constant *Init = + llvm::ConstantExpr::getBitCast(GetOrEmitProtocol(PD), + ObjCTypes.getExternalProtocolPtrTy()); + + std::string ProtocolName("_OBJC_PROTOCOL_REFERENCE_$_"); + ProtocolName += PD->getObjCRuntimeNameAsString(); + + CharUnits Align = CGF.getPointerAlign(); + + llvm::GlobalVariable *PTGV = CGM.getModule().getGlobalVariable(ProtocolName); + if (PTGV) + return CGF.Builder.CreateAlignedLoad(PTGV, Align); + PTGV = new llvm::GlobalVariable(CGM.getModule(), Init->getType(), false, + llvm::GlobalValue::WeakAnyLinkage, Init, + ProtocolName); + PTGV->setSection(GetSectionName("__objc_protorefs", + "coalesced,no_dead_strip")); + PTGV->setVisibility(llvm::GlobalValue::HiddenVisibility); + PTGV->setAlignment(Align.getQuantity()); + if (!CGM.getTriple().isOSBinFormatMachO()) + PTGV->setComdat(CGM.getModule().getOrInsertComdat(ProtocolName)); + CGM.addUsedGlobal(PTGV); + return CGF.Builder.CreateAlignedLoad(PTGV, Align); +} + +/// GenerateCategory - Build metadata for a category implementation. +/// struct _category_t { +/// const char * const name; +/// struct _class_t *const cls; +/// const struct _method_list_t * const instance_methods; +/// const struct _method_list_t * const class_methods; +/// const struct _protocol_list_t * const protocols; +/// const struct _prop_list_t * const properties; +/// const struct _prop_list_t * const class_properties; +/// const uint32_t size; +/// } +/// +void CGObjCNonFragileABIMac::GenerateCategory(const ObjCCategoryImplDecl *OCD) { + const ObjCInterfaceDecl *Interface = OCD->getClassInterface(); + const char *Prefix = "_OBJC_$_CATEGORY_"; + + llvm::SmallString<64> ExtCatName(Prefix); + ExtCatName += Interface->getObjCRuntimeNameAsString(); + ExtCatName += "_$_"; + ExtCatName += OCD->getNameAsString(); + + ConstantInitBuilder builder(CGM); + auto values = builder.beginStruct(ObjCTypes.CategorynfABITy); + values.add(GetClassName(OCD->getIdentifier()->getName())); + // meta-class entry symbol + values.add(GetClassGlobal(Interface, /*metaclass*/ false, NotForDefinition)); + std::string listName = + (Interface->getObjCRuntimeNameAsString() + "_$_" + OCD->getName()).str(); + + SmallVector<const ObjCMethodDecl *, 16> instanceMethods; + SmallVector<const ObjCMethodDecl *, 8> classMethods; + for (const auto *MD : OCD->methods()) { + if (MD->isInstanceMethod()) { + instanceMethods.push_back(MD); + } else { + classMethods.push_back(MD); + } + } + + values.add(emitMethodList(listName, MethodListType::CategoryInstanceMethods, + instanceMethods)); + values.add(emitMethodList(listName, MethodListType::CategoryClassMethods, + classMethods)); + + const ObjCCategoryDecl *Category = + Interface->FindCategoryDeclaration(OCD->getIdentifier()); + if (Category) { + SmallString<256> ExtName; + llvm::raw_svector_ostream(ExtName) << Interface->getObjCRuntimeNameAsString() << "_$_" + << OCD->getName(); + values.add(EmitProtocolList("_OBJC_CATEGORY_PROTOCOLS_$_" + + Interface->getObjCRuntimeNameAsString() + "_$_" + + Category->getName(), + Category->protocol_begin(), + Category->protocol_end())); + values.add(EmitPropertyList("_OBJC_$_PROP_LIST_" + ExtName.str(), + OCD, Category, ObjCTypes, false)); + values.add(EmitPropertyList("_OBJC_$_CLASS_PROP_LIST_" + ExtName.str(), + OCD, Category, ObjCTypes, true)); + } else { + values.addNullPointer(ObjCTypes.ProtocolListnfABIPtrTy); + values.addNullPointer(ObjCTypes.PropertyListPtrTy); + values.addNullPointer(ObjCTypes.PropertyListPtrTy); + } + + unsigned Size = CGM.getDataLayout().getTypeAllocSize(ObjCTypes.CategorynfABITy); + values.addInt(ObjCTypes.IntTy, Size); + + llvm::GlobalVariable *GCATV = + finishAndCreateGlobal(values, ExtCatName.str(), CGM); + CGM.addCompilerUsedGlobal(GCATV); + if (Interface->hasAttr<ObjCClassStubAttr>()) + DefinedStubCategories.push_back(GCATV); + else + DefinedCategories.push_back(GCATV); + + // Determine if this category is also "non-lazy". + if (ImplementationIsNonLazy(OCD)) + DefinedNonLazyCategories.push_back(GCATV); + // method definition entries must be clear for next implementation. + MethodDefinitions.clear(); +} + +/// emitMethodConstant - Return a struct objc_method constant. If +/// forProtocol is true, the implementation will be null; otherwise, +/// the method must have a definition registered with the runtime. +/// +/// struct _objc_method { +/// SEL _cmd; +/// char *method_type; +/// char *_imp; +/// } +void CGObjCNonFragileABIMac::emitMethodConstant(ConstantArrayBuilder &builder, + const ObjCMethodDecl *MD, + bool forProtocol) { + auto method = builder.beginStruct(ObjCTypes.MethodTy); + method.addBitCast(GetMethodVarName(MD->getSelector()), + ObjCTypes.SelectorPtrTy); + method.add(GetMethodVarType(MD)); + + if (forProtocol) { + // Protocol methods have no implementation. So, this entry is always NULL. + method.addNullPointer(ObjCTypes.Int8PtrTy); + } else { + llvm::Function *fn = GetMethodDefinition(MD); + assert(fn && "no definition for method?"); + method.addBitCast(fn, ObjCTypes.Int8PtrTy); + } + + method.finishAndAddTo(builder); +} + +/// Build meta-data for method declarations. +/// +/// struct _method_list_t { +/// uint32_t entsize; // sizeof(struct _objc_method) +/// uint32_t method_count; +/// struct _objc_method method_list[method_count]; +/// } +/// +llvm::Constant * +CGObjCNonFragileABIMac::emitMethodList(Twine name, MethodListType kind, + ArrayRef<const ObjCMethodDecl *> methods) { + // Return null for empty list. + if (methods.empty()) + return llvm::Constant::getNullValue(ObjCTypes.MethodListnfABIPtrTy); + + StringRef prefix; + bool forProtocol; + switch (kind) { + case MethodListType::CategoryInstanceMethods: + prefix = "_OBJC_$_CATEGORY_INSTANCE_METHODS_"; + forProtocol = false; + break; + case MethodListType::CategoryClassMethods: + prefix = "_OBJC_$_CATEGORY_CLASS_METHODS_"; + forProtocol = false; + break; + case MethodListType::InstanceMethods: + prefix = "_OBJC_$_INSTANCE_METHODS_"; + forProtocol = false; + break; + case MethodListType::ClassMethods: + prefix = "_OBJC_$_CLASS_METHODS_"; + forProtocol = false; + break; + + case MethodListType::ProtocolInstanceMethods: + prefix = "_OBJC_$_PROTOCOL_INSTANCE_METHODS_"; + forProtocol = true; + break; + case MethodListType::ProtocolClassMethods: + prefix = "_OBJC_$_PROTOCOL_CLASS_METHODS_"; + forProtocol = true; + break; + case MethodListType::OptionalProtocolInstanceMethods: + prefix = "_OBJC_$_PROTOCOL_INSTANCE_METHODS_OPT_"; + forProtocol = true; + break; + case MethodListType::OptionalProtocolClassMethods: + prefix = "_OBJC_$_PROTOCOL_CLASS_METHODS_OPT_"; + forProtocol = true; + break; + } + + ConstantInitBuilder builder(CGM); + auto values = builder.beginStruct(); + + // sizeof(struct _objc_method) + unsigned Size = CGM.getDataLayout().getTypeAllocSize(ObjCTypes.MethodTy); + values.addInt(ObjCTypes.IntTy, Size); + // method_count + values.addInt(ObjCTypes.IntTy, methods.size()); + auto methodArray = values.beginArray(ObjCTypes.MethodTy); + for (auto MD : methods) { + emitMethodConstant(methodArray, MD, forProtocol); + } + methodArray.finishAndAddTo(values); + + llvm::GlobalVariable *GV = finishAndCreateGlobal(values, prefix + name, CGM); + CGM.addCompilerUsedGlobal(GV); + return llvm::ConstantExpr::getBitCast(GV, ObjCTypes.MethodListnfABIPtrTy); +} + +/// ObjCIvarOffsetVariable - Returns the ivar offset variable for +/// the given ivar. +llvm::GlobalVariable * +CGObjCNonFragileABIMac::ObjCIvarOffsetVariable(const ObjCInterfaceDecl *ID, + const ObjCIvarDecl *Ivar) { + const ObjCInterfaceDecl *Container = Ivar->getContainingInterface(); + llvm::SmallString<64> Name("OBJC_IVAR_$_"); + Name += Container->getObjCRuntimeNameAsString(); + Name += "."; + Name += Ivar->getName(); + llvm::GlobalVariable *IvarOffsetGV = CGM.getModule().getGlobalVariable(Name); + if (!IvarOffsetGV) { + IvarOffsetGV = + new llvm::GlobalVariable(CGM.getModule(), ObjCTypes.IvarOffsetVarTy, + false, llvm::GlobalValue::ExternalLinkage, + nullptr, Name.str()); + if (CGM.getTriple().isOSBinFormatCOFF()) { + bool IsPrivateOrPackage = + Ivar->getAccessControl() == ObjCIvarDecl::Private || + Ivar->getAccessControl() == ObjCIvarDecl::Package; + + const ObjCInterfaceDecl *ContainingID = Ivar->getContainingInterface(); + + if (ContainingID->hasAttr<DLLImportAttr>()) + IvarOffsetGV + ->setDLLStorageClass(llvm::GlobalValue::DLLImportStorageClass); + else if (ContainingID->hasAttr<DLLExportAttr>() && !IsPrivateOrPackage) + IvarOffsetGV + ->setDLLStorageClass(llvm::GlobalValue::DLLExportStorageClass); + } + } + return IvarOffsetGV; +} + +llvm::Constant * +CGObjCNonFragileABIMac::EmitIvarOffsetVar(const ObjCInterfaceDecl *ID, + const ObjCIvarDecl *Ivar, + unsigned long int Offset) { + llvm::GlobalVariable *IvarOffsetGV = ObjCIvarOffsetVariable(ID, Ivar); + IvarOffsetGV->setInitializer( + llvm::ConstantInt::get(ObjCTypes.IvarOffsetVarTy, Offset)); + IvarOffsetGV->setAlignment( + CGM.getDataLayout().getABITypeAlignment(ObjCTypes.IvarOffsetVarTy)); + + if (!CGM.getTriple().isOSBinFormatCOFF()) { + // FIXME: This matches gcc, but shouldn't the visibility be set on the use + // as well (i.e., in ObjCIvarOffsetVariable). + if (Ivar->getAccessControl() == ObjCIvarDecl::Private || + Ivar->getAccessControl() == ObjCIvarDecl::Package || + ID->getVisibility() == HiddenVisibility) + IvarOffsetGV->setVisibility(llvm::GlobalValue::HiddenVisibility); + else + IvarOffsetGV->setVisibility(llvm::GlobalValue::DefaultVisibility); + } + + // If ID's layout is known, then make the global constant. This serves as a + // useful assertion: we'll never use this variable to calculate ivar offsets, + // so if the runtime tries to patch it then we should crash. + if (isClassLayoutKnownStatically(ID)) + IvarOffsetGV->setConstant(true); + + if (CGM.getTriple().isOSBinFormatMachO()) + IvarOffsetGV->setSection("__DATA, __objc_ivar"); + return IvarOffsetGV; +} + +/// EmitIvarList - Emit the ivar list for the given +/// implementation. The return value has type +/// IvarListnfABIPtrTy. +/// struct _ivar_t { +/// unsigned [long] int *offset; // pointer to ivar offset location +/// char *name; +/// char *type; +/// uint32_t alignment; +/// uint32_t size; +/// } +/// struct _ivar_list_t { +/// uint32 entsize; // sizeof(struct _ivar_t) +/// uint32 count; +/// struct _iver_t list[count]; +/// } +/// + +llvm::Constant *CGObjCNonFragileABIMac::EmitIvarList( + const ObjCImplementationDecl *ID) { + + ConstantInitBuilder builder(CGM); + auto ivarList = builder.beginStruct(); + ivarList.addInt(ObjCTypes.IntTy, + CGM.getDataLayout().getTypeAllocSize(ObjCTypes.IvarnfABITy)); + auto ivarCountSlot = ivarList.addPlaceholder(); + auto ivars = ivarList.beginArray(ObjCTypes.IvarnfABITy); + + const ObjCInterfaceDecl *OID = ID->getClassInterface(); + assert(OID && "CGObjCNonFragileABIMac::EmitIvarList - null interface"); + + // FIXME. Consolidate this with similar code in GenerateClass. + + for (const ObjCIvarDecl *IVD = OID->all_declared_ivar_begin(); + IVD; IVD = IVD->getNextIvar()) { + // Ignore unnamed bit-fields. + if (!IVD->getDeclName()) + continue; + + auto ivar = ivars.beginStruct(ObjCTypes.IvarnfABITy); + ivar.add(EmitIvarOffsetVar(ID->getClassInterface(), IVD, + ComputeIvarBaseOffset(CGM, ID, IVD))); + ivar.add(GetMethodVarName(IVD->getIdentifier())); + ivar.add(GetMethodVarType(IVD)); + llvm::Type *FieldTy = + CGM.getTypes().ConvertTypeForMem(IVD->getType()); + unsigned Size = CGM.getDataLayout().getTypeAllocSize(FieldTy); + unsigned Align = CGM.getContext().getPreferredTypeAlign( + IVD->getType().getTypePtr()) >> 3; + Align = llvm::Log2_32(Align); + ivar.addInt(ObjCTypes.IntTy, Align); + // NOTE. Size of a bitfield does not match gcc's, because of the + // way bitfields are treated special in each. But I am told that + // 'size' for bitfield ivars is ignored by the runtime so it does + // not matter. If it matters, there is enough info to get the + // bitfield right! + ivar.addInt(ObjCTypes.IntTy, Size); + ivar.finishAndAddTo(ivars); + } + // Return null for empty list. + if (ivars.empty()) { + ivars.abandon(); + ivarList.abandon(); + return llvm::Constant::getNullValue(ObjCTypes.IvarListnfABIPtrTy); + } + + auto ivarCount = ivars.size(); + ivars.finishAndAddTo(ivarList); + ivarList.fillPlaceholderWithInt(ivarCountSlot, ObjCTypes.IntTy, ivarCount); + + const char *Prefix = "_OBJC_$_INSTANCE_VARIABLES_"; + llvm::GlobalVariable *GV = finishAndCreateGlobal( + ivarList, Prefix + OID->getObjCRuntimeNameAsString(), CGM); + CGM.addCompilerUsedGlobal(GV); + return llvm::ConstantExpr::getBitCast(GV, ObjCTypes.IvarListnfABIPtrTy); +} + +llvm::Constant *CGObjCNonFragileABIMac::GetOrEmitProtocolRef( + const ObjCProtocolDecl *PD) { + llvm::GlobalVariable *&Entry = Protocols[PD->getIdentifier()]; + + if (!Entry) { + // We use the initializer as a marker of whether this is a forward + // reference or not. At module finalization we add the empty + // contents for protocols which were referenced but never defined. + llvm::SmallString<64> Protocol; + llvm::raw_svector_ostream(Protocol) << "_OBJC_PROTOCOL_$_" + << PD->getObjCRuntimeNameAsString(); + + Entry = new llvm::GlobalVariable(CGM.getModule(), ObjCTypes.ProtocolnfABITy, + false, llvm::GlobalValue::ExternalLinkage, + nullptr, Protocol); + if (!CGM.getTriple().isOSBinFormatMachO()) + Entry->setComdat(CGM.getModule().getOrInsertComdat(Protocol)); + } + + return Entry; +} + +/// GetOrEmitProtocol - Generate the protocol meta-data: +/// @code +/// struct _protocol_t { +/// id isa; // NULL +/// const char * const protocol_name; +/// const struct _protocol_list_t * protocol_list; // super protocols +/// const struct method_list_t * const instance_methods; +/// const struct method_list_t * const class_methods; +/// const struct method_list_t *optionalInstanceMethods; +/// const struct method_list_t *optionalClassMethods; +/// const struct _prop_list_t * properties; +/// const uint32_t size; // sizeof(struct _protocol_t) +/// const uint32_t flags; // = 0 +/// const char ** extendedMethodTypes; +/// const char *demangledName; +/// const struct _prop_list_t * class_properties; +/// } +/// @endcode +/// + +llvm::Constant *CGObjCNonFragileABIMac::GetOrEmitProtocol( + const ObjCProtocolDecl *PD) { + llvm::GlobalVariable *Entry = Protocols[PD->getIdentifier()]; + + // Early exit if a defining object has already been generated. + if (Entry && Entry->hasInitializer()) + return Entry; + + // Use the protocol definition, if there is one. + assert(PD->hasDefinition() && + "emitting protocol metadata without definition"); + PD = PD->getDefinition(); + + auto methodLists = ProtocolMethodLists::get(PD); + + ConstantInitBuilder builder(CGM); + auto values = builder.beginStruct(ObjCTypes.ProtocolnfABITy); + + // isa is NULL + values.addNullPointer(ObjCTypes.ObjectPtrTy); + values.add(GetClassName(PD->getObjCRuntimeNameAsString())); + values.add(EmitProtocolList("_OBJC_$_PROTOCOL_REFS_" + + PD->getObjCRuntimeNameAsString(), + PD->protocol_begin(), + PD->protocol_end())); + values.add(methodLists.emitMethodList(this, PD, + ProtocolMethodLists::RequiredInstanceMethods)); + values.add(methodLists.emitMethodList(this, PD, + ProtocolMethodLists::RequiredClassMethods)); + values.add(methodLists.emitMethodList(this, PD, + ProtocolMethodLists::OptionalInstanceMethods)); + values.add(methodLists.emitMethodList(this, PD, + ProtocolMethodLists::OptionalClassMethods)); + values.add(EmitPropertyList( + "_OBJC_$_PROP_LIST_" + PD->getObjCRuntimeNameAsString(), + nullptr, PD, ObjCTypes, false)); + uint32_t Size = + CGM.getDataLayout().getTypeAllocSize(ObjCTypes.ProtocolnfABITy); + values.addInt(ObjCTypes.IntTy, Size); + values.addInt(ObjCTypes.IntTy, 0); + values.add(EmitProtocolMethodTypes("_OBJC_$_PROTOCOL_METHOD_TYPES_" + + PD->getObjCRuntimeNameAsString(), + methodLists.emitExtendedTypesArray(this), + ObjCTypes)); + + // const char *demangledName; + values.addNullPointer(ObjCTypes.Int8PtrTy); + + values.add(EmitPropertyList( + "_OBJC_$_CLASS_PROP_LIST_" + PD->getObjCRuntimeNameAsString(), + nullptr, PD, ObjCTypes, true)); + + if (Entry) { + // Already created, fix the linkage and update the initializer. + Entry->setLinkage(llvm::GlobalValue::WeakAnyLinkage); + values.finishAndSetAsInitializer(Entry); + } else { + llvm::SmallString<64> symbolName; + llvm::raw_svector_ostream(symbolName) + << "_OBJC_PROTOCOL_$_" << PD->getObjCRuntimeNameAsString(); + + Entry = values.finishAndCreateGlobal(symbolName, CGM.getPointerAlign(), + /*constant*/ false, + llvm::GlobalValue::WeakAnyLinkage); + if (!CGM.getTriple().isOSBinFormatMachO()) + Entry->setComdat(CGM.getModule().getOrInsertComdat(symbolName)); + + Protocols[PD->getIdentifier()] = Entry; + } + Entry->setVisibility(llvm::GlobalValue::HiddenVisibility); + CGM.addUsedGlobal(Entry); + + // Use this protocol meta-data to build protocol list table in section + // __DATA, __objc_protolist + llvm::SmallString<64> ProtocolRef; + llvm::raw_svector_ostream(ProtocolRef) << "_OBJC_LABEL_PROTOCOL_$_" + << PD->getObjCRuntimeNameAsString(); + + llvm::GlobalVariable *PTGV = + new llvm::GlobalVariable(CGM.getModule(), ObjCTypes.ProtocolnfABIPtrTy, + false, llvm::GlobalValue::WeakAnyLinkage, Entry, + ProtocolRef); + if (!CGM.getTriple().isOSBinFormatMachO()) + PTGV->setComdat(CGM.getModule().getOrInsertComdat(ProtocolRef)); + PTGV->setAlignment( + CGM.getDataLayout().getABITypeAlignment(ObjCTypes.ProtocolnfABIPtrTy)); + PTGV->setSection(GetSectionName("__objc_protolist", + "coalesced,no_dead_strip")); + PTGV->setVisibility(llvm::GlobalValue::HiddenVisibility); + CGM.addUsedGlobal(PTGV); + return Entry; +} + +/// EmitProtocolList - Generate protocol list meta-data: +/// @code +/// struct _protocol_list_t { +/// long protocol_count; // Note, this is 32/64 bit +/// struct _protocol_t[protocol_count]; +/// } +/// @endcode +/// +llvm::Constant * +CGObjCNonFragileABIMac::EmitProtocolList(Twine Name, + ObjCProtocolDecl::protocol_iterator begin, + ObjCProtocolDecl::protocol_iterator end) { + SmallVector<llvm::Constant *, 16> ProtocolRefs; + + // Just return null for empty protocol lists + if (begin == end) + return llvm::Constant::getNullValue(ObjCTypes.ProtocolListnfABIPtrTy); + + // FIXME: We shouldn't need to do this lookup here, should we? + SmallString<256> TmpName; + Name.toVector(TmpName); + llvm::GlobalVariable *GV = + CGM.getModule().getGlobalVariable(TmpName.str(), true); + if (GV) + return llvm::ConstantExpr::getBitCast(GV, ObjCTypes.ProtocolListnfABIPtrTy); + + ConstantInitBuilder builder(CGM); + auto values = builder.beginStruct(); + auto countSlot = values.addPlaceholder(); + + // A null-terminated array of protocols. + auto array = values.beginArray(ObjCTypes.ProtocolnfABIPtrTy); + for (; begin != end; ++begin) + array.add(GetProtocolRef(*begin)); // Implemented??? + auto count = array.size(); + array.addNullPointer(ObjCTypes.ProtocolnfABIPtrTy); + + array.finishAndAddTo(values); + values.fillPlaceholderWithInt(countSlot, ObjCTypes.LongTy, count); + + GV = finishAndCreateGlobal(values, Name, CGM); + CGM.addCompilerUsedGlobal(GV); + return llvm::ConstantExpr::getBitCast(GV, + ObjCTypes.ProtocolListnfABIPtrTy); +} + +/// EmitObjCValueForIvar - Code Gen for nonfragile ivar reference. +/// This code gen. amounts to generating code for: +/// @code +/// (type *)((char *)base + _OBJC_IVAR_$_.ivar; +/// @encode +/// +LValue CGObjCNonFragileABIMac::EmitObjCValueForIvar( + CodeGen::CodeGenFunction &CGF, + QualType ObjectTy, + llvm::Value *BaseValue, + const ObjCIvarDecl *Ivar, + unsigned CVRQualifiers) { + ObjCInterfaceDecl *ID = ObjectTy->getAs<ObjCObjectType>()->getInterface(); + llvm::Value *Offset = EmitIvarOffset(CGF, ID, Ivar); + return EmitValueForIvarAtOffset(CGF, ID, BaseValue, Ivar, CVRQualifiers, + Offset); +} + +llvm::Value * +CGObjCNonFragileABIMac::EmitIvarOffset(CodeGen::CodeGenFunction &CGF, + const ObjCInterfaceDecl *Interface, + const ObjCIvarDecl *Ivar) { + llvm::Value *IvarOffsetValue; + if (isClassLayoutKnownStatically(Interface)) { + IvarOffsetValue = llvm::ConstantInt::get( + ObjCTypes.IvarOffsetVarTy, + ComputeIvarBaseOffset(CGM, Interface->getImplementation(), Ivar)); + } else { + llvm::GlobalVariable *GV = ObjCIvarOffsetVariable(Interface, Ivar); + IvarOffsetValue = + CGF.Builder.CreateAlignedLoad(GV, CGF.getSizeAlign(), "ivar"); + if (IsIvarOffsetKnownIdempotent(CGF, Ivar)) + cast<llvm::LoadInst>(IvarOffsetValue) + ->setMetadata(CGM.getModule().getMDKindID("invariant.load"), + llvm::MDNode::get(VMContext, None)); + } + + // This could be 32bit int or 64bit integer depending on the architecture. + // Cast it to 64bit integer value, if it is a 32bit integer ivar offset value + // as this is what caller always expects. + if (ObjCTypes.IvarOffsetVarTy == ObjCTypes.IntTy) + IvarOffsetValue = CGF.Builder.CreateIntCast( + IvarOffsetValue, ObjCTypes.LongTy, true, "ivar.conv"); + return IvarOffsetValue; +} + +static void appendSelectorForMessageRefTable(std::string &buffer, + Selector selector) { + if (selector.isUnarySelector()) { + buffer += selector.getNameForSlot(0); + return; + } + + for (unsigned i = 0, e = selector.getNumArgs(); i != e; ++i) { + buffer += selector.getNameForSlot(i); + buffer += '_'; + } +} + +/// Emit a "vtable" message send. We emit a weak hidden-visibility +/// struct, initially containing the selector pointer and a pointer to +/// a "fixup" variant of the appropriate objc_msgSend. To call, we +/// load and call the function pointer, passing the address of the +/// struct as the second parameter. The runtime determines whether +/// the selector is currently emitted using vtable dispatch; if so, it +/// substitutes a stub function which simply tail-calls through the +/// appropriate vtable slot, and if not, it substitues a stub function +/// which tail-calls objc_msgSend. Both stubs adjust the selector +/// argument to correctly point to the selector. +RValue +CGObjCNonFragileABIMac::EmitVTableMessageSend(CodeGenFunction &CGF, + ReturnValueSlot returnSlot, + QualType resultType, + Selector selector, + llvm::Value *arg0, + QualType arg0Type, + bool isSuper, + const CallArgList &formalArgs, + const ObjCMethodDecl *method) { + // Compute the actual arguments. + CallArgList args; + + // First argument: the receiver / super-call structure. + if (!isSuper) + arg0 = CGF.Builder.CreateBitCast(arg0, ObjCTypes.ObjectPtrTy); + args.add(RValue::get(arg0), arg0Type); + + // Second argument: a pointer to the message ref structure. Leave + // the actual argument value blank for now. + args.add(RValue::get(nullptr), ObjCTypes.MessageRefCPtrTy); + + args.insert(args.end(), formalArgs.begin(), formalArgs.end()); + + MessageSendInfo MSI = getMessageSendInfo(method, resultType, args); + + NullReturnState nullReturn; + + // Find the function to call and the mangled name for the message + // ref structure. Using a different mangled name wouldn't actually + // be a problem; it would just be a waste. + // + // The runtime currently never uses vtable dispatch for anything + // except normal, non-super message-sends. + // FIXME: don't use this for that. + llvm::FunctionCallee fn = nullptr; + std::string messageRefName("_"); + if (CGM.ReturnSlotInterferesWithArgs(MSI.CallInfo)) { + if (isSuper) { + fn = ObjCTypes.getMessageSendSuper2StretFixupFn(); + messageRefName += "objc_msgSendSuper2_stret_fixup"; + } else { + nullReturn.init(CGF, arg0); + fn = ObjCTypes.getMessageSendStretFixupFn(); + messageRefName += "objc_msgSend_stret_fixup"; + } + } else if (!isSuper && CGM.ReturnTypeUsesFPRet(resultType)) { + fn = ObjCTypes.getMessageSendFpretFixupFn(); + messageRefName += "objc_msgSend_fpret_fixup"; + } else { + if (isSuper) { + fn = ObjCTypes.getMessageSendSuper2FixupFn(); + messageRefName += "objc_msgSendSuper2_fixup"; + } else { + fn = ObjCTypes.getMessageSendFixupFn(); + messageRefName += "objc_msgSend_fixup"; + } + } + assert(fn && "CGObjCNonFragileABIMac::EmitMessageSend"); + messageRefName += '_'; + + // Append the selector name, except use underscores anywhere we + // would have used colons. + appendSelectorForMessageRefTable(messageRefName, selector); + + llvm::GlobalVariable *messageRef + = CGM.getModule().getGlobalVariable(messageRefName); + if (!messageRef) { + // Build the message ref structure. + ConstantInitBuilder builder(CGM); + auto values = builder.beginStruct(); + values.add(cast<llvm::Constant>(fn.getCallee())); + values.add(GetMethodVarName(selector)); + messageRef = values.finishAndCreateGlobal(messageRefName, + CharUnits::fromQuantity(16), + /*constant*/ false, + llvm::GlobalValue::WeakAnyLinkage); + messageRef->setVisibility(llvm::GlobalValue::HiddenVisibility); + messageRef->setSection(GetSectionName("__objc_msgrefs", "coalesced")); + } + + bool requiresnullCheck = false; + if (CGM.getLangOpts().ObjCAutoRefCount && method) + for (const auto *ParamDecl : method->parameters()) { + if (ParamDecl->hasAttr<NSConsumedAttr>()) { + if (!nullReturn.NullBB) + nullReturn.init(CGF, arg0); + requiresnullCheck = true; + break; + } + } + + Address mref = + Address(CGF.Builder.CreateBitCast(messageRef, ObjCTypes.MessageRefPtrTy), + CGF.getPointerAlign()); + + // Update the message ref argument. + args[1].setRValue(RValue::get(mref.getPointer())); + + // Load the function to call from the message ref table. + Address calleeAddr = CGF.Builder.CreateStructGEP(mref, 0); + llvm::Value *calleePtr = CGF.Builder.CreateLoad(calleeAddr, "msgSend_fn"); + + calleePtr = CGF.Builder.CreateBitCast(calleePtr, MSI.MessengerType); + CGCallee callee(CGCalleeInfo(), calleePtr); + + RValue result = CGF.EmitCall(MSI.CallInfo, callee, returnSlot, args); + return nullReturn.complete(CGF, returnSlot, result, resultType, formalArgs, + requiresnullCheck ? method : nullptr); +} + +/// Generate code for a message send expression in the nonfragile abi. +CodeGen::RValue +CGObjCNonFragileABIMac::GenerateMessageSend(CodeGen::CodeGenFunction &CGF, + ReturnValueSlot Return, + QualType ResultType, + Selector Sel, + llvm::Value *Receiver, + const CallArgList &CallArgs, + const ObjCInterfaceDecl *Class, + const ObjCMethodDecl *Method) { + return isVTableDispatchedSelector(Sel) + ? EmitVTableMessageSend(CGF, Return, ResultType, Sel, + Receiver, CGF.getContext().getObjCIdType(), + false, CallArgs, Method) + : EmitMessageSend(CGF, Return, ResultType, + EmitSelector(CGF, Sel), + Receiver, CGF.getContext().getObjCIdType(), + false, CallArgs, Method, Class, ObjCTypes); +} + +llvm::Constant * +CGObjCNonFragileABIMac::GetClassGlobal(const ObjCInterfaceDecl *ID, + bool metaclass, + ForDefinition_t isForDefinition) { + auto prefix = + (metaclass ? getMetaclassSymbolPrefix() : getClassSymbolPrefix()); + return GetClassGlobal((prefix + ID->getObjCRuntimeNameAsString()).str(), + isForDefinition, + ID->isWeakImported(), + !isForDefinition + && CGM.getTriple().isOSBinFormatCOFF() + && ID->hasAttr<DLLImportAttr>()); +} + +llvm::Constant * +CGObjCNonFragileABIMac::GetClassGlobal(StringRef Name, + ForDefinition_t IsForDefinition, + bool Weak, bool DLLImport) { + llvm::GlobalValue::LinkageTypes L = + Weak ? llvm::GlobalValue::ExternalWeakLinkage + : llvm::GlobalValue::ExternalLinkage; + + llvm::GlobalVariable *GV = CGM.getModule().getGlobalVariable(Name); + if (!GV || GV->getType() != ObjCTypes.ClassnfABITy->getPointerTo()) { + auto *NewGV = new llvm::GlobalVariable(ObjCTypes.ClassnfABITy, false, L, + nullptr, Name); + + if (DLLImport) + NewGV->setDLLStorageClass(llvm::GlobalValue::DLLImportStorageClass); + + if (GV) { + GV->replaceAllUsesWith( + llvm::ConstantExpr::getBitCast(NewGV, GV->getType())); + GV->eraseFromParent(); + } + GV = NewGV; + CGM.getModule().getGlobalList().push_back(GV); + } + + assert(GV->getLinkage() == L); + return GV; +} + +llvm::Constant * +CGObjCNonFragileABIMac::GetClassGlobalForClassRef(const ObjCInterfaceDecl *ID) { + llvm::Constant *ClassGV = GetClassGlobal(ID, /*metaclass*/ false, + NotForDefinition); + + if (!ID->hasAttr<ObjCClassStubAttr>()) + return ClassGV; + + ClassGV = llvm::ConstantExpr::getPointerCast(ClassGV, ObjCTypes.Int8PtrTy); + + // Stub classes are pointer-aligned. Classrefs pointing at stub classes + // must set the least significant bit set to 1. + auto *Idx = llvm::ConstantInt::get(CGM.Int32Ty, 1); + return llvm::ConstantExpr::getGetElementPtr(CGM.Int8Ty, ClassGV, Idx); +} + +llvm::Value * +CGObjCNonFragileABIMac::EmitLoadOfClassRef(CodeGenFunction &CGF, + const ObjCInterfaceDecl *ID, + llvm::GlobalVariable *Entry) { + if (ID && ID->hasAttr<ObjCClassStubAttr>()) { + // Classrefs pointing at Objective-C stub classes must be loaded by calling + // a special runtime function. + return CGF.EmitRuntimeCall( + ObjCTypes.getLoadClassrefFn(), Entry, "load_classref_result"); + } + + CharUnits Align = CGF.getPointerAlign(); + return CGF.Builder.CreateAlignedLoad(Entry, Align); +} + +llvm::Value * +CGObjCNonFragileABIMac::EmitClassRefFromId(CodeGenFunction &CGF, + IdentifierInfo *II, + const ObjCInterfaceDecl *ID) { + llvm::GlobalVariable *&Entry = ClassReferences[II]; + + if (!Entry) { + llvm::Constant *ClassGV; + if (ID) { + ClassGV = GetClassGlobalForClassRef(ID); + } else { + ClassGV = GetClassGlobal((getClassSymbolPrefix() + II->getName()).str(), + NotForDefinition); + assert(ClassGV->getType() == ObjCTypes.ClassnfABIPtrTy && + "classref was emitted with the wrong type?"); + } + + std::string SectionName = + GetSectionName("__objc_classrefs", "regular,no_dead_strip"); + Entry = new llvm::GlobalVariable( + CGM.getModule(), ClassGV->getType(), false, + getLinkageTypeForObjCMetadata(CGM, SectionName), ClassGV, + "OBJC_CLASSLIST_REFERENCES_$_"); + Entry->setAlignment(CGF.getPointerAlign().getQuantity()); + if (!ID || !ID->hasAttr<ObjCClassStubAttr>()) + Entry->setSection(SectionName); + + CGM.addCompilerUsedGlobal(Entry); + } + + return EmitLoadOfClassRef(CGF, ID, Entry); +} + +llvm::Value *CGObjCNonFragileABIMac::EmitClassRef(CodeGenFunction &CGF, + const ObjCInterfaceDecl *ID) { + // If the class has the objc_runtime_visible attribute, we need to + // use the Objective-C runtime to get the class. + if (ID->hasAttr<ObjCRuntimeVisibleAttr>()) + return EmitClassRefViaRuntime(CGF, ID, ObjCTypes); + + return EmitClassRefFromId(CGF, ID->getIdentifier(), ID); +} + +llvm::Value *CGObjCNonFragileABIMac::EmitNSAutoreleasePoolClassRef( + CodeGenFunction &CGF) { + IdentifierInfo *II = &CGM.getContext().Idents.get("NSAutoreleasePool"); + return EmitClassRefFromId(CGF, II, nullptr); +} + +llvm::Value * +CGObjCNonFragileABIMac::EmitSuperClassRef(CodeGenFunction &CGF, + const ObjCInterfaceDecl *ID) { + llvm::GlobalVariable *&Entry = SuperClassReferences[ID->getIdentifier()]; + + if (!Entry) { + llvm::Constant *ClassGV = GetClassGlobalForClassRef(ID); + std::string SectionName = + GetSectionName("__objc_superrefs", "regular,no_dead_strip"); + Entry = new llvm::GlobalVariable( + CGM.getModule(), ClassGV->getType(), false, + getLinkageTypeForObjCMetadata(CGM, SectionName), ClassGV, + "OBJC_CLASSLIST_SUP_REFS_$_"); + Entry->setAlignment(CGF.getPointerAlign().getQuantity()); + Entry->setSection(SectionName); + CGM.addCompilerUsedGlobal(Entry); + } + + return EmitLoadOfClassRef(CGF, ID, Entry); +} + +/// EmitMetaClassRef - Return a Value * of the address of _class_t +/// meta-data +/// +llvm::Value *CGObjCNonFragileABIMac::EmitMetaClassRef(CodeGenFunction &CGF, + const ObjCInterfaceDecl *ID, + bool Weak) { + CharUnits Align = CGF.getPointerAlign(); + llvm::GlobalVariable * &Entry = MetaClassReferences[ID->getIdentifier()]; + if (!Entry) { + auto MetaClassGV = GetClassGlobal(ID, /*metaclass*/ true, NotForDefinition); + std::string SectionName = + GetSectionName("__objc_superrefs", "regular,no_dead_strip"); + Entry = new llvm::GlobalVariable( + CGM.getModule(), ObjCTypes.ClassnfABIPtrTy, false, + getLinkageTypeForObjCMetadata(CGM, SectionName), MetaClassGV, + "OBJC_CLASSLIST_SUP_REFS_$_"); + Entry->setAlignment(Align.getQuantity()); + Entry->setSection(SectionName); + CGM.addCompilerUsedGlobal(Entry); + } + + return CGF.Builder.CreateAlignedLoad(Entry, Align); +} + +/// GetClass - Return a reference to the class for the given interface +/// decl. +llvm::Value *CGObjCNonFragileABIMac::GetClass(CodeGenFunction &CGF, + const ObjCInterfaceDecl *ID) { + if (ID->isWeakImported()) { + auto ClassGV = GetClassGlobal(ID, /*metaclass*/ false, NotForDefinition); + (void)ClassGV; + assert(!isa<llvm::GlobalVariable>(ClassGV) || + cast<llvm::GlobalVariable>(ClassGV)->hasExternalWeakLinkage()); + } + + return EmitClassRef(CGF, ID); +} + +/// Generates a message send where the super is the receiver. This is +/// a message send to self with special delivery semantics indicating +/// which class's method should be called. +CodeGen::RValue +CGObjCNonFragileABIMac::GenerateMessageSendSuper(CodeGen::CodeGenFunction &CGF, + ReturnValueSlot Return, + QualType ResultType, + Selector Sel, + const ObjCInterfaceDecl *Class, + bool isCategoryImpl, + llvm::Value *Receiver, + bool IsClassMessage, + const CodeGen::CallArgList &CallArgs, + const ObjCMethodDecl *Method) { + // ... + // Create and init a super structure; this is a (receiver, class) + // pair we will pass to objc_msgSendSuper. + Address ObjCSuper = + CGF.CreateTempAlloca(ObjCTypes.SuperTy, CGF.getPointerAlign(), + "objc_super"); + + llvm::Value *ReceiverAsObject = + CGF.Builder.CreateBitCast(Receiver, ObjCTypes.ObjectPtrTy); + CGF.Builder.CreateStore(ReceiverAsObject, + CGF.Builder.CreateStructGEP(ObjCSuper, 0)); + + // If this is a class message the metaclass is passed as the target. + llvm::Value *Target; + if (IsClassMessage) + Target = EmitMetaClassRef(CGF, Class, Class->isWeakImported()); + else + Target = EmitSuperClassRef(CGF, Class); + + // FIXME: We shouldn't need to do this cast, rectify the ASTContext and + // ObjCTypes types. + llvm::Type *ClassTy = + CGM.getTypes().ConvertType(CGF.getContext().getObjCClassType()); + Target = CGF.Builder.CreateBitCast(Target, ClassTy); + CGF.Builder.CreateStore(Target, CGF.Builder.CreateStructGEP(ObjCSuper, 1)); + + return (isVTableDispatchedSelector(Sel)) + ? EmitVTableMessageSend(CGF, Return, ResultType, Sel, + ObjCSuper.getPointer(), ObjCTypes.SuperPtrCTy, + true, CallArgs, Method) + : EmitMessageSend(CGF, Return, ResultType, + EmitSelector(CGF, Sel), + ObjCSuper.getPointer(), ObjCTypes.SuperPtrCTy, + true, CallArgs, Method, Class, ObjCTypes); +} + +llvm::Value *CGObjCNonFragileABIMac::EmitSelector(CodeGenFunction &CGF, + Selector Sel) { + Address Addr = EmitSelectorAddr(CGF, Sel); + + llvm::LoadInst* LI = CGF.Builder.CreateLoad(Addr); + LI->setMetadata(CGM.getModule().getMDKindID("invariant.load"), + llvm::MDNode::get(VMContext, None)); + return LI; +} + +Address CGObjCNonFragileABIMac::EmitSelectorAddr(CodeGenFunction &CGF, + Selector Sel) { + llvm::GlobalVariable *&Entry = SelectorReferences[Sel]; + + CharUnits Align = CGF.getPointerAlign(); + if (!Entry) { + llvm::Constant *Casted = + llvm::ConstantExpr::getBitCast(GetMethodVarName(Sel), + ObjCTypes.SelectorPtrTy); + std::string SectionName = + GetSectionName("__objc_selrefs", "literal_pointers,no_dead_strip"); + Entry = new llvm::GlobalVariable( + CGM.getModule(), ObjCTypes.SelectorPtrTy, false, + getLinkageTypeForObjCMetadata(CGM, SectionName), Casted, + "OBJC_SELECTOR_REFERENCES_"); + Entry->setExternallyInitialized(true); + Entry->setSection(SectionName); + Entry->setAlignment(Align.getQuantity()); + CGM.addCompilerUsedGlobal(Entry); + } + + return Address(Entry, Align); +} + +/// EmitObjCIvarAssign - Code gen for assigning to a __strong object. +/// objc_assign_ivar (id src, id *dst, ptrdiff_t) +/// +void CGObjCNonFragileABIMac::EmitObjCIvarAssign(CodeGen::CodeGenFunction &CGF, + llvm::Value *src, + Address dst, + llvm::Value *ivarOffset) { + llvm::Type * SrcTy = src->getType(); + if (!isa<llvm::PointerType>(SrcTy)) { + unsigned Size = CGM.getDataLayout().getTypeAllocSize(SrcTy); + assert(Size <= 8 && "does not support size > 8"); + src = (Size == 4 ? CGF.Builder.CreateBitCast(src, ObjCTypes.IntTy) + : CGF.Builder.CreateBitCast(src, ObjCTypes.LongTy)); + src = CGF.Builder.CreateIntToPtr(src, ObjCTypes.Int8PtrTy); + } + src = CGF.Builder.CreateBitCast(src, ObjCTypes.ObjectPtrTy); + dst = CGF.Builder.CreateBitCast(dst, ObjCTypes.PtrObjectPtrTy); + llvm::Value *args[] = { src, dst.getPointer(), ivarOffset }; + CGF.EmitNounwindRuntimeCall(ObjCTypes.getGcAssignIvarFn(), args); +} + +/// EmitObjCStrongCastAssign - Code gen for assigning to a __strong cast object. +/// objc_assign_strongCast (id src, id *dst) +/// +void CGObjCNonFragileABIMac::EmitObjCStrongCastAssign( + CodeGen::CodeGenFunction &CGF, + llvm::Value *src, Address dst) { + llvm::Type * SrcTy = src->getType(); + if (!isa<llvm::PointerType>(SrcTy)) { + unsigned Size = CGM.getDataLayout().getTypeAllocSize(SrcTy); + assert(Size <= 8 && "does not support size > 8"); + src = (Size == 4 ? CGF.Builder.CreateBitCast(src, ObjCTypes.IntTy) + : CGF.Builder.CreateBitCast(src, ObjCTypes.LongTy)); + src = CGF.Builder.CreateIntToPtr(src, ObjCTypes.Int8PtrTy); + } + src = CGF.Builder.CreateBitCast(src, ObjCTypes.ObjectPtrTy); + dst = CGF.Builder.CreateBitCast(dst, ObjCTypes.PtrObjectPtrTy); + llvm::Value *args[] = { src, dst.getPointer() }; + CGF.EmitNounwindRuntimeCall(ObjCTypes.getGcAssignStrongCastFn(), + args, "weakassign"); +} + +void CGObjCNonFragileABIMac::EmitGCMemmoveCollectable( + CodeGen::CodeGenFunction &CGF, + Address DestPtr, + Address SrcPtr, + llvm::Value *Size) { + SrcPtr = CGF.Builder.CreateBitCast(SrcPtr, ObjCTypes.Int8PtrTy); + DestPtr = CGF.Builder.CreateBitCast(DestPtr, ObjCTypes.Int8PtrTy); + llvm::Value *args[] = { DestPtr.getPointer(), SrcPtr.getPointer(), Size }; + CGF.EmitNounwindRuntimeCall(ObjCTypes.GcMemmoveCollectableFn(), args); +} + +/// EmitObjCWeakRead - Code gen for loading value of a __weak +/// object: objc_read_weak (id *src) +/// +llvm::Value * CGObjCNonFragileABIMac::EmitObjCWeakRead( + CodeGen::CodeGenFunction &CGF, + Address AddrWeakObj) { + llvm::Type *DestTy = AddrWeakObj.getElementType(); + AddrWeakObj = CGF.Builder.CreateBitCast(AddrWeakObj, ObjCTypes.PtrObjectPtrTy); + llvm::Value *read_weak = + CGF.EmitNounwindRuntimeCall(ObjCTypes.getGcReadWeakFn(), + AddrWeakObj.getPointer(), "weakread"); + read_weak = CGF.Builder.CreateBitCast(read_weak, DestTy); + return read_weak; +} + +/// EmitObjCWeakAssign - Code gen for assigning to a __weak object. +/// objc_assign_weak (id src, id *dst) +/// +void CGObjCNonFragileABIMac::EmitObjCWeakAssign(CodeGen::CodeGenFunction &CGF, + llvm::Value *src, Address dst) { + llvm::Type * SrcTy = src->getType(); + if (!isa<llvm::PointerType>(SrcTy)) { + unsigned Size = CGM.getDataLayout().getTypeAllocSize(SrcTy); + assert(Size <= 8 && "does not support size > 8"); + src = (Size == 4 ? CGF.Builder.CreateBitCast(src, ObjCTypes.IntTy) + : CGF.Builder.CreateBitCast(src, ObjCTypes.LongTy)); + src = CGF.Builder.CreateIntToPtr(src, ObjCTypes.Int8PtrTy); + } + src = CGF.Builder.CreateBitCast(src, ObjCTypes.ObjectPtrTy); + dst = CGF.Builder.CreateBitCast(dst, ObjCTypes.PtrObjectPtrTy); + llvm::Value *args[] = { src, dst.getPointer() }; + CGF.EmitNounwindRuntimeCall(ObjCTypes.getGcAssignWeakFn(), + args, "weakassign"); +} + +/// EmitObjCGlobalAssign - Code gen for assigning to a __strong object. +/// objc_assign_global (id src, id *dst) +/// +void CGObjCNonFragileABIMac::EmitObjCGlobalAssign(CodeGen::CodeGenFunction &CGF, + llvm::Value *src, Address dst, + bool threadlocal) { + llvm::Type * SrcTy = src->getType(); + if (!isa<llvm::PointerType>(SrcTy)) { + unsigned Size = CGM.getDataLayout().getTypeAllocSize(SrcTy); + assert(Size <= 8 && "does not support size > 8"); + src = (Size == 4 ? CGF.Builder.CreateBitCast(src, ObjCTypes.IntTy) + : CGF.Builder.CreateBitCast(src, ObjCTypes.LongTy)); + src = CGF.Builder.CreateIntToPtr(src, ObjCTypes.Int8PtrTy); + } + src = CGF.Builder.CreateBitCast(src, ObjCTypes.ObjectPtrTy); + dst = CGF.Builder.CreateBitCast(dst, ObjCTypes.PtrObjectPtrTy); + llvm::Value *args[] = { src, dst.getPointer() }; + if (!threadlocal) + CGF.EmitNounwindRuntimeCall(ObjCTypes.getGcAssignGlobalFn(), + args, "globalassign"); + else + CGF.EmitNounwindRuntimeCall(ObjCTypes.getGcAssignThreadLocalFn(), + args, "threadlocalassign"); +} + +void +CGObjCNonFragileABIMac::EmitSynchronizedStmt(CodeGen::CodeGenFunction &CGF, + const ObjCAtSynchronizedStmt &S) { + EmitAtSynchronizedStmt(CGF, S, ObjCTypes.getSyncEnterFn(), + ObjCTypes.getSyncExitFn()); +} + +llvm::Constant * +CGObjCNonFragileABIMac::GetEHType(QualType T) { + // There's a particular fixed type info for 'id'. + if (T->isObjCIdType() || T->isObjCQualifiedIdType()) { + auto *IDEHType = CGM.getModule().getGlobalVariable("OBJC_EHTYPE_id"); + if (!IDEHType) { + IDEHType = + new llvm::GlobalVariable(CGM.getModule(), ObjCTypes.EHTypeTy, false, + llvm::GlobalValue::ExternalLinkage, nullptr, + "OBJC_EHTYPE_id"); + if (CGM.getTriple().isOSBinFormatCOFF()) + IDEHType->setDLLStorageClass(getStorage(CGM, "OBJC_EHTYPE_id")); + } + return IDEHType; + } + + // All other types should be Objective-C interface pointer types. + const ObjCObjectPointerType *PT = T->getAs<ObjCObjectPointerType>(); + assert(PT && "Invalid @catch type."); + + const ObjCInterfaceType *IT = PT->getInterfaceType(); + assert(IT && "Invalid @catch type."); + + return GetInterfaceEHType(IT->getDecl(), NotForDefinition); +} + +void CGObjCNonFragileABIMac::EmitTryStmt(CodeGen::CodeGenFunction &CGF, + const ObjCAtTryStmt &S) { + EmitTryCatchStmt(CGF, S, ObjCTypes.getObjCBeginCatchFn(), + ObjCTypes.getObjCEndCatchFn(), + ObjCTypes.getExceptionRethrowFn()); +} + +/// EmitThrowStmt - Generate code for a throw statement. +void CGObjCNonFragileABIMac::EmitThrowStmt(CodeGen::CodeGenFunction &CGF, + const ObjCAtThrowStmt &S, + bool ClearInsertionPoint) { + if (const Expr *ThrowExpr = S.getThrowExpr()) { + llvm::Value *Exception = CGF.EmitObjCThrowOperand(ThrowExpr); + Exception = CGF.Builder.CreateBitCast(Exception, ObjCTypes.ObjectPtrTy); + llvm::CallBase *Call = + CGF.EmitRuntimeCallOrInvoke(ObjCTypes.getExceptionThrowFn(), Exception); + Call->setDoesNotReturn(); + } else { + llvm::CallBase *Call = + CGF.EmitRuntimeCallOrInvoke(ObjCTypes.getExceptionRethrowFn()); + Call->setDoesNotReturn(); + } + + CGF.Builder.CreateUnreachable(); + if (ClearInsertionPoint) + CGF.Builder.ClearInsertionPoint(); +} + +llvm::Constant * +CGObjCNonFragileABIMac::GetInterfaceEHType(const ObjCInterfaceDecl *ID, + ForDefinition_t IsForDefinition) { + llvm::GlobalVariable * &Entry = EHTypeReferences[ID->getIdentifier()]; + StringRef ClassName = ID->getObjCRuntimeNameAsString(); + + // If we don't need a definition, return the entry if found or check + // if we use an external reference. + if (!IsForDefinition) { + if (Entry) + return Entry; + + // If this type (or a super class) has the __objc_exception__ + // attribute, emit an external reference. + if (hasObjCExceptionAttribute(CGM.getContext(), ID)) { + std::string EHTypeName = ("OBJC_EHTYPE_$_" + ClassName).str(); + Entry = new llvm::GlobalVariable(CGM.getModule(), ObjCTypes.EHTypeTy, + false, llvm::GlobalValue::ExternalLinkage, + nullptr, EHTypeName); + CGM.setGVProperties(Entry, ID); + return Entry; + } + } + + // Otherwise we need to either make a new entry or fill in the initializer. + assert((!Entry || !Entry->hasInitializer()) && "Duplicate EHType definition"); + + std::string VTableName = "objc_ehtype_vtable"; + auto *VTableGV = CGM.getModule().getGlobalVariable(VTableName); + if (!VTableGV) { + VTableGV = + new llvm::GlobalVariable(CGM.getModule(), ObjCTypes.Int8PtrTy, false, + llvm::GlobalValue::ExternalLinkage, nullptr, + VTableName); + if (CGM.getTriple().isOSBinFormatCOFF()) + VTableGV->setDLLStorageClass(getStorage(CGM, VTableName)); + } + + llvm::Value *VTableIdx = llvm::ConstantInt::get(CGM.Int32Ty, 2); + ConstantInitBuilder builder(CGM); + auto values = builder.beginStruct(ObjCTypes.EHTypeTy); + values.add( + llvm::ConstantExpr::getInBoundsGetElementPtr(VTableGV->getValueType(), + VTableGV, VTableIdx)); + values.add(GetClassName(ClassName)); + values.add(GetClassGlobal(ID, /*metaclass*/ false, NotForDefinition)); + + llvm::GlobalValue::LinkageTypes L = IsForDefinition + ? llvm::GlobalValue::ExternalLinkage + : llvm::GlobalValue::WeakAnyLinkage; + if (Entry) { + values.finishAndSetAsInitializer(Entry); + Entry->setAlignment(CGM.getPointerAlign().getQuantity()); + } else { + Entry = values.finishAndCreateGlobal("OBJC_EHTYPE_$_" + ClassName, + CGM.getPointerAlign(), + /*constant*/ false, + L); + if (hasObjCExceptionAttribute(CGM.getContext(), ID)) + CGM.setGVProperties(Entry, ID); + } + assert(Entry->getLinkage() == L); + + if (!CGM.getTriple().isOSBinFormatCOFF()) + if (ID->getVisibility() == HiddenVisibility) + Entry->setVisibility(llvm::GlobalValue::HiddenVisibility); + + if (IsForDefinition) + if (CGM.getTriple().isOSBinFormatMachO()) + Entry->setSection("__DATA,__objc_const"); + + return Entry; +} + +/* *** */ + +CodeGen::CGObjCRuntime * +CodeGen::CreateMacObjCRuntime(CodeGen::CodeGenModule &CGM) { + switch (CGM.getLangOpts().ObjCRuntime.getKind()) { + case ObjCRuntime::FragileMacOSX: + return new CGObjCMac(CGM); + + case ObjCRuntime::MacOSX: + case ObjCRuntime::iOS: + case ObjCRuntime::WatchOS: + return new CGObjCNonFragileABIMac(CGM); + + case ObjCRuntime::GNUstep: + case ObjCRuntime::GCC: + case ObjCRuntime::ObjFW: + llvm_unreachable("these runtimes are not Mac runtimes"); + } + llvm_unreachable("bad runtime"); +} |