1 //===--- CGNonTrivialStruct.cpp - Emit Special Functions for C Structs ----===// 2 // 3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 4 // See https://llvm.org/LICENSE.txt for license information. 5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 6 // 7 //===----------------------------------------------------------------------===// 8 // 9 // This file defines functions to generate various special functions for C 10 // structs. 11 // 12 //===----------------------------------------------------------------------===// 13 14 #include "CodeGenFunction.h" 15 #include "CodeGenModule.h" 16 #include "clang/AST/NonTrivialTypeVisitor.h" 17 #include "clang/CodeGen/CodeGenABITypes.h" 18 #include "llvm/Support/ScopedPrinter.h" 19 #include <array> 20 21 using namespace clang; 22 using namespace CodeGen; 23 24 // Return the size of a field in number of bits. 25 static uint64_t getFieldSize(const FieldDecl *FD, QualType FT, 26 ASTContext &Ctx) { 27 if (FD && FD->isBitField()) 28 return FD->getBitWidthValue(Ctx); 29 return Ctx.getTypeSize(FT); 30 } 31 32 namespace { 33 enum { DstIdx = 0, SrcIdx = 1 }; 34 const char *ValNameStr[2] = {"dst", "src"}; 35 36 template <class Derived> struct StructVisitor { 37 StructVisitor(ASTContext &Ctx) : Ctx(Ctx) {} 38 39 template <class... Ts> 40 void visitStructFields(QualType QT, CharUnits CurStructOffset, Ts... Args) { 41 const RecordDecl *RD = QT->castAs<RecordType>()->getDecl(); 42 43 // Iterate over the fields of the struct. 44 for (const FieldDecl *FD : RD->fields()) { 45 QualType FT = FD->getType(); 46 FT = QT.isVolatileQualified() ? FT.withVolatile() : FT; 47 asDerived().visit(FT, FD, CurStructOffset, Args...); 48 } 49 50 asDerived().flushTrivialFields(Args...); 51 } 52 53 template <class... Ts> void visitTrivial(Ts... Args) {} 54 55 template <class... Ts> void visitCXXDestructor(Ts... Args) { 56 llvm_unreachable("field of a C++ struct type is not expected"); 57 } 58 59 template <class... Ts> void flushTrivialFields(Ts... Args) {} 60 61 uint64_t getFieldOffsetInBits(const FieldDecl *FD) { 62 return FD ? Ctx.getASTRecordLayout(FD->getParent()) 63 .getFieldOffset(FD->getFieldIndex()) 64 : 0; 65 } 66 67 CharUnits getFieldOffset(const FieldDecl *FD) { 68 return Ctx.toCharUnitsFromBits(getFieldOffsetInBits(FD)); 69 } 70 71 Derived &asDerived() { return static_cast<Derived &>(*this); } 72 73 ASTContext &getContext() { return Ctx; } 74 ASTContext &Ctx; 75 }; 76 77 template <class Derived, bool IsMove> 78 struct CopyStructVisitor : StructVisitor<Derived>, 79 CopiedTypeVisitor<Derived, IsMove> { 80 using StructVisitor<Derived>::asDerived; 81 using Super = CopiedTypeVisitor<Derived, IsMove>; 82 83 CopyStructVisitor(ASTContext &Ctx) : StructVisitor<Derived>(Ctx) {} 84 85 template <class... Ts> 86 void preVisit(QualType::PrimitiveCopyKind PCK, QualType FT, 87 const FieldDecl *FD, CharUnits CurStructOffset, Ts &&... Args) { 88 if (PCK) 89 asDerived().flushTrivialFields(std::forward<Ts>(Args)...); 90 } 91 92 template <class... Ts> 93 void visitWithKind(QualType::PrimitiveCopyKind PCK, QualType FT, 94 const FieldDecl *FD, CharUnits CurStructOffset, 95 Ts &&... Args) { 96 if (const auto *AT = asDerived().getContext().getAsArrayType(FT)) { 97 asDerived().visitArray(PCK, AT, FT.isVolatileQualified(), FD, 98 CurStructOffset, std::forward<Ts>(Args)...); 99 return; 100 } 101 102 Super::visitWithKind(PCK, FT, FD, CurStructOffset, 103 std::forward<Ts>(Args)...); 104 } 105 106 template <class... Ts> 107 void visitTrivial(QualType FT, const FieldDecl *FD, CharUnits CurStructOffset, 108 Ts... Args) { 109 assert(!FT.isVolatileQualified() && "volatile field not expected"); 110 ASTContext &Ctx = asDerived().getContext(); 111 uint64_t FieldSize = getFieldSize(FD, FT, Ctx); 112 113 // Ignore zero-sized fields. 114 if (FieldSize == 0) 115 return; 116 117 uint64_t FStartInBits = asDerived().getFieldOffsetInBits(FD); 118 uint64_t FEndInBits = FStartInBits + FieldSize; 119 uint64_t RoundedFEnd = llvm::alignTo(FEndInBits, Ctx.getCharWidth()); 120 121 // Set Start if this is the first field of a sequence of trivial fields. 122 if (Start == End) 123 Start = CurStructOffset + Ctx.toCharUnitsFromBits(FStartInBits); 124 End = CurStructOffset + Ctx.toCharUnitsFromBits(RoundedFEnd); 125 } 126 127 CharUnits Start = CharUnits::Zero(), End = CharUnits::Zero(); 128 }; 129 130 // This function creates the mangled name of a special function of a non-trivial 131 // C struct. Since there is no ODR in C, the function is mangled based on the 132 // struct contents and not the name. The mangled name has the following 133 // structure: 134 // 135 // <function-name> ::= <prefix> <alignment-info> "_" <struct-field-info> 136 // <prefix> ::= "__destructor_" | "__default_constructor_" | 137 // "__copy_constructor_" | "__move_constructor_" | 138 // "__copy_assignment_" | "__move_assignment_" 139 // <alignment-info> ::= <dst-alignment> ["_" <src-alignment>] 140 // <struct-field-info> ::= <field-info>+ 141 // <field-info> ::= <struct-or-scalar-field-info> | <array-field-info> 142 // <struct-or-scalar-field-info> ::= "_S" <struct-field-info> | 143 // <strong-field-info> | <trivial-field-info> 144 // <array-field-info> ::= "_AB" <array-offset> "s" <element-size> "n" 145 // <num-elements> <innermost-element-info> "_AE" 146 // <innermost-element-info> ::= <struct-or-scalar-field-info> 147 // <strong-field-info> ::= "_s" ["b"] ["v"] <field-offset> 148 // <trivial-field-info> ::= "_t" ["v"] <field-offset> "_" <field-size> 149 150 template <class Derived> struct GenFuncNameBase { 151 std::string getVolatileOffsetStr(bool IsVolatile, CharUnits Offset) { 152 std::string S; 153 if (IsVolatile) 154 S = "v"; 155 S += llvm::to_string(Offset.getQuantity()); 156 return S; 157 } 158 159 void visitARCStrong(QualType FT, const FieldDecl *FD, 160 CharUnits CurStructOffset) { 161 appendStr("_s"); 162 if (FT->isBlockPointerType()) 163 appendStr("b"); 164 CharUnits FieldOffset = CurStructOffset + asDerived().getFieldOffset(FD); 165 appendStr(getVolatileOffsetStr(FT.isVolatileQualified(), FieldOffset)); 166 } 167 168 void visitARCWeak(QualType FT, const FieldDecl *FD, 169 CharUnits CurStructOffset) { 170 appendStr("_w"); 171 CharUnits FieldOffset = CurStructOffset + asDerived().getFieldOffset(FD); 172 appendStr(getVolatileOffsetStr(FT.isVolatileQualified(), FieldOffset)); 173 } 174 175 void visitStruct(QualType QT, const FieldDecl *FD, 176 CharUnits CurStructOffset) { 177 CharUnits FieldOffset = CurStructOffset + asDerived().getFieldOffset(FD); 178 appendStr("_S"); 179 asDerived().visitStructFields(QT, FieldOffset); 180 } 181 182 template <class FieldKind> 183 void visitArray(FieldKind FK, const ArrayType *AT, bool IsVolatile, 184 const FieldDecl *FD, CharUnits CurStructOffset) { 185 // String for non-volatile trivial fields is emitted when 186 // flushTrivialFields is called. 187 if (!FK) 188 return asDerived().visitTrivial(QualType(AT, 0), FD, CurStructOffset); 189 190 asDerived().flushTrivialFields(); 191 CharUnits FieldOffset = CurStructOffset + asDerived().getFieldOffset(FD); 192 ASTContext &Ctx = asDerived().getContext(); 193 const ConstantArrayType *CAT = cast<ConstantArrayType>(AT); 194 unsigned NumElts = Ctx.getConstantArrayElementCount(CAT); 195 QualType EltTy = Ctx.getBaseElementType(CAT); 196 CharUnits EltSize = Ctx.getTypeSizeInChars(EltTy); 197 appendStr("_AB" + llvm::to_string(FieldOffset.getQuantity()) + "s" + 198 llvm::to_string(EltSize.getQuantity()) + "n" + 199 llvm::to_string(NumElts)); 200 EltTy = IsVolatile ? EltTy.withVolatile() : EltTy; 201 asDerived().visitWithKind(FK, EltTy, nullptr, FieldOffset); 202 appendStr("_AE"); 203 } 204 205 void appendStr(StringRef Str) { Name += Str; } 206 207 std::string getName(QualType QT, bool IsVolatile) { 208 QT = IsVolatile ? QT.withVolatile() : QT; 209 asDerived().visitStructFields(QT, CharUnits::Zero()); 210 return Name; 211 } 212 213 Derived &asDerived() { return static_cast<Derived &>(*this); } 214 215 std::string Name; 216 }; 217 218 template <class Derived> 219 struct GenUnaryFuncName : StructVisitor<Derived>, GenFuncNameBase<Derived> { 220 GenUnaryFuncName(StringRef Prefix, CharUnits DstAlignment, ASTContext &Ctx) 221 : StructVisitor<Derived>(Ctx) { 222 this->appendStr(Prefix); 223 this->appendStr(llvm::to_string(DstAlignment.getQuantity())); 224 } 225 }; 226 227 // Helper function to create a null constant. 228 static llvm::Constant *getNullForVariable(Address Addr) { 229 llvm::Type *Ty = Addr.getElementType(); 230 return llvm::ConstantPointerNull::get(cast<llvm::PointerType>(Ty)); 231 } 232 233 template <bool IsMove> 234 struct GenBinaryFuncName : CopyStructVisitor<GenBinaryFuncName<IsMove>, IsMove>, 235 GenFuncNameBase<GenBinaryFuncName<IsMove>> { 236 237 GenBinaryFuncName(StringRef Prefix, CharUnits DstAlignment, 238 CharUnits SrcAlignment, ASTContext &Ctx) 239 : CopyStructVisitor<GenBinaryFuncName<IsMove>, IsMove>(Ctx) { 240 this->appendStr(Prefix); 241 this->appendStr(llvm::to_string(DstAlignment.getQuantity())); 242 this->appendStr("_" + llvm::to_string(SrcAlignment.getQuantity())); 243 } 244 245 void flushTrivialFields() { 246 if (this->Start == this->End) 247 return; 248 249 this->appendStr("_t" + llvm::to_string(this->Start.getQuantity()) + "w" + 250 llvm::to_string((this->End - this->Start).getQuantity())); 251 252 this->Start = this->End = CharUnits::Zero(); 253 } 254 255 void visitVolatileTrivial(QualType FT, const FieldDecl *FD, 256 CharUnits CurStructOffset) { 257 // Zero-length bit-fields don't need to be copied/assigned. 258 if (FD && FD->isZeroLengthBitField(this->Ctx)) 259 return; 260 261 // Because volatile fields can be bit-fields and are individually copied, 262 // their offset and width are in bits. 263 uint64_t OffsetInBits = 264 this->Ctx.toBits(CurStructOffset) + this->getFieldOffsetInBits(FD); 265 this->appendStr("_tv" + llvm::to_string(OffsetInBits) + "w" + 266 llvm::to_string(getFieldSize(FD, FT, this->Ctx))); 267 } 268 }; 269 270 struct GenDefaultInitializeFuncName 271 : GenUnaryFuncName<GenDefaultInitializeFuncName>, 272 DefaultInitializedTypeVisitor<GenDefaultInitializeFuncName> { 273 using Super = DefaultInitializedTypeVisitor<GenDefaultInitializeFuncName>; 274 GenDefaultInitializeFuncName(CharUnits DstAlignment, ASTContext &Ctx) 275 : GenUnaryFuncName<GenDefaultInitializeFuncName>("__default_constructor_", 276 DstAlignment, Ctx) {} 277 void visitWithKind(QualType::PrimitiveDefaultInitializeKind PDIK, QualType FT, 278 const FieldDecl *FD, CharUnits CurStructOffset) { 279 if (const auto *AT = getContext().getAsArrayType(FT)) { 280 visitArray(PDIK, AT, FT.isVolatileQualified(), FD, CurStructOffset); 281 return; 282 } 283 284 Super::visitWithKind(PDIK, FT, FD, CurStructOffset); 285 } 286 }; 287 288 struct GenDestructorFuncName : GenUnaryFuncName<GenDestructorFuncName>, 289 DestructedTypeVisitor<GenDestructorFuncName> { 290 using Super = DestructedTypeVisitor<GenDestructorFuncName>; 291 GenDestructorFuncName(const char *Prefix, CharUnits DstAlignment, 292 ASTContext &Ctx) 293 : GenUnaryFuncName<GenDestructorFuncName>(Prefix, DstAlignment, Ctx) {} 294 void visitWithKind(QualType::DestructionKind DK, QualType FT, 295 const FieldDecl *FD, CharUnits CurStructOffset) { 296 if (const auto *AT = getContext().getAsArrayType(FT)) { 297 visitArray(DK, AT, FT.isVolatileQualified(), FD, CurStructOffset); 298 return; 299 } 300 301 Super::visitWithKind(DK, FT, FD, CurStructOffset); 302 } 303 }; 304 305 // Helper function that creates CGFunctionInfo for an N-ary special function. 306 template <size_t N> 307 static const CGFunctionInfo &getFunctionInfo(CodeGenModule &CGM, 308 FunctionArgList &Args) { 309 ASTContext &Ctx = CGM.getContext(); 310 llvm::SmallVector<ImplicitParamDecl *, N> Params; 311 QualType ParamTy = Ctx.getPointerType(Ctx.VoidPtrTy); 312 313 for (unsigned I = 0; I < N; ++I) 314 Params.push_back(ImplicitParamDecl::Create( 315 Ctx, nullptr, SourceLocation(), &Ctx.Idents.get(ValNameStr[I]), ParamTy, 316 ImplicitParamKind::Other)); 317 318 llvm::append_range(Args, Params); 319 320 return CGM.getTypes().arrangeBuiltinFunctionDeclaration(Ctx.VoidTy, Args); 321 } 322 323 template <size_t N, size_t... Ints> 324 static std::array<Address, N> getParamAddrs(std::index_sequence<Ints...> IntSeq, 325 std::array<CharUnits, N> Alignments, 326 const FunctionArgList &Args, 327 CodeGenFunction *CGF) { 328 return std::array<Address, N>{ 329 {Address(CGF->Builder.CreateLoad(CGF->GetAddrOfLocalVar(Args[Ints])), 330 CGF->VoidPtrTy, Alignments[Ints], KnownNonNull)...}}; 331 } 332 333 // Template classes that are used as bases for classes that emit special 334 // functions. 335 template <class Derived> struct GenFuncBase { 336 template <size_t N> 337 void visitStruct(QualType FT, const FieldDecl *FD, CharUnits CurStructOffset, 338 std::array<Address, N> Addrs) { 339 this->asDerived().callSpecialFunction( 340 FT, CurStructOffset + asDerived().getFieldOffset(FD), Addrs); 341 } 342 343 template <class FieldKind, size_t N> 344 void visitArray(FieldKind FK, const ArrayType *AT, bool IsVolatile, 345 const FieldDecl *FD, CharUnits CurStructOffset, 346 std::array<Address, N> Addrs) { 347 // Non-volatile trivial fields are copied when flushTrivialFields is called. 348 if (!FK) 349 return asDerived().visitTrivial(QualType(AT, 0), FD, CurStructOffset, 350 Addrs); 351 352 asDerived().flushTrivialFields(Addrs); 353 CodeGenFunction &CGF = *this->CGF; 354 ASTContext &Ctx = CGF.getContext(); 355 356 // Compute the end address. 357 QualType BaseEltQT; 358 std::array<Address, N> StartAddrs = Addrs; 359 for (unsigned I = 0; I < N; ++I) 360 StartAddrs[I] = getAddrWithOffset(Addrs[I], CurStructOffset, FD); 361 Address DstAddr = StartAddrs[DstIdx]; 362 llvm::Value *NumElts = CGF.emitArrayLength(AT, BaseEltQT, DstAddr); 363 unsigned BaseEltSize = Ctx.getTypeSizeInChars(BaseEltQT).getQuantity(); 364 llvm::Value *BaseEltSizeVal = 365 llvm::ConstantInt::get(NumElts->getType(), BaseEltSize); 366 llvm::Value *SizeInBytes = 367 CGF.Builder.CreateNUWMul(BaseEltSizeVal, NumElts); 368 llvm::Value *DstArrayEnd = CGF.Builder.CreateInBoundsGEP( 369 CGF.Int8Ty, DstAddr.getPointer(), SizeInBytes); 370 llvm::BasicBlock *PreheaderBB = CGF.Builder.GetInsertBlock(); 371 372 // Create the header block and insert the phi instructions. 373 llvm::BasicBlock *HeaderBB = CGF.createBasicBlock("loop.header"); 374 CGF.EmitBlock(HeaderBB); 375 llvm::PHINode *PHIs[N]; 376 377 for (unsigned I = 0; I < N; ++I) { 378 PHIs[I] = CGF.Builder.CreatePHI(CGF.CGM.Int8PtrPtrTy, 2, "addr.cur"); 379 PHIs[I]->addIncoming(StartAddrs[I].getPointer(), PreheaderBB); 380 } 381 382 // Create the exit and loop body blocks. 383 llvm::BasicBlock *ExitBB = CGF.createBasicBlock("loop.exit"); 384 llvm::BasicBlock *LoopBB = CGF.createBasicBlock("loop.body"); 385 386 // Emit the comparison and conditional branch instruction that jumps to 387 // either the exit or the loop body. 388 llvm::Value *Done = 389 CGF.Builder.CreateICmpEQ(PHIs[DstIdx], DstArrayEnd, "done"); 390 CGF.Builder.CreateCondBr(Done, ExitBB, LoopBB); 391 392 // Visit the element of the array in the loop body. 393 CGF.EmitBlock(LoopBB); 394 QualType EltQT = AT->getElementType(); 395 CharUnits EltSize = Ctx.getTypeSizeInChars(EltQT); 396 std::array<Address, N> NewAddrs = Addrs; 397 398 for (unsigned I = 0; I < N; ++I) 399 NewAddrs[I] = 400 Address(PHIs[I], CGF.Int8PtrTy, 401 StartAddrs[I].getAlignment().alignmentAtOffset(EltSize)); 402 403 EltQT = IsVolatile ? EltQT.withVolatile() : EltQT; 404 this->asDerived().visitWithKind(FK, EltQT, nullptr, CharUnits::Zero(), 405 NewAddrs); 406 407 LoopBB = CGF.Builder.GetInsertBlock(); 408 409 for (unsigned I = 0; I < N; ++I) { 410 // Instrs to update the destination and source addresses. 411 // Update phi instructions. 412 NewAddrs[I] = getAddrWithOffset(NewAddrs[I], EltSize); 413 PHIs[I]->addIncoming(NewAddrs[I].getPointer(), LoopBB); 414 } 415 416 // Insert an unconditional branch to the header block. 417 CGF.Builder.CreateBr(HeaderBB); 418 CGF.EmitBlock(ExitBB); 419 } 420 421 /// Return an address with the specified offset from the passed address. 422 Address getAddrWithOffset(Address Addr, CharUnits Offset) { 423 assert(Addr.isValid() && "invalid address"); 424 if (Offset.getQuantity() == 0) 425 return Addr; 426 Addr = Addr.withElementType(CGF->CGM.Int8Ty); 427 Addr = CGF->Builder.CreateConstInBoundsGEP(Addr, Offset.getQuantity()); 428 return Addr.withElementType(CGF->CGM.Int8PtrTy); 429 } 430 431 Address getAddrWithOffset(Address Addr, CharUnits StructFieldOffset, 432 const FieldDecl *FD) { 433 return getAddrWithOffset(Addr, StructFieldOffset + 434 asDerived().getFieldOffset(FD)); 435 } 436 437 template <size_t N> 438 llvm::Function *getFunction(StringRef FuncName, QualType QT, 439 std::array<CharUnits, N> Alignments, 440 CodeGenModule &CGM) { 441 // If the special function already exists in the module, return it. 442 if (llvm::Function *F = CGM.getModule().getFunction(FuncName)) { 443 bool WrongType = false; 444 if (!F->getReturnType()->isVoidTy()) 445 WrongType = true; 446 else { 447 for (const llvm::Argument &Arg : F->args()) 448 if (Arg.getType() != CGM.Int8PtrPtrTy) 449 WrongType = true; 450 } 451 452 if (WrongType) { 453 std::string FuncName = std::string(F->getName()); 454 SourceLocation Loc = QT->castAs<RecordType>()->getDecl()->getLocation(); 455 CGM.Error(Loc, "special function " + FuncName + 456 " for non-trivial C struct has incorrect type"); 457 return nullptr; 458 } 459 return F; 460 } 461 462 ASTContext &Ctx = CGM.getContext(); 463 FunctionArgList Args; 464 const CGFunctionInfo &FI = getFunctionInfo<N>(CGM, Args); 465 llvm::FunctionType *FuncTy = CGM.getTypes().GetFunctionType(FI); 466 llvm::Function *F = 467 llvm::Function::Create(FuncTy, llvm::GlobalValue::LinkOnceODRLinkage, 468 FuncName, &CGM.getModule()); 469 F->setVisibility(llvm::GlobalValue::HiddenVisibility); 470 CGM.SetLLVMFunctionAttributes(GlobalDecl(), FI, F, /*IsThunk=*/false); 471 CGM.SetLLVMFunctionAttributesForDefinition(nullptr, F); 472 CodeGenFunction NewCGF(CGM); 473 setCGF(&NewCGF); 474 CGF->StartFunction(GlobalDecl(), Ctx.VoidTy, F, FI, Args); 475 auto AL = ApplyDebugLocation::CreateArtificial(*CGF); 476 std::array<Address, N> Addrs = 477 getParamAddrs<N>(std::make_index_sequence<N>{}, Alignments, Args, CGF); 478 asDerived().visitStructFields(QT, CharUnits::Zero(), Addrs); 479 CGF->FinishFunction(); 480 return F; 481 } 482 483 template <size_t N> 484 void callFunc(StringRef FuncName, QualType QT, std::array<Address, N> Addrs, 485 CodeGenFunction &CallerCGF) { 486 std::array<CharUnits, N> Alignments; 487 llvm::Value *Ptrs[N]; 488 489 for (unsigned I = 0; I < N; ++I) { 490 Alignments[I] = Addrs[I].getAlignment(); 491 Ptrs[I] = Addrs[I].getPointer(); 492 } 493 494 if (llvm::Function *F = 495 getFunction(FuncName, QT, Alignments, CallerCGF.CGM)) 496 CallerCGF.EmitNounwindRuntimeCall(F, Ptrs); 497 } 498 499 Derived &asDerived() { return static_cast<Derived &>(*this); } 500 501 void setCGF(CodeGenFunction *F) { CGF = F; } 502 503 CodeGenFunction *CGF = nullptr; 504 }; 505 506 template <class Derived, bool IsMove> 507 struct GenBinaryFunc : CopyStructVisitor<Derived, IsMove>, 508 GenFuncBase<Derived> { 509 GenBinaryFunc(ASTContext &Ctx) : CopyStructVisitor<Derived, IsMove>(Ctx) {} 510 511 void flushTrivialFields(std::array<Address, 2> Addrs) { 512 CharUnits Size = this->End - this->Start; 513 514 if (Size.getQuantity() == 0) 515 return; 516 517 Address DstAddr = this->getAddrWithOffset(Addrs[DstIdx], this->Start); 518 Address SrcAddr = this->getAddrWithOffset(Addrs[SrcIdx], this->Start); 519 520 // Emit memcpy. 521 if (Size.getQuantity() >= 16 || 522 !llvm::has_single_bit<uint32_t>(Size.getQuantity())) { 523 llvm::Value *SizeVal = 524 llvm::ConstantInt::get(this->CGF->SizeTy, Size.getQuantity()); 525 DstAddr = DstAddr.withElementType(this->CGF->Int8Ty); 526 SrcAddr = SrcAddr.withElementType(this->CGF->Int8Ty); 527 this->CGF->Builder.CreateMemCpy(DstAddr, SrcAddr, SizeVal, false); 528 } else { 529 llvm::Type *Ty = llvm::Type::getIntNTy( 530 this->CGF->getLLVMContext(), 531 Size.getQuantity() * this->CGF->getContext().getCharWidth()); 532 DstAddr = DstAddr.withElementType(Ty); 533 SrcAddr = SrcAddr.withElementType(Ty); 534 llvm::Value *SrcVal = this->CGF->Builder.CreateLoad(SrcAddr, false); 535 this->CGF->Builder.CreateStore(SrcVal, DstAddr, false); 536 } 537 538 this->Start = this->End = CharUnits::Zero(); 539 } 540 541 template <class... Ts> 542 void visitVolatileTrivial(QualType FT, const FieldDecl *FD, CharUnits Offset, 543 std::array<Address, 2> Addrs) { 544 LValue DstLV, SrcLV; 545 if (FD) { 546 // No need to copy zero-length bit-fields. 547 if (FD->isZeroLengthBitField(this->CGF->getContext())) 548 return; 549 550 QualType RT = QualType(FD->getParent()->getTypeForDecl(), 0); 551 llvm::Type *Ty = this->CGF->ConvertType(RT); 552 Address DstAddr = this->getAddrWithOffset(Addrs[DstIdx], Offset); 553 LValue DstBase = 554 this->CGF->MakeAddrLValue(DstAddr.withElementType(Ty), FT); 555 DstLV = this->CGF->EmitLValueForField(DstBase, FD); 556 Address SrcAddr = this->getAddrWithOffset(Addrs[SrcIdx], Offset); 557 LValue SrcBase = 558 this->CGF->MakeAddrLValue(SrcAddr.withElementType(Ty), FT); 559 SrcLV = this->CGF->EmitLValueForField(SrcBase, FD); 560 } else { 561 llvm::Type *Ty = this->CGF->ConvertTypeForMem(FT); 562 Address DstAddr = Addrs[DstIdx].withElementType(Ty); 563 Address SrcAddr = Addrs[SrcIdx].withElementType(Ty); 564 DstLV = this->CGF->MakeAddrLValue(DstAddr, FT); 565 SrcLV = this->CGF->MakeAddrLValue(SrcAddr, FT); 566 } 567 RValue SrcVal = this->CGF->EmitLoadOfLValue(SrcLV, SourceLocation()); 568 this->CGF->EmitStoreThroughLValue(SrcVal, DstLV); 569 } 570 }; 571 572 // These classes that emit the special functions for a non-trivial struct. 573 struct GenDestructor : StructVisitor<GenDestructor>, 574 GenFuncBase<GenDestructor>, 575 DestructedTypeVisitor<GenDestructor> { 576 using Super = DestructedTypeVisitor<GenDestructor>; 577 GenDestructor(ASTContext &Ctx) : StructVisitor<GenDestructor>(Ctx) {} 578 579 void visitWithKind(QualType::DestructionKind DK, QualType FT, 580 const FieldDecl *FD, CharUnits CurStructOffset, 581 std::array<Address, 1> Addrs) { 582 if (const auto *AT = getContext().getAsArrayType(FT)) { 583 visitArray(DK, AT, FT.isVolatileQualified(), FD, CurStructOffset, Addrs); 584 return; 585 } 586 587 Super::visitWithKind(DK, FT, FD, CurStructOffset, Addrs); 588 } 589 590 void visitARCStrong(QualType QT, const FieldDecl *FD, 591 CharUnits CurStructOffset, std::array<Address, 1> Addrs) { 592 CGF->destroyARCStrongImprecise( 593 *CGF, getAddrWithOffset(Addrs[DstIdx], CurStructOffset, FD), QT); 594 } 595 596 void visitARCWeak(QualType QT, const FieldDecl *FD, CharUnits CurStructOffset, 597 std::array<Address, 1> Addrs) { 598 CGF->destroyARCWeak( 599 *CGF, getAddrWithOffset(Addrs[DstIdx], CurStructOffset, FD), QT); 600 } 601 602 void callSpecialFunction(QualType FT, CharUnits Offset, 603 std::array<Address, 1> Addrs) { 604 CGF->callCStructDestructor( 605 CGF->MakeAddrLValue(getAddrWithOffset(Addrs[DstIdx], Offset), FT)); 606 } 607 }; 608 609 struct GenDefaultInitialize 610 : StructVisitor<GenDefaultInitialize>, 611 GenFuncBase<GenDefaultInitialize>, 612 DefaultInitializedTypeVisitor<GenDefaultInitialize> { 613 using Super = DefaultInitializedTypeVisitor<GenDefaultInitialize>; 614 typedef GenFuncBase<GenDefaultInitialize> GenFuncBaseTy; 615 616 GenDefaultInitialize(ASTContext &Ctx) 617 : StructVisitor<GenDefaultInitialize>(Ctx) {} 618 619 void visitWithKind(QualType::PrimitiveDefaultInitializeKind PDIK, QualType FT, 620 const FieldDecl *FD, CharUnits CurStructOffset, 621 std::array<Address, 1> Addrs) { 622 if (const auto *AT = getContext().getAsArrayType(FT)) { 623 visitArray(PDIK, AT, FT.isVolatileQualified(), FD, CurStructOffset, 624 Addrs); 625 return; 626 } 627 628 Super::visitWithKind(PDIK, FT, FD, CurStructOffset, Addrs); 629 } 630 631 void visitARCStrong(QualType QT, const FieldDecl *FD, 632 CharUnits CurStructOffset, std::array<Address, 1> Addrs) { 633 CGF->EmitNullInitialization( 634 getAddrWithOffset(Addrs[DstIdx], CurStructOffset, FD), QT); 635 } 636 637 void visitARCWeak(QualType QT, const FieldDecl *FD, CharUnits CurStructOffset, 638 std::array<Address, 1> Addrs) { 639 CGF->EmitNullInitialization( 640 getAddrWithOffset(Addrs[DstIdx], CurStructOffset, FD), QT); 641 } 642 643 template <class FieldKind, size_t... Is> 644 void visitArray(FieldKind FK, const ArrayType *AT, bool IsVolatile, 645 const FieldDecl *FD, CharUnits CurStructOffset, 646 std::array<Address, 1> Addrs) { 647 if (!FK) 648 return visitTrivial(QualType(AT, 0), FD, CurStructOffset, Addrs); 649 650 ASTContext &Ctx = getContext(); 651 CharUnits Size = Ctx.getTypeSizeInChars(QualType(AT, 0)); 652 QualType EltTy = Ctx.getBaseElementType(QualType(AT, 0)); 653 654 if (Size < CharUnits::fromQuantity(16) || EltTy->getAs<RecordType>()) { 655 GenFuncBaseTy::visitArray(FK, AT, IsVolatile, FD, CurStructOffset, Addrs); 656 return; 657 } 658 659 llvm::Constant *SizeVal = CGF->Builder.getInt64(Size.getQuantity()); 660 Address DstAddr = getAddrWithOffset(Addrs[DstIdx], CurStructOffset, FD); 661 Address Loc = DstAddr.withElementType(CGF->Int8Ty); 662 CGF->Builder.CreateMemSet(Loc, CGF->Builder.getInt8(0), SizeVal, 663 IsVolatile); 664 } 665 666 void callSpecialFunction(QualType FT, CharUnits Offset, 667 std::array<Address, 1> Addrs) { 668 CGF->callCStructDefaultConstructor( 669 CGF->MakeAddrLValue(getAddrWithOffset(Addrs[DstIdx], Offset), FT)); 670 } 671 }; 672 673 struct GenCopyConstructor : GenBinaryFunc<GenCopyConstructor, false> { 674 GenCopyConstructor(ASTContext &Ctx) 675 : GenBinaryFunc<GenCopyConstructor, false>(Ctx) {} 676 677 void visitARCStrong(QualType QT, const FieldDecl *FD, 678 CharUnits CurStructOffset, std::array<Address, 2> Addrs) { 679 Addrs[DstIdx] = getAddrWithOffset(Addrs[DstIdx], CurStructOffset, FD); 680 Addrs[SrcIdx] = getAddrWithOffset(Addrs[SrcIdx], CurStructOffset, FD); 681 llvm::Value *SrcVal = CGF->EmitLoadOfScalar( 682 Addrs[SrcIdx], QT.isVolatileQualified(), QT, SourceLocation()); 683 llvm::Value *Val = CGF->EmitARCRetain(QT, SrcVal); 684 CGF->EmitStoreOfScalar(Val, CGF->MakeAddrLValue(Addrs[DstIdx], QT), true); 685 } 686 687 void visitARCWeak(QualType QT, const FieldDecl *FD, CharUnits CurStructOffset, 688 std::array<Address, 2> Addrs) { 689 Addrs[DstIdx] = getAddrWithOffset(Addrs[DstIdx], CurStructOffset, FD); 690 Addrs[SrcIdx] = getAddrWithOffset(Addrs[SrcIdx], CurStructOffset, FD); 691 CGF->EmitARCCopyWeak(Addrs[DstIdx], Addrs[SrcIdx]); 692 } 693 694 void callSpecialFunction(QualType FT, CharUnits Offset, 695 std::array<Address, 2> Addrs) { 696 Addrs[DstIdx] = getAddrWithOffset(Addrs[DstIdx], Offset); 697 Addrs[SrcIdx] = getAddrWithOffset(Addrs[SrcIdx], Offset); 698 CGF->callCStructCopyConstructor(CGF->MakeAddrLValue(Addrs[DstIdx], FT), 699 CGF->MakeAddrLValue(Addrs[SrcIdx], FT)); 700 } 701 }; 702 703 struct GenMoveConstructor : GenBinaryFunc<GenMoveConstructor, true> { 704 GenMoveConstructor(ASTContext &Ctx) 705 : GenBinaryFunc<GenMoveConstructor, true>(Ctx) {} 706 707 void visitARCStrong(QualType QT, const FieldDecl *FD, 708 CharUnits CurStructOffset, std::array<Address, 2> Addrs) { 709 Addrs[DstIdx] = getAddrWithOffset(Addrs[DstIdx], CurStructOffset, FD); 710 Addrs[SrcIdx] = getAddrWithOffset(Addrs[SrcIdx], CurStructOffset, FD); 711 LValue SrcLV = CGF->MakeAddrLValue(Addrs[SrcIdx], QT); 712 llvm::Value *SrcVal = 713 CGF->EmitLoadOfLValue(SrcLV, SourceLocation()).getScalarVal(); 714 CGF->EmitStoreOfScalar(getNullForVariable(SrcLV.getAddress(*CGF)), SrcLV); 715 CGF->EmitStoreOfScalar(SrcVal, CGF->MakeAddrLValue(Addrs[DstIdx], QT), 716 /* isInitialization */ true); 717 } 718 719 void visitARCWeak(QualType QT, const FieldDecl *FD, CharUnits CurStructOffset, 720 std::array<Address, 2> Addrs) { 721 Addrs[DstIdx] = getAddrWithOffset(Addrs[DstIdx], CurStructOffset, FD); 722 Addrs[SrcIdx] = getAddrWithOffset(Addrs[SrcIdx], CurStructOffset, FD); 723 CGF->EmitARCMoveWeak(Addrs[DstIdx], Addrs[SrcIdx]); 724 } 725 726 void callSpecialFunction(QualType FT, CharUnits Offset, 727 std::array<Address, 2> Addrs) { 728 Addrs[DstIdx] = getAddrWithOffset(Addrs[DstIdx], Offset); 729 Addrs[SrcIdx] = getAddrWithOffset(Addrs[SrcIdx], Offset); 730 CGF->callCStructMoveConstructor(CGF->MakeAddrLValue(Addrs[DstIdx], FT), 731 CGF->MakeAddrLValue(Addrs[SrcIdx], FT)); 732 } 733 }; 734 735 struct GenCopyAssignment : GenBinaryFunc<GenCopyAssignment, false> { 736 GenCopyAssignment(ASTContext &Ctx) 737 : GenBinaryFunc<GenCopyAssignment, false>(Ctx) {} 738 739 void visitARCStrong(QualType QT, const FieldDecl *FD, 740 CharUnits CurStructOffset, std::array<Address, 2> Addrs) { 741 Addrs[DstIdx] = getAddrWithOffset(Addrs[DstIdx], CurStructOffset, FD); 742 Addrs[SrcIdx] = getAddrWithOffset(Addrs[SrcIdx], CurStructOffset, FD); 743 llvm::Value *SrcVal = CGF->EmitLoadOfScalar( 744 Addrs[SrcIdx], QT.isVolatileQualified(), QT, SourceLocation()); 745 CGF->EmitARCStoreStrong(CGF->MakeAddrLValue(Addrs[DstIdx], QT), SrcVal, 746 false); 747 } 748 749 void visitARCWeak(QualType QT, const FieldDecl *FD, CharUnits CurStructOffset, 750 std::array<Address, 2> Addrs) { 751 Addrs[DstIdx] = getAddrWithOffset(Addrs[DstIdx], CurStructOffset, FD); 752 Addrs[SrcIdx] = getAddrWithOffset(Addrs[SrcIdx], CurStructOffset, FD); 753 CGF->emitARCCopyAssignWeak(QT, Addrs[DstIdx], Addrs[SrcIdx]); 754 } 755 756 void callSpecialFunction(QualType FT, CharUnits Offset, 757 std::array<Address, 2> Addrs) { 758 Addrs[DstIdx] = getAddrWithOffset(Addrs[DstIdx], Offset); 759 Addrs[SrcIdx] = getAddrWithOffset(Addrs[SrcIdx], Offset); 760 CGF->callCStructCopyAssignmentOperator( 761 CGF->MakeAddrLValue(Addrs[DstIdx], FT), 762 CGF->MakeAddrLValue(Addrs[SrcIdx], FT)); 763 } 764 }; 765 766 struct GenMoveAssignment : GenBinaryFunc<GenMoveAssignment, true> { 767 GenMoveAssignment(ASTContext &Ctx) 768 : GenBinaryFunc<GenMoveAssignment, true>(Ctx) {} 769 770 void visitARCStrong(QualType QT, const FieldDecl *FD, 771 CharUnits CurStructOffset, std::array<Address, 2> Addrs) { 772 Addrs[DstIdx] = getAddrWithOffset(Addrs[DstIdx], CurStructOffset, FD); 773 Addrs[SrcIdx] = getAddrWithOffset(Addrs[SrcIdx], CurStructOffset, FD); 774 LValue SrcLV = CGF->MakeAddrLValue(Addrs[SrcIdx], QT); 775 llvm::Value *SrcVal = 776 CGF->EmitLoadOfLValue(SrcLV, SourceLocation()).getScalarVal(); 777 CGF->EmitStoreOfScalar(getNullForVariable(SrcLV.getAddress(*CGF)), SrcLV); 778 LValue DstLV = CGF->MakeAddrLValue(Addrs[DstIdx], QT); 779 llvm::Value *DstVal = 780 CGF->EmitLoadOfLValue(DstLV, SourceLocation()).getScalarVal(); 781 CGF->EmitStoreOfScalar(SrcVal, DstLV); 782 CGF->EmitARCRelease(DstVal, ARCImpreciseLifetime); 783 } 784 785 void visitARCWeak(QualType QT, const FieldDecl *FD, CharUnits CurStructOffset, 786 std::array<Address, 2> Addrs) { 787 Addrs[DstIdx] = getAddrWithOffset(Addrs[DstIdx], CurStructOffset, FD); 788 Addrs[SrcIdx] = getAddrWithOffset(Addrs[SrcIdx], CurStructOffset, FD); 789 CGF->emitARCMoveAssignWeak(QT, Addrs[DstIdx], Addrs[SrcIdx]); 790 } 791 792 void callSpecialFunction(QualType FT, CharUnits Offset, 793 std::array<Address, 2> Addrs) { 794 Addrs[DstIdx] = getAddrWithOffset(Addrs[DstIdx], Offset); 795 Addrs[SrcIdx] = getAddrWithOffset(Addrs[SrcIdx], Offset); 796 CGF->callCStructMoveAssignmentOperator( 797 CGF->MakeAddrLValue(Addrs[DstIdx], FT), 798 CGF->MakeAddrLValue(Addrs[SrcIdx], FT)); 799 } 800 }; 801 802 } // namespace 803 804 void CodeGenFunction::destroyNonTrivialCStruct(CodeGenFunction &CGF, 805 Address Addr, QualType Type) { 806 CGF.callCStructDestructor(CGF.MakeAddrLValue(Addr, Type)); 807 } 808 809 // Default-initialize a variable that is a non-trivial struct or an array of 810 // such structure. 811 void CodeGenFunction::defaultInitNonTrivialCStructVar(LValue Dst) { 812 GenDefaultInitialize Gen(getContext()); 813 Address DstPtr = Dst.getAddress(*this).withElementType(CGM.Int8PtrTy); 814 Gen.setCGF(this); 815 QualType QT = Dst.getType(); 816 QT = Dst.isVolatile() ? QT.withVolatile() : QT; 817 Gen.visit(QT, nullptr, CharUnits::Zero(), std::array<Address, 1>({{DstPtr}})); 818 } 819 820 template <class G, size_t N> 821 static void callSpecialFunction(G &&Gen, StringRef FuncName, QualType QT, 822 bool IsVolatile, CodeGenFunction &CGF, 823 std::array<Address, N> Addrs) { 824 auto SetArtificialLoc = ApplyDebugLocation::CreateArtificial(CGF); 825 for (unsigned I = 0; I < N; ++I) 826 Addrs[I] = Addrs[I].withElementType(CGF.CGM.Int8PtrTy); 827 QT = IsVolatile ? QT.withVolatile() : QT; 828 Gen.callFunc(FuncName, QT, Addrs, CGF); 829 } 830 831 template <class G, size_t N> 832 static llvm::Function * 833 getSpecialFunction(G &&Gen, StringRef FuncName, QualType QT, bool IsVolatile, 834 std::array<CharUnits, N> Alignments, CodeGenModule &CGM) { 835 QT = IsVolatile ? QT.withVolatile() : QT; 836 // The following call requires an array of addresses as arguments, but doesn't 837 // actually use them (it overwrites them with the addresses of the arguments 838 // of the created function). 839 return Gen.getFunction(FuncName, QT, Alignments, CGM); 840 } 841 842 // Functions to emit calls to the special functions of a non-trivial C struct. 843 void CodeGenFunction::callCStructDefaultConstructor(LValue Dst) { 844 bool IsVolatile = Dst.isVolatile(); 845 Address DstPtr = Dst.getAddress(*this); 846 QualType QT = Dst.getType(); 847 GenDefaultInitializeFuncName GenName(DstPtr.getAlignment(), getContext()); 848 std::string FuncName = GenName.getName(QT, IsVolatile); 849 callSpecialFunction(GenDefaultInitialize(getContext()), FuncName, QT, 850 IsVolatile, *this, std::array<Address, 1>({{DstPtr}})); 851 } 852 853 std::string CodeGenFunction::getNonTrivialCopyConstructorStr( 854 QualType QT, CharUnits Alignment, bool IsVolatile, ASTContext &Ctx) { 855 GenBinaryFuncName<false> GenName("", Alignment, Alignment, Ctx); 856 return GenName.getName(QT, IsVolatile); 857 } 858 859 std::string CodeGenFunction::getNonTrivialDestructorStr(QualType QT, 860 CharUnits Alignment, 861 bool IsVolatile, 862 ASTContext &Ctx) { 863 GenDestructorFuncName GenName("", Alignment, Ctx); 864 return GenName.getName(QT, IsVolatile); 865 } 866 867 void CodeGenFunction::callCStructDestructor(LValue Dst) { 868 bool IsVolatile = Dst.isVolatile(); 869 Address DstPtr = Dst.getAddress(*this); 870 QualType QT = Dst.getType(); 871 GenDestructorFuncName GenName("__destructor_", DstPtr.getAlignment(), 872 getContext()); 873 std::string FuncName = GenName.getName(QT, IsVolatile); 874 callSpecialFunction(GenDestructor(getContext()), FuncName, QT, IsVolatile, 875 *this, std::array<Address, 1>({{DstPtr}})); 876 } 877 878 void CodeGenFunction::callCStructCopyConstructor(LValue Dst, LValue Src) { 879 bool IsVolatile = Dst.isVolatile() || Src.isVolatile(); 880 Address DstPtr = Dst.getAddress(*this), SrcPtr = Src.getAddress(*this); 881 QualType QT = Dst.getType(); 882 GenBinaryFuncName<false> GenName("__copy_constructor_", DstPtr.getAlignment(), 883 SrcPtr.getAlignment(), getContext()); 884 std::string FuncName = GenName.getName(QT, IsVolatile); 885 callSpecialFunction(GenCopyConstructor(getContext()), FuncName, QT, 886 IsVolatile, *this, 887 std::array<Address, 2>({{DstPtr, SrcPtr}})); 888 } 889 890 void CodeGenFunction::callCStructCopyAssignmentOperator(LValue Dst, LValue Src 891 892 ) { 893 bool IsVolatile = Dst.isVolatile() || Src.isVolatile(); 894 Address DstPtr = Dst.getAddress(*this), SrcPtr = Src.getAddress(*this); 895 QualType QT = Dst.getType(); 896 GenBinaryFuncName<false> GenName("__copy_assignment_", DstPtr.getAlignment(), 897 SrcPtr.getAlignment(), getContext()); 898 std::string FuncName = GenName.getName(QT, IsVolatile); 899 callSpecialFunction(GenCopyAssignment(getContext()), FuncName, QT, IsVolatile, 900 *this, std::array<Address, 2>({{DstPtr, SrcPtr}})); 901 } 902 903 void CodeGenFunction::callCStructMoveConstructor(LValue Dst, LValue Src) { 904 bool IsVolatile = Dst.isVolatile() || Src.isVolatile(); 905 Address DstPtr = Dst.getAddress(*this), SrcPtr = Src.getAddress(*this); 906 QualType QT = Dst.getType(); 907 GenBinaryFuncName<true> GenName("__move_constructor_", DstPtr.getAlignment(), 908 SrcPtr.getAlignment(), getContext()); 909 std::string FuncName = GenName.getName(QT, IsVolatile); 910 callSpecialFunction(GenMoveConstructor(getContext()), FuncName, QT, 911 IsVolatile, *this, 912 std::array<Address, 2>({{DstPtr, SrcPtr}})); 913 } 914 915 void CodeGenFunction::callCStructMoveAssignmentOperator(LValue Dst, LValue Src 916 917 ) { 918 bool IsVolatile = Dst.isVolatile() || Src.isVolatile(); 919 Address DstPtr = Dst.getAddress(*this), SrcPtr = Src.getAddress(*this); 920 QualType QT = Dst.getType(); 921 GenBinaryFuncName<true> GenName("__move_assignment_", DstPtr.getAlignment(), 922 SrcPtr.getAlignment(), getContext()); 923 std::string FuncName = GenName.getName(QT, IsVolatile); 924 callSpecialFunction(GenMoveAssignment(getContext()), FuncName, QT, IsVolatile, 925 *this, std::array<Address, 2>({{DstPtr, SrcPtr}})); 926 } 927 928 llvm::Function *clang::CodeGen::getNonTrivialCStructDefaultConstructor( 929 CodeGenModule &CGM, CharUnits DstAlignment, bool IsVolatile, QualType QT) { 930 ASTContext &Ctx = CGM.getContext(); 931 GenDefaultInitializeFuncName GenName(DstAlignment, Ctx); 932 std::string FuncName = GenName.getName(QT, IsVolatile); 933 return getSpecialFunction(GenDefaultInitialize(Ctx), FuncName, QT, IsVolatile, 934 std::array<CharUnits, 1>({{DstAlignment}}), CGM); 935 } 936 937 llvm::Function *clang::CodeGen::getNonTrivialCStructCopyConstructor( 938 CodeGenModule &CGM, CharUnits DstAlignment, CharUnits SrcAlignment, 939 bool IsVolatile, QualType QT) { 940 ASTContext &Ctx = CGM.getContext(); 941 GenBinaryFuncName<false> GenName("__copy_constructor_", DstAlignment, 942 SrcAlignment, Ctx); 943 std::string FuncName = GenName.getName(QT, IsVolatile); 944 return getSpecialFunction( 945 GenCopyConstructor(Ctx), FuncName, QT, IsVolatile, 946 std::array<CharUnits, 2>({{DstAlignment, SrcAlignment}}), CGM); 947 } 948 949 llvm::Function *clang::CodeGen::getNonTrivialCStructMoveConstructor( 950 CodeGenModule &CGM, CharUnits DstAlignment, CharUnits SrcAlignment, 951 bool IsVolatile, QualType QT) { 952 ASTContext &Ctx = CGM.getContext(); 953 GenBinaryFuncName<true> GenName("__move_constructor_", DstAlignment, 954 SrcAlignment, Ctx); 955 std::string FuncName = GenName.getName(QT, IsVolatile); 956 return getSpecialFunction( 957 GenMoveConstructor(Ctx), FuncName, QT, IsVolatile, 958 std::array<CharUnits, 2>({{DstAlignment, SrcAlignment}}), CGM); 959 } 960 961 llvm::Function *clang::CodeGen::getNonTrivialCStructCopyAssignmentOperator( 962 CodeGenModule &CGM, CharUnits DstAlignment, CharUnits SrcAlignment, 963 bool IsVolatile, QualType QT) { 964 ASTContext &Ctx = CGM.getContext(); 965 GenBinaryFuncName<false> GenName("__copy_assignment_", DstAlignment, 966 SrcAlignment, Ctx); 967 std::string FuncName = GenName.getName(QT, IsVolatile); 968 return getSpecialFunction( 969 GenCopyAssignment(Ctx), FuncName, QT, IsVolatile, 970 std::array<CharUnits, 2>({{DstAlignment, SrcAlignment}}), CGM); 971 } 972 973 llvm::Function *clang::CodeGen::getNonTrivialCStructMoveAssignmentOperator( 974 CodeGenModule &CGM, CharUnits DstAlignment, CharUnits SrcAlignment, 975 bool IsVolatile, QualType QT) { 976 ASTContext &Ctx = CGM.getContext(); 977 GenBinaryFuncName<true> GenName("__move_assignment_", DstAlignment, 978 SrcAlignment, Ctx); 979 std::string FuncName = GenName.getName(QT, IsVolatile); 980 return getSpecialFunction( 981 GenMoveAssignment(Ctx), FuncName, QT, IsVolatile, 982 std::array<CharUnits, 2>({{DstAlignment, SrcAlignment}}), CGM); 983 } 984 985 llvm::Function *clang::CodeGen::getNonTrivialCStructDestructor( 986 CodeGenModule &CGM, CharUnits DstAlignment, bool IsVolatile, QualType QT) { 987 ASTContext &Ctx = CGM.getContext(); 988 GenDestructorFuncName GenName("__destructor_", DstAlignment, Ctx); 989 std::string FuncName = GenName.getName(QT, IsVolatile); 990 return getSpecialFunction(GenDestructor(Ctx), FuncName, QT, IsVolatile, 991 std::array<CharUnits, 1>({{DstAlignment}}), CGM); 992 } 993