//===--- CGNonTrivialStruct.cpp - Emit Special Functions for C Structs ----===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file defines functions to generate various special functions for C // structs. // //===----------------------------------------------------------------------===// #include "CodeGenFunction.h" #include "CodeGenModule.h" #include "clang/AST/NonTrivialTypeVisitor.h" #include "llvm/Support/ScopedPrinter.h" #include using namespace clang; using namespace CodeGen; // Return the size of a field in number of bits. static uint64_t getFieldSize(const FieldDecl *FD, QualType FT, ASTContext &Ctx) { if (FD && FD->isBitField()) return FD->getBitWidthValue(Ctx); return Ctx.getTypeSize(FT); } namespace { enum { DstIdx = 0, SrcIdx = 1 }; const char *ValNameStr[2] = {"dst", "src"}; template struct StructVisitor { StructVisitor(ASTContext &Ctx) : Ctx(Ctx) {} template void visitStructFields(QualType QT, CharUnits CurStructOffset, Ts... Args) { const RecordDecl *RD = QT->castAs()->getDecl(); // Iterate over the fields of the struct. for (const FieldDecl *FD : RD->fields()) { QualType FT = FD->getType(); FT = QT.isVolatileQualified() ? FT.withVolatile() : FT; asDerived().visit(FT, FD, CurStructOffset, Args...); } asDerived().flushTrivialFields(Args...); } template void visitTrivial(Ts... Args) {} template void visitCXXDestructor(Ts... Args) { llvm_unreachable("field of a C++ struct type is not expected"); } template void flushTrivialFields(Ts... Args) {} uint64_t getFieldOffsetInBits(const FieldDecl *FD) { return FD ? Ctx.getASTRecordLayout(FD->getParent()) .getFieldOffset(FD->getFieldIndex()) : 0; } CharUnits getFieldOffset(const FieldDecl *FD) { return Ctx.toCharUnitsFromBits(getFieldOffsetInBits(FD)); } Derived &asDerived() { return static_cast(*this); } ASTContext &getContext() { return Ctx; } ASTContext &Ctx; }; template struct CopyStructVisitor : StructVisitor, CopiedTypeVisitor { using StructVisitor::asDerived; using Super = CopiedTypeVisitor; CopyStructVisitor(ASTContext &Ctx) : StructVisitor(Ctx) {} template void preVisit(QualType::PrimitiveCopyKind PCK, QualType FT, const FieldDecl *FD, CharUnits CurStructOffsset, Ts &&... Args) { if (PCK) asDerived().flushTrivialFields(std::forward(Args)...); } template void visitWithKind(QualType::PrimitiveCopyKind PCK, QualType FT, const FieldDecl *FD, CharUnits CurStructOffsset, Ts &&... Args) { if (const auto *AT = asDerived().getContext().getAsArrayType(FT)) { asDerived().visitArray(PCK, AT, FT.isVolatileQualified(), FD, CurStructOffsset, std::forward(Args)...); return; } Super::visitWithKind(PCK, FT, FD, CurStructOffsset, std::forward(Args)...); } template void visitTrivial(QualType FT, const FieldDecl *FD, CharUnits CurStructOffset, Ts... Args) { assert(!FT.isVolatileQualified() && "volatile field not expected"); ASTContext &Ctx = asDerived().getContext(); uint64_t FieldSize = getFieldSize(FD, FT, Ctx); // Ignore zero-sized fields. if (FieldSize == 0) return; uint64_t FStartInBits = asDerived().getFieldOffsetInBits(FD); uint64_t FEndInBits = FStartInBits + FieldSize; uint64_t RoundedFEnd = llvm::alignTo(FEndInBits, Ctx.getCharWidth()); // Set Start if this is the first field of a sequence of trivial fields. if (Start == End) Start = CurStructOffset + Ctx.toCharUnitsFromBits(FStartInBits); End = CurStructOffset + Ctx.toCharUnitsFromBits(RoundedFEnd); } CharUnits Start = CharUnits::Zero(), End = CharUnits::Zero(); }; // This function creates the mangled name of a special function of a non-trivial // C struct. Since there is no ODR in C, the function is mangled based on the // struct contents and not the name. The mangled name has the following // structure: // // ::=

"_" // ::= "__destructor_" | "__default_constructor_" | // "__copy_constructor_" | "__move_constructor_" | // "__copy_assignment_" | "__move_assignment_" // ::= ["_" ] // ::= + // ::= | // ::= | | // // ::= "_AB" "s" "n" //

"_AE" // ::= // ::= "_s" ["b"] ["v"] // ::= "_t" ["v"] "_" template struct GenFuncNameBase { std::string getVolatileOffsetStr(bool IsVolatile, CharUnits Offset) { std::string S; if (IsVolatile) S = "v"; S += llvm::to_string(Offset.getQuantity()); return S; } void visitARCStrong(QualType FT, const FieldDecl *FD, CharUnits CurStructOffset) { appendStr("_s"); if (FT->isBlockPointerType()) appendStr("b"); CharUnits FieldOffset = CurStructOffset + asDerived().getFieldOffset(FD); appendStr(getVolatileOffsetStr(FT.isVolatileQualified(), FieldOffset)); } void visitARCWeak(QualType FT, const FieldDecl *FD, CharUnits CurStructOffset) { appendStr("_w"); CharUnits FieldOffset = CurStructOffset + asDerived().getFieldOffset(FD); appendStr(getVolatileOffsetStr(FT.isVolatileQualified(), FieldOffset)); } void visitStruct(QualType QT, const FieldDecl *FD, CharUnits CurStructOffset) { CharUnits FieldOffset = CurStructOffset + asDerived().getFieldOffset(FD); asDerived().visitStructFields(QT, FieldOffset); } template void visitArray(FieldKind FK, const ArrayType *AT, bool IsVolatile, const FieldDecl *FD, CharUnits CurStructOffset) { // String for non-volatile trivial fields is emitted when // flushTrivialFields is called. if (!FK) return asDerived().visitTrivial(QualType(AT, 0), FD, CurStructOffset); CharUnits FieldOffset = CurStructOffset + asDerived().getFieldOffset(FD); ASTContext &Ctx = asDerived().getContext(); const ConstantArrayType *CAT = cast(AT); unsigned NumElts = Ctx.getConstantArrayElementCount(CAT); QualType EltTy = Ctx.getBaseElementType(CAT); CharUnits EltSize = Ctx.getTypeSizeInChars(EltTy); appendStr("_AB" + llvm::to_string(FieldOffset.getQuantity()) + "s" + llvm::to_string(EltSize.getQuantity()) + "n" + llvm::to_string(NumElts)); EltTy = IsVolatile ? EltTy.withVolatile() : EltTy; asDerived().visitWithKind(FK, EltTy, nullptr, FieldOffset); appendStr("_AE"); } void appendStr(StringRef Str) { Name += Str; } std::string getName(QualType QT, bool IsVolatile) { QT = IsVolatile ? QT.withVolatile() : QT; asDerived().visitStructFields(QT, CharUnits::Zero()); return Name; } Derived &asDerived() { return static_cast(*this); } std::string Name; }; template struct GenUnaryFuncName : StructVisitor, GenFuncNameBase { GenUnaryFuncName(StringRef Prefix, CharUnits DstAlignment, ASTContext &Ctx) : StructVisitor(Ctx) { this->appendStr(Prefix); this->appendStr(llvm::to_string(DstAlignment.getQuantity())); } }; // Helper function to create a null constant. static llvm::Constant *getNullForVariable(Address Addr) { llvm::Type *Ty = Addr.getElementType(); return llvm::ConstantPointerNull::get(cast(Ty)); } template struct GenBinaryFuncName : CopyStructVisitor, IsMove>, GenFuncNameBase> { GenBinaryFuncName(StringRef Prefix, CharUnits DstAlignment, CharUnits SrcAlignment, ASTContext &Ctx) : CopyStructVisitor, IsMove>(Ctx) { this->appendStr(Prefix); this->appendStr(llvm::to_string(DstAlignment.getQuantity())); this->appendStr("_" + llvm::to_string(SrcAlignment.getQuantity())); } void flushTrivialFields() { if (this->Start == this->End) return; this->appendStr("_t" + llvm::to_string(this->Start.getQuantity()) + "w" + llvm::to_string((this->End - this->Start).getQuantity())); this->Start = this->End = CharUnits::Zero(); } void visitVolatileTrivial(QualType FT, const FieldDecl *FD, CharUnits CurStackOffset) { // Because volatile fields can be bit-fields and are individually copied, // their offset and width are in bits. uint64_t OffsetInBits = this->Ctx.toBits(CurStackOffset) + this->getFieldOffsetInBits(FD); this->appendStr("_tv" + llvm::to_string(OffsetInBits) + "w" + llvm::to_string(getFieldSize(FD, FT, this->Ctx))); } }; struct GenDefaultInitializeFuncName : GenUnaryFuncName, DefaultInitializedTypeVisitor { using Super = DefaultInitializedTypeVisitor; GenDefaultInitializeFuncName(CharUnits DstAlignment, ASTContext &Ctx) : GenUnaryFuncName("__default_constructor_", DstAlignment, Ctx) {} void visitWithKind(QualType::PrimitiveDefaultInitializeKind PDIK, QualType FT, const FieldDecl *FD, CharUnits CurStructOffset) { if (const auto *AT = getContext().getAsArrayType(FT)) { visitArray(PDIK, AT, FT.isVolatileQualified(), FD, CurStructOffset); return; } Super::visitWithKind(PDIK, FT, FD, CurStructOffset); } }; struct GenDestructorFuncName : GenUnaryFuncName, DestructedTypeVisitor { using Super = DestructedTypeVisitor; GenDestructorFuncName(CharUnits DstAlignment, ASTContext &Ctx) : GenUnaryFuncName("__destructor_", DstAlignment, Ctx) {} void visitWithKind(QualType::DestructionKind DK, QualType FT, const FieldDecl *FD, CharUnits CurStructOffset) { if (const auto *AT = getContext().getAsArrayType(FT)) { visitArray(DK, AT, FT.isVolatileQualified(), FD, CurStructOffset); return; } Super::visitWithKind(DK, FT, FD, CurStructOffset); } }; // Helper function that creates CGFunctionInfo for an N-ary special function. template static const CGFunctionInfo &getFunctionInfo(CodeGenModule &CGM, FunctionArgList &Args) { ASTContext &Ctx = CGM.getContext(); llvm::SmallVector Params; QualType ParamTy = Ctx.getPointerType(Ctx.VoidPtrTy); for (unsigned I = 0; I < N; ++I) Params.push_back(ImplicitParamDecl::Create( Ctx, nullptr, SourceLocation(), &Ctx.Idents.get(ValNameStr[I]), ParamTy, ImplicitParamDecl::Other)); for (auto &P : Params) Args.push_back(P); return CGM.getTypes().arrangeBuiltinFunctionDeclaration(Ctx.VoidTy, Args); } // Template classes that are used as bases for classes that emit special // functions. template struct GenFuncBase { template void visitStruct(QualType FT, const FieldDecl *FD, CharUnits CurStackOffset, std::array Addrs) { this->asDerived().callSpecialFunction( FT, CurStackOffset + asDerived().getFieldOffset(FD), Addrs); } template void visitArray(FieldKind FK, const ArrayType *AT, bool IsVolatile, const FieldDecl *FD, CharUnits CurStackOffset, std::array Addrs) { // Non-volatile trivial fields are copied when flushTrivialFields is called. if (!FK) return asDerived().visitTrivial(QualType(AT, 0), FD, CurStackOffset, Addrs); CodeGenFunction &CGF = *this->CGF; ASTContext &Ctx = CGF.getContext(); // Compute the end address. QualType BaseEltQT; std::array StartAddrs = Addrs; for (unsigned I = 0; I < N; ++I) StartAddrs[I] = getAddrWithOffset(Addrs[I], CurStackOffset, FD); Address DstAddr = StartAddrs[DstIdx]; llvm::Value *NumElts = CGF.emitArrayLength(AT, BaseEltQT, DstAddr); unsigned BaseEltSize = Ctx.getTypeSizeInChars(BaseEltQT).getQuantity(); llvm::Value *BaseEltSizeVal = llvm::ConstantInt::get(NumElts->getType(), BaseEltSize); llvm::Value *SizeInBytes = CGF.Builder.CreateNUWMul(BaseEltSizeVal, NumElts); Address BC = CGF.Builder.CreateBitCast(DstAddr, CGF.CGM.Int8PtrTy); llvm::Value *DstArrayEnd = CGF.Builder.CreateInBoundsGEP(BC.getPointer(), SizeInBytes); DstArrayEnd = CGF.Builder.CreateBitCast(DstArrayEnd, CGF.CGM.Int8PtrPtrTy, "dstarray.end"); llvm::BasicBlock *PreheaderBB = CGF.Builder.GetInsertBlock(); // Create the header block and insert the phi instructions. llvm::BasicBlock *HeaderBB = CGF.createBasicBlock("loop.header"); CGF.EmitBlock(HeaderBB); llvm::PHINode *PHIs[N]; for (unsigned I = 0; I < N; ++I) { PHIs[I] = CGF.Builder.CreatePHI(CGF.CGM.Int8PtrPtrTy, 2, "addr.cur"); PHIs[I]->addIncoming(StartAddrs[I].getPointer(), PreheaderBB); } // Create the exit and loop body blocks. llvm::BasicBlock *ExitBB = CGF.createBasicBlock("loop.exit"); llvm::BasicBlock *LoopBB = CGF.createBasicBlock("loop.body"); // Emit the comparison and conditional branch instruction that jumps to // either the exit or the loop body. llvm::Value *Done = CGF.Builder.CreateICmpEQ(PHIs[DstIdx], DstArrayEnd, "done"); CGF.Builder.CreateCondBr(Done, ExitBB, LoopBB); // Visit the element of the array in the loop body. CGF.EmitBlock(LoopBB); QualType EltQT = AT->getElementType(); CharUnits EltSize = Ctx.getTypeSizeInChars(EltQT); std::array NewAddrs = Addrs; for (unsigned I = 0; I < N; ++I) NewAddrs[I] = Address( PHIs[I], StartAddrs[I].getAlignment().alignmentAtOffset(EltSize)); EltQT = IsVolatile ? EltQT.withVolatile() : EltQT; this->asDerived().visitWithKind(FK, EltQT, nullptr, CharUnits::Zero(), NewAddrs); LoopBB = CGF.Builder.GetInsertBlock(); for (unsigned I = 0; I < N; ++I) { // Instrs to update the destination and source addresses. // Update phi instructions. NewAddrs[I] = getAddrWithOffset(NewAddrs[I], EltSize); PHIs[I]->addIncoming(NewAddrs[I].getPointer(), LoopBB); } // Insert an unconditional branch to the header block. CGF.Builder.CreateBr(HeaderBB); CGF.EmitBlock(ExitBB); } /// Return an address with the specified offset from the passed address. Address getAddrWithOffset(Address Addr, CharUnits Offset) { assert(Addr.isValid() && "invalid address"); if (Offset.getQuantity() == 0) return Addr; Addr = CGF->Builder.CreateBitCast(Addr, CGF->CGM.Int8PtrTy); Addr = CGF->Builder.CreateConstInBoundsGEP(Addr, Offset.getQuantity(), CharUnits::One()); return CGF->Builder.CreateBitCast(Addr, CGF->CGM.Int8PtrPtrTy); } Address getAddrWithOffset(Address Addr, CharUnits StructFieldOffset, const FieldDecl *FD) { return getAddrWithOffset(Addr, StructFieldOffset + asDerived().getFieldOffset(FD)); } template llvm::Function * getFunction(StringRef FuncName, QualType QT, std::array Addrs, std::array Alignments, CodeGenModule &CGM) { // If the special function already exists in the module, return it. if (llvm::Function *F = CGM.getModule().getFunction(FuncName)) { bool WrongType = false; if (!F->getReturnType()->isVoidTy()) WrongType = true; else { for (const llvm::Argument &Arg : F->args()) if (Arg.getType() != CGM.Int8PtrPtrTy) WrongType = true; } if (WrongType) { std::string FuncName = F->getName(); SourceLocation Loc = QT->castAs()->getDecl()->getLocation(); CGM.Error(Loc, "special function " + FuncName + " for non-trivial C struct has incorrect type"); return nullptr; } return F; } ASTContext &Ctx = CGM.getContext(); FunctionArgList Args; const CGFunctionInfo &FI = getFunctionInfo(CGM, Args); llvm::FunctionType *FuncTy = CGM.getTypes().GetFunctionType(FI); llvm::Function *F = llvm::Function::Create(FuncTy, llvm::GlobalValue::LinkOnceODRLinkage, FuncName, &CGM.getModule()); F->setVisibility(llvm::GlobalValue::HiddenVisibility); CGM.SetLLVMFunctionAttributes(nullptr, FI, F); CGM.SetLLVMFunctionAttributesForDefinition(nullptr, F); IdentifierInfo *II = &Ctx.Idents.get(FuncName); FunctionDecl *FD = FunctionDecl::Create( Ctx, Ctx.getTranslationUnitDecl(), SourceLocation(), SourceLocation(), II, Ctx.VoidTy, nullptr, SC_PrivateExtern, false, false); CodeGenFunction NewCGF(CGM); setCGF(&NewCGF); CGF->StartFunction(FD, Ctx.VoidTy, F, FI, Args); for (unsigned I = 0; I < N; ++I) { llvm::Value *V = CGF->Builder.CreateLoad(CGF->GetAddrOfLocalVar(Args[I])); Addrs[I] = Address(V, Alignments[I]); } asDerived().visitStructFields(QT, CharUnits::Zero(), Addrs); CGF->FinishFunction(); return F; } template void callFunc(StringRef FuncName, QualType QT, std::array Addrs, CodeGenFunction &CallerCGF) { std::array Alignments; llvm::Value *Ptrs[N]; for (unsigned I = 0; I < N; ++I) { Alignments[I] = Addrs[I].getAlignment(); Ptrs[I] = CallerCGF.Builder.CreateBitCast(Addrs[I], CallerCGF.CGM.Int8PtrPtrTy) .getPointer(); } if (llvm::Function *F = getFunction(FuncName, QT, Addrs, Alignments, CallerCGF.CGM)) CallerCGF.EmitNounwindRuntimeCall(F, Ptrs); } Derived &asDerived() { return static_cast(*this); } void setCGF(CodeGenFunction *F) { CGF = F; } CodeGenFunction *CGF = nullptr; }; template struct GenBinaryFunc : CopyStructVisitor, GenFuncBase { GenBinaryFunc(ASTContext &Ctx) : CopyStructVisitor(Ctx) {} void flushTrivialFields(std::array Addrs) { CharUnits Size = this->End - this->Start; if (Size.getQuantity() == 0) return; Address DstAddr = this->getAddrWithOffset(Addrs[DstIdx], this->Start); Address SrcAddr = this->getAddrWithOffset(Addrs[SrcIdx], this->Start); // Emit memcpy. if (Size.getQuantity() >= 16 || !llvm::isPowerOf2_32(Size.getQuantity())) { llvm::Value *SizeVal = llvm::ConstantInt::get(this->CGF->SizeTy, Size.getQuantity()); DstAddr = this->CGF->Builder.CreateElementBitCast(DstAddr, this->CGF->Int8Ty); SrcAddr = this->CGF->Builder.CreateElementBitCast(SrcAddr, this->CGF->Int8Ty); this->CGF->Builder.CreateMemCpy(DstAddr, SrcAddr, SizeVal, false); } else { llvm::Type *Ty = llvm::Type::getIntNTy( this->CGF->getLLVMContext(), Size.getQuantity() * this->CGF->getContext().getCharWidth()); DstAddr = this->CGF->Builder.CreateElementBitCast(DstAddr, Ty); SrcAddr = this->CGF->Builder.CreateElementBitCast(SrcAddr, Ty); llvm::Value *SrcVal = this->CGF->Builder.CreateLoad(SrcAddr, false); this->CGF->Builder.CreateStore(SrcVal, DstAddr, false); } this->Start = this->End = CharUnits::Zero(); } template void visitVolatileTrivial(QualType FT, const FieldDecl *FD, CharUnits Offset, std::array Addrs) { LValue DstLV, SrcLV; if (FD) { QualType RT = QualType(FD->getParent()->getTypeForDecl(), 0); llvm::PointerType *PtrTy = this->CGF->ConvertType(RT)->getPointerTo(); Address DstAddr = this->getAddrWithOffset(Addrs[DstIdx], Offset); LValue DstBase = this->CGF->MakeAddrLValue( this->CGF->Builder.CreateBitCast(DstAddr, PtrTy), FT); DstLV = this->CGF->EmitLValueForField(DstBase, FD); Address SrcAddr = this->getAddrWithOffset(Addrs[SrcIdx], Offset); LValue SrcBase = this->CGF->MakeAddrLValue( this->CGF->Builder.CreateBitCast(SrcAddr, PtrTy), FT); SrcLV = this->CGF->EmitLValueForField(SrcBase, FD); } else { llvm::PointerType *Ty = this->CGF->ConvertType(FT)->getPointerTo(); Address DstAddr = this->CGF->Builder.CreateBitCast(Addrs[DstIdx], Ty); Address SrcAddr = this->CGF->Builder.CreateBitCast(Addrs[SrcIdx], Ty); DstLV = this->CGF->MakeAddrLValue(DstAddr, FT); SrcLV = this->CGF->MakeAddrLValue(SrcAddr, FT); } RValue SrcVal = this->CGF->EmitLoadOfLValue(SrcLV, SourceLocation()); this->CGF->EmitStoreThroughLValue(SrcVal, DstLV); } }; // These classes that emit the special functions for a non-trivial struct. struct GenDestructor : StructVisitor, GenFuncBase, DestructedTypeVisitor { using Super = DestructedTypeVisitor; GenDestructor(ASTContext &Ctx) : StructVisitor(Ctx) {} void visitWithKind(QualType::DestructionKind DK, QualType FT, const FieldDecl *FD, CharUnits CurStructOffset, std::array Addrs) { if (const auto *AT = getContext().getAsArrayType(FT)) { visitArray(DK, AT, FT.isVolatileQualified(), FD, CurStructOffset, Addrs); return; } Super::visitWithKind(DK, FT, FD, CurStructOffset, Addrs); } void visitARCStrong(QualType QT, const FieldDecl *FD, CharUnits CurStackOffset, std::array Addrs) { CGF->destroyARCStrongImprecise( *CGF, getAddrWithOffset(Addrs[DstIdx], CurStackOffset, FD), QT); } void visitARCWeak(QualType QT, const FieldDecl *FD, CharUnits CurStackOffset, std::array Addrs) { CGF->destroyARCWeak( *CGF, getAddrWithOffset(Addrs[DstIdx], CurStackOffset, FD), QT); } void callSpecialFunction(QualType FT, CharUnits Offset, std::array Addrs) { CGF->callCStructDestructor( CGF->MakeAddrLValue(getAddrWithOffset(Addrs[DstIdx], Offset), FT)); } }; struct GenDefaultInitialize : StructVisitor, GenFuncBase, DefaultInitializedTypeVisitor { using Super = DefaultInitializedTypeVisitor; typedef GenFuncBase GenFuncBaseTy; GenDefaultInitialize(ASTContext &Ctx) : StructVisitor(Ctx) {} void visitWithKind(QualType::PrimitiveDefaultInitializeKind PDIK, QualType FT, const FieldDecl *FD, CharUnits CurStructOffset, std::array Addrs) { if (const auto *AT = getContext().getAsArrayType(FT)) { visitArray(PDIK, AT, FT.isVolatileQualified(), FD, CurStructOffset, Addrs); return; } Super::visitWithKind(PDIK, FT, FD, CurStructOffset, Addrs); } void visitARCStrong(QualType QT, const FieldDecl *FD, CharUnits CurStackOffset, std::array Addrs) { CGF->EmitNullInitialization( getAddrWithOffset(Addrs[DstIdx], CurStackOffset, FD), QT); } void visitARCWeak(QualType QT, const FieldDecl *FD, CharUnits CurStackOffset, std::array Addrs) { CGF->EmitNullInitialization( getAddrWithOffset(Addrs[DstIdx], CurStackOffset, FD), QT); } template void visitArray(FieldKind FK, const ArrayType *AT, bool IsVolatile, const FieldDecl *FD, CharUnits CurStackOffset, std::array Addrs) { if (!FK) return visitTrivial(QualType(AT, 0), FD, CurStackOffset, Addrs); ASTContext &Ctx = getContext(); CharUnits Size = Ctx.getTypeSizeInChars(QualType(AT, 0)); QualType EltTy = Ctx.getBaseElementType(QualType(AT, 0)); if (Size < CharUnits::fromQuantity(16) || EltTy->getAs()) { GenFuncBaseTy::visitArray(FK, AT, IsVolatile, FD, CurStackOffset, Addrs); return; } llvm::Constant *SizeVal = CGF->Builder.getInt64(Size.getQuantity()); Address DstAddr = getAddrWithOffset(Addrs[DstIdx], CurStackOffset, FD); Address Loc = CGF->Builder.CreateElementBitCast(DstAddr, CGF->Int8Ty); CGF->Builder.CreateMemSet(Loc, CGF->Builder.getInt8(0), SizeVal, IsVolatile); } void callSpecialFunction(QualType FT, CharUnits Offset, std::array Addrs) { CGF->callCStructDefaultConstructor( CGF->MakeAddrLValue(getAddrWithOffset(Addrs[DstIdx], Offset), FT)); } }; struct GenCopyConstructor : GenBinaryFunc { GenCopyConstructor(ASTContext &Ctx) : GenBinaryFunc(Ctx) {} void visitARCStrong(QualType QT, const FieldDecl *FD, CharUnits CurStackOffset, std::array Addrs) { Addrs[DstIdx] = getAddrWithOffset(Addrs[DstIdx], CurStackOffset, FD); Addrs[SrcIdx] = getAddrWithOffset(Addrs[SrcIdx], CurStackOffset, FD); llvm::Value *SrcVal = CGF->EmitLoadOfScalar( Addrs[SrcIdx], QT.isVolatileQualified(), QT, SourceLocation()); llvm::Value *Val = CGF->EmitARCRetain(QT, SrcVal); CGF->EmitStoreOfScalar(Val, CGF->MakeAddrLValue(Addrs[DstIdx], QT), true); } void visitARCWeak(QualType QT, const FieldDecl *FD, CharUnits CurStackOffset, std::array Addrs) { Addrs[DstIdx] = getAddrWithOffset(Addrs[DstIdx], CurStackOffset, FD); Addrs[SrcIdx] = getAddrWithOffset(Addrs[SrcIdx], CurStackOffset, FD); CGF->EmitARCCopyWeak(Addrs[DstIdx], Addrs[SrcIdx]); } void callSpecialFunction(QualType FT, CharUnits Offset, std::array Addrs) { CGF->callCStructCopyConstructor(CGF->MakeAddrLValue(Addrs[DstIdx], FT), CGF->MakeAddrLValue(Addrs[SrcIdx], FT)); } }; struct GenMoveConstructor : GenBinaryFunc { GenMoveConstructor(ASTContext &Ctx) : GenBinaryFunc(Ctx) {} void visitARCStrong(QualType QT, const FieldDecl *FD, CharUnits CurStackOffset, std::array Addrs) { Addrs[DstIdx] = getAddrWithOffset(Addrs[DstIdx], CurStackOffset, FD); Addrs[SrcIdx] = getAddrWithOffset(Addrs[SrcIdx], CurStackOffset, FD); LValue SrcLV = CGF->MakeAddrLValue(Addrs[SrcIdx], QT); llvm::Value *SrcVal = CGF->EmitLoadOfLValue(SrcLV, SourceLocation()).getScalarVal(); CGF->EmitStoreOfScalar(getNullForVariable(SrcLV.getAddress()), SrcLV); CGF->EmitStoreOfScalar(SrcVal, CGF->MakeAddrLValue(Addrs[DstIdx], QT), /* isInitialization */ true); } void visitARCWeak(QualType QT, const FieldDecl *FD, CharUnits CurStackOffset, std::array Addrs) { Addrs[DstIdx] = getAddrWithOffset(Addrs[DstIdx], CurStackOffset, FD); Addrs[SrcIdx] = getAddrWithOffset(Addrs[SrcIdx], CurStackOffset, FD); CGF->EmitARCMoveWeak(Addrs[DstIdx], Addrs[SrcIdx]); } void callSpecialFunction(QualType FT, CharUnits Offset, std::array Addrs) { CGF->callCStructMoveConstructor(CGF->MakeAddrLValue(Addrs[DstIdx], FT), CGF->MakeAddrLValue(Addrs[SrcIdx], FT)); } }; struct GenCopyAssignment : GenBinaryFunc { GenCopyAssignment(ASTContext &Ctx) : GenBinaryFunc(Ctx) {} void visitARCStrong(QualType QT, const FieldDecl *FD, CharUnits CurStackOffset, std::array Addrs) { Addrs[DstIdx] = getAddrWithOffset(Addrs[DstIdx], CurStackOffset, FD); Addrs[SrcIdx] = getAddrWithOffset(Addrs[SrcIdx], CurStackOffset, FD); llvm::Value *SrcVal = CGF->EmitLoadOfScalar( Addrs[SrcIdx], QT.isVolatileQualified(), QT, SourceLocation()); CGF->EmitARCStoreStrong(CGF->MakeAddrLValue(Addrs[DstIdx], QT), SrcVal, false); } void visitARCWeak(QualType QT, const FieldDecl *FD, CharUnits CurStackOffset, std::array Addrs) { Addrs[DstIdx] = getAddrWithOffset(Addrs[DstIdx], CurStackOffset, FD); Addrs[SrcIdx] = getAddrWithOffset(Addrs[SrcIdx], CurStackOffset, FD); CGF->emitARCCopyAssignWeak(QT, Addrs[DstIdx], Addrs[SrcIdx]); } void callSpecialFunction(QualType FT, CharUnits Offset, std::array Addrs) { CGF->callCStructCopyAssignmentOperator( CGF->MakeAddrLValue(Addrs[DstIdx], FT), CGF->MakeAddrLValue(Addrs[SrcIdx], FT)); } }; struct GenMoveAssignment : GenBinaryFunc { GenMoveAssignment(ASTContext &Ctx) : GenBinaryFunc(Ctx) {} void visitARCStrong(QualType QT, const FieldDecl *FD, CharUnits CurStackOffset, std::array Addrs) { Addrs[DstIdx] = getAddrWithOffset(Addrs[DstIdx], CurStackOffset, FD); Addrs[SrcIdx] = getAddrWithOffset(Addrs[SrcIdx], CurStackOffset, FD); LValue SrcLV = CGF->MakeAddrLValue(Addrs[SrcIdx], QT); llvm::Value *SrcVal = CGF->EmitLoadOfLValue(SrcLV, SourceLocation()).getScalarVal(); CGF->EmitStoreOfScalar(getNullForVariable(SrcLV.getAddress()), SrcLV); LValue DstLV = CGF->MakeAddrLValue(Addrs[DstIdx], QT); llvm::Value *DstVal = CGF->EmitLoadOfLValue(DstLV, SourceLocation()).getScalarVal(); CGF->EmitStoreOfScalar(SrcVal, DstLV); CGF->EmitARCRelease(DstVal, ARCImpreciseLifetime); } void visitARCWeak(QualType QT, const FieldDecl *FD, CharUnits CurStackOffset, std::array Addrs) { Addrs[DstIdx] = getAddrWithOffset(Addrs[DstIdx], CurStackOffset, FD); Addrs[SrcIdx] = getAddrWithOffset(Addrs[SrcIdx], CurStackOffset, FD); CGF->emitARCMoveAssignWeak(QT, Addrs[DstIdx], Addrs[SrcIdx]); } void callSpecialFunction(QualType FT, CharUnits Offset, std::array Addrs) { CGF->callCStructMoveAssignmentOperator( CGF->MakeAddrLValue(Addrs[DstIdx], FT), CGF->MakeAddrLValue(Addrs[SrcIdx], FT)); } }; } // namespace void CodeGenFunction::destroyNonTrivialCStruct(CodeGenFunction &CGF, Address Addr, QualType Type) { CGF.callCStructDestructor(CGF.MakeAddrLValue(Addr, Type)); } // Default-initialize a variable that is a non-trivial struct or an array of // such structure. void CodeGenFunction::defaultInitNonTrivialCStructVar(LValue Dst) { GenDefaultInitialize Gen(getContext()); Address DstPtr = Builder.CreateBitCast(Dst.getAddress(), CGM.Int8PtrPtrTy); Gen.setCGF(this); QualType QT = Dst.getType(); QT = Dst.isVolatile() ? QT.withVolatile() : QT; Gen.visit(QT, nullptr, CharUnits::Zero(), std::array({{DstPtr}})); } template static void callSpecialFunction(G &&Gen, StringRef FuncName, QualType QT, bool IsVolatile, CodeGenFunction &CGF, std::array Addrs) { for (unsigned I = 0; I < N; ++I) Addrs[I] = CGF.Builder.CreateBitCast(Addrs[I], CGF.CGM.Int8PtrPtrTy); QT = IsVolatile ? QT.withVolatile() : QT; Gen.callFunc(FuncName, QT, Addrs, CGF); } // Functions to emit calls to the special functions of a non-trivial C struct. void CodeGenFunction::callCStructDefaultConstructor(LValue Dst) { bool IsVolatile = Dst.isVolatile(); Address DstPtr = Dst.getAddress(); QualType QT = Dst.getType(); GenDefaultInitializeFuncName GenName(DstPtr.getAlignment(), getContext()); std::string FuncName = GenName.getName(QT, IsVolatile); callSpecialFunction(GenDefaultInitialize(getContext()), FuncName, QT, IsVolatile, *this, std::array({{DstPtr}})); } void CodeGenFunction::callCStructDestructor(LValue Dst) { bool IsVolatile = Dst.isVolatile(); Address DstPtr = Dst.getAddress(); QualType QT = Dst.getType(); GenDestructorFuncName GenName(DstPtr.getAlignment(), getContext()); std::string FuncName = GenName.getName(QT, IsVolatile); callSpecialFunction(GenDestructor(getContext()), FuncName, QT, IsVolatile, *this, std::array({{DstPtr}})); } void CodeGenFunction::callCStructCopyConstructor(LValue Dst, LValue Src) { bool IsVolatile = Dst.isVolatile() || Src.isVolatile(); Address DstPtr = Dst.getAddress(), SrcPtr = Src.getAddress(); QualType QT = Dst.getType(); GenBinaryFuncName GenName("__copy_constructor_", DstPtr.getAlignment(), SrcPtr.getAlignment(), getContext()); std::string FuncName = GenName.getName(QT, IsVolatile); callSpecialFunction(GenCopyConstructor(getContext()), FuncName, QT, IsVolatile, *this, std::array({{DstPtr, SrcPtr}})); } void CodeGenFunction::callCStructCopyAssignmentOperator(LValue Dst, LValue Src ) { bool IsVolatile = Dst.isVolatile() || Src.isVolatile(); Address DstPtr = Dst.getAddress(), SrcPtr = Src.getAddress(); QualType QT = Dst.getType(); GenBinaryFuncName GenName("__copy_assignment_", DstPtr.getAlignment(), SrcPtr.getAlignment(), getContext()); std::string FuncName = GenName.getName(QT, IsVolatile); callSpecialFunction(GenCopyAssignment(getContext()), FuncName, QT, IsVolatile, *this, std::array({{DstPtr, SrcPtr}})); } void CodeGenFunction::callCStructMoveConstructor(LValue Dst, LValue Src) { bool IsVolatile = Dst.isVolatile() || Src.isVolatile(); Address DstPtr = Dst.getAddress(), SrcPtr = Src.getAddress(); QualType QT = Dst.getType(); GenBinaryFuncName GenName("__move_constructor_", DstPtr.getAlignment(), SrcPtr.getAlignment(), getContext()); std::string FuncName = GenName.getName(QT, IsVolatile); callSpecialFunction(GenMoveConstructor(getContext()), FuncName, QT, IsVolatile, *this, std::array({{DstPtr, SrcPtr}})); } void CodeGenFunction::callCStructMoveAssignmentOperator(LValue Dst, LValue Src ) { bool IsVolatile = Dst.isVolatile() || Src.isVolatile(); Address DstPtr = Dst.getAddress(), SrcPtr = Src.getAddress(); QualType QT = Dst.getType(); GenBinaryFuncName GenName("__move_assignment_", DstPtr.getAlignment(), SrcPtr.getAlignment(), getContext()); std::string FuncName = GenName.getName(QT, IsVolatile); callSpecialFunction(GenMoveAssignment(getContext()), FuncName, QT, IsVolatile, *this, std::array({{DstPtr, SrcPtr}})); }