doxygen/ASTReaderStmt_8cpp_source.html

//===- ASTReaderStmt.cpp - Stmt/Expr Deserialization ----------------------===//

//

// 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

//

//===----------------------------------------------------------------------===//

//

// Statement/expression deserialization.  This implements the

// ASTReader::ReadStmt method.

//

//===----------------------------------------------------------------------===//


#include "clang/AST/ASTConcept.h"

#include "clang/AST/ASTContext.h"

#include "clang/AST/AttrIterator.h"

#include "clang/AST/Decl.h"

#include "clang/AST/DeclAccessPair.h"

#include "clang/AST/DeclCXX.h"

#include "clang/AST/DeclGroup.h"

#include "clang/AST/DeclObjC.h"

#include "clang/AST/DeclTemplate.h"

#include "clang/AST/DeclarationName.h"

#include "clang/AST/DependenceFlags.h"

#include "clang/AST/Expr.h"

#include "clang/AST/ExprCXX.h"

#include "clang/AST/ExprObjC.h"

#include "clang/AST/ExprOpenMP.h"

#include "clang/AST/NestedNameSpecifier.h"

#include "clang/AST/OpenMPClause.h"

#include "clang/AST/OperationKinds.h"

#include "clang/AST/Stmt.h"

#include "clang/AST/StmtCXX.h"

#include "clang/AST/StmtObjC.h"

#include "clang/AST/StmtOpenMP.h"

#include "clang/AST/StmtVisitor.h"

#include "clang/AST/TemplateBase.h"

#include "clang/AST/Type.h"

#include "clang/AST/UnresolvedSet.h"

#include "clang/Basic/CapturedStmt.h"

#include "clang/Basic/ExpressionTraits.h"

#include "clang/Basic/LLVM.h"

#include "clang/Basic/Lambda.h"

#include "clang/Basic/LangOptions.h"

#include "clang/Basic/OpenMPKinds.h"

#include "clang/Basic/OperatorKinds.h"

#include "clang/Basic/SourceLocation.h"

#include "clang/Basic/Specifiers.h"

#include "clang/Basic/TypeTraits.h"

#include "clang/Lex/Token.h"

#include "clang/Serialization/ASTBitCodes.h"

#include "clang/Serialization/ASTRecordReader.h"

#include "llvm/ADT/BitmaskEnum.h"

#include "llvm/ADT/DenseMap.h"

#include "llvm/ADT/SmallString.h"

#include "llvm/ADT/SmallVector.h"

#include "llvm/ADT/StringRef.h"

#include "llvm/Bitstream/BitstreamReader.h"

#include "llvm/Support/Casting.h"

#include "llvm/Support/ErrorHandling.h"

#include <algorithm>

#include <cassert>

#include <cstdint>

#include <optional>

#include <string>


using namespace clang;

using namespace serialization;


namespace clang {


  class ASTStmtReader : public StmtVisitor<ASTStmtReader> {

    ASTRecordReader &Record;

    llvm::BitstreamCursor &DeclsCursor;


    std::optional<BitsUnpacker> CurrentUnpackingBits;


    SourceLocation readSourceLocation() {

      return Record.readSourceLocation();

    }


    SourceRange readSourceRange() {

      return Record.readSourceRange();

    }


    std::string readString() {

      return Record.readString();

    }


    TypeSourceInfo *readTypeSourceInfo() {

      return Record.readTypeSourceInfo();

    }


    Decl *readDecl() {

      return Record.readDecl();

    }


    template<typename T>

    T *readDeclAs() {

      return Record.readDeclAs<T>();

    }


  public:

    ASTStmtReader(ASTRecordReader &Record, llvm::BitstreamCursor &Cursor)

        : Record(Record), DeclsCursor(Cursor) {}


    /// The number of record fields required for the Stmt class

    /// itself.

    static const unsigned NumStmtFields = 0;


    /// The number of record fields required for the Expr class

    /// itself.

    static const unsigned NumExprFields = NumStmtFields + 2;


    /// The number of bits required for the packing bits for the Expr class.

    static const unsigned NumExprBits = 10;


    /// Read and initialize a ExplicitTemplateArgumentList structure.

    void ReadTemplateKWAndArgsInfo(ASTTemplateKWAndArgsInfo &Args,

                                   TemplateArgumentLoc *ArgsLocArray,

                                   unsigned NumTemplateArgs);


    void VisitStmt(Stmt *S);

#define STMT(Type, Base) \

    void Visit##Type(Type *);

#include "clang/AST/StmtNodes.inc"

  };


} // namespace clang


void ASTStmtReader::ReadTemplateKWAndArgsInfo(ASTTemplateKWAndArgsInfo &Args,

                                              TemplateArgumentLoc *ArgsLocArray,

                                              unsigned NumTemplateArgs) {

  SourceLocation TemplateKWLoc = readSourceLocation();

  TemplateArgumentListInfo ArgInfo;

  ArgInfo.setLAngleLoc(readSourceLocation());

  ArgInfo.setRAngleLoc(readSourceLocation());

  for (unsigned i = 0; i != NumTemplateArgs; ++i)

    ArgInfo.addArgument(Record.readTemplateArgumentLoc());

  Args.initializeFrom(TemplateKWLoc, ArgInfo, ArgsLocArray);

}


void ASTStmtReader::VisitStmt(Stmt *S) {

  assert(Record.getIdx() == NumStmtFields && "Incorrect statement field count");

}


void ASTStmtReader::VisitNullStmt(NullStmt *S) {

  VisitStmt(S);

  S->setSemiLoc(readSourceLocation());

  S->NullStmtBits.HasLeadingEmptyMacro = Record.readInt();

}


void ASTStmtReader::VisitCompoundStmt(CompoundStmt *S) {

  VisitStmt(S);

  SmallVector<Stmt *, 16> Stmts;

  unsigned NumStmts = Record.readInt();

  unsigned HasFPFeatures = Record.readInt();

  assert(S->hasStoredFPFeatures() == HasFPFeatures);

  while (NumStmts--)

    Stmts.push_back(Record.readSubStmt());

  S->setStmts(Stmts);

  if (HasFPFeatures)

    S->setStoredFPFeatures(

        FPOptionsOverride::getFromOpaqueInt(Record.readInt()));

  S->LBraceLoc = readSourceLocation();

  S->RBraceLoc = readSourceLocation();

}


void ASTStmtReader::VisitSwitchCase(SwitchCase *S) {

  VisitStmt(S);

  Record.recordSwitchCaseID(S, Record.readInt());

  S->setKeywordLoc(readSourceLocation());

  S->setColonLoc(readSourceLocation());

}


void ASTStmtReader::VisitCaseStmt(CaseStmt *S) {

  VisitSwitchCase(S);

  bool CaseStmtIsGNURange = Record.readInt();

  S->setLHS(Record.readSubExpr());

  S->setSubStmt(Record.readSubStmt());

  if (CaseStmtIsGNURange) {

    S->setRHS(Record.readSubExpr());

    S->setEllipsisLoc(readSourceLocation());

  }

}


void ASTStmtReader::VisitDefaultStmt(DefaultStmt *S) {

  VisitSwitchCase(S);

  S->setSubStmt(Record.readSubStmt());

}


void ASTStmtReader::VisitLabelStmt(LabelStmt *S) {

  VisitStmt(S);

  bool IsSideEntry = Record.readInt();

  auto *LD = readDeclAs<LabelDecl>();

  LD->setStmt(S);

  S->setDecl(LD);

  S->setSubStmt(Record.readSubStmt());

  S->setIdentLoc(readSourceLocation());

  S->setSideEntry(IsSideEntry);

}


void ASTStmtReader::VisitAttributedStmt(AttributedStmt *S) {

  VisitStmt(S);

  // NumAttrs in AttributedStmt is set when creating an empty

  // AttributedStmt in AttributedStmt::CreateEmpty, since it is needed

  // to allocate the right amount of space for the trailing Attr *.

  uint64_t NumAttrs = Record.readInt();

  AttrVec Attrs;

  Record.readAttributes(Attrs);

  (void)NumAttrs;

  assert(NumAttrs == S->AttributedStmtBits.NumAttrs);

  assert(NumAttrs == Attrs.size());

  std::copy(Attrs.begin(), Attrs.end(), S->getAttrArrayPtr());

  S->SubStmt = Record.readSubStmt();

  S->AttributedStmtBits.AttrLoc = readSourceLocation();

}


void ASTStmtReader::VisitIfStmt(IfStmt *S) {

  VisitStmt(S);


  CurrentUnpackingBits.emplace(Record.readInt());


  bool HasElse = CurrentUnpackingBits->getNextBit();

  bool HasVar = CurrentUnpackingBits->getNextBit();

  bool HasInit = CurrentUnpackingBits->getNextBit();


  S->setStatementKind(static_cast<IfStatementKind>(Record.readInt()));

  S->setCond(Record.readSubExpr());

  S->setThen(Record.readSubStmt());

  if (HasElse)

    S->setElse(Record.readSubStmt());

  if (HasVar)

    S->setConditionVariableDeclStmt(cast<DeclStmt>(Record.readSubStmt()));

  if (HasInit)

    S->setInit(Record.readSubStmt());


  S->setIfLoc(readSourceLocation());

  S->setLParenLoc(readSourceLocation());

  S->setRParenLoc(readSourceLocation());

  if (HasElse)

    S->setElseLoc(readSourceLocation());

}


void ASTStmtReader::VisitSwitchStmt(SwitchStmt *S) {

  VisitStmt(S);


  bool HasInit = Record.readInt();

  bool HasVar = Record.readInt();

  bool AllEnumCasesCovered = Record.readInt();

  if (AllEnumCasesCovered)

    S->setAllEnumCasesCovered();


  S->setCond(Record.readSubExpr());

  S->setBody(Record.readSubStmt());

  if (HasInit)

    S->setInit(Record.readSubStmt());

  if (HasVar)

    S->setConditionVariableDeclStmt(cast<DeclStmt>(Record.readSubStmt()));


  S->setSwitchLoc(readSourceLocation());

  S->setLParenLoc(readSourceLocation());

  S->setRParenLoc(readSourceLocation());


  SwitchCase *PrevSC = nullptr;

  for (auto E = Record.size(); Record.getIdx() != E; ) {

    SwitchCase *SC = Record.getSwitchCaseWithID(Record.readInt());

    if (PrevSC)

      PrevSC->setNextSwitchCase(SC);

    else

      S->setSwitchCaseList(SC);


    PrevSC = SC;

  }

}


void ASTStmtReader::VisitWhileStmt(WhileStmt *S) {

  VisitStmt(S);


  bool HasVar = Record.readInt();


  S->setCond(Record.readSubExpr());

  S->setBody(Record.readSubStmt());

  if (HasVar)

    S->setConditionVariableDeclStmt(cast<DeclStmt>(Record.readSubStmt()));


  S->setWhileLoc(readSourceLocation());

  S->setLParenLoc(readSourceLocation());

  S->setRParenLoc(readSourceLocation());

}


void ASTStmtReader::VisitDoStmt(DoStmt *S) {

  VisitStmt(S);

  S->setCond(Record.readSubExpr());

  S->setBody(Record.readSubStmt());

  S->setDoLoc(readSourceLocation());

  S->setWhileLoc(readSourceLocation());

  S->setRParenLoc(readSourceLocation());

}


void ASTStmtReader::VisitForStmt(ForStmt *S) {

  VisitStmt(S);

  S->setInit(Record.readSubStmt());

  S->setCond(Record.readSubExpr());

  S->setConditionVariableDeclStmt(cast_or_null<DeclStmt>(Record.readSubStmt()));

  S->setInc(Record.readSubExpr());

  S->setBody(Record.readSubStmt());

  S->setForLoc(readSourceLocation());

  S->setLParenLoc(readSourceLocation());

  S->setRParenLoc(readSourceLocation());

}


void ASTStmtReader::VisitGotoStmt(GotoStmt *S) {

  VisitStmt(S);

  S->setLabel(readDeclAs<LabelDecl>());

  S->setGotoLoc(readSourceLocation());

  S->setLabelLoc(readSourceLocation());

}


void ASTStmtReader::VisitIndirectGotoStmt(IndirectGotoStmt *S) {

  VisitStmt(S);

  S->setGotoLoc(readSourceLocation());

  S->setStarLoc(readSourceLocation());

  S->setTarget(Record.readSubExpr());

}


void ASTStmtReader::VisitContinueStmt(ContinueStmt *S) {

  VisitStmt(S);

  S->setContinueLoc(readSourceLocation());

}


void ASTStmtReader::VisitBreakStmt(BreakStmt *S) {

  VisitStmt(S);

  S->setBreakLoc(readSourceLocation());

}


void ASTStmtReader::VisitReturnStmt(ReturnStmt *S) {

  VisitStmt(S);


  bool HasNRVOCandidate = Record.readInt();


  S->setRetValue(Record.readSubExpr());

  if (HasNRVOCandidate)

    S->setNRVOCandidate(readDeclAs<VarDecl>());


  S->setReturnLoc(readSourceLocation());

}


void ASTStmtReader::VisitDeclStmt(DeclStmt *S) {

  VisitStmt(S);

  S->setStartLoc(readSourceLocation());

  S->setEndLoc(readSourceLocation());


  if (Record.size() - Record.getIdx() == 1) {

    // Single declaration

    S->setDeclGroup(DeclGroupRef(readDecl()));

  } else {

    SmallVector<Decl *, 16> Decls;

    int N = Record.size() - Record.getIdx();

    Decls.reserve(N);

    for (int I = 0; I < N; ++I)

      Decls.push_back(readDecl());

    S->setDeclGroup(DeclGroupRef(DeclGroup::Create(Record.getContext(),

                                                   Decls.data(),

                                                   Decls.size())));

  }

}


void ASTStmtReader::VisitAsmStmt(AsmStmt *S) {

  VisitStmt(S);

  S->NumOutputs = Record.readInt();

  S->NumInputs = Record.readInt();

  S->NumClobbers = Record.readInt();

  S->setAsmLoc(readSourceLocation());

  S->setVolatile(Record.readInt());

  S->setSimple(Record.readInt());

}


void ASTStmtReader::VisitGCCAsmStmt(GCCAsmStmt *S) {

  VisitAsmStmt(S);

  S->NumLabels = Record.readInt();

  S->setRParenLoc(readSourceLocation());

  S->setAsmString(cast_or_null<StringLiteral>(Record.readSubStmt()));


  unsigned NumOutputs = S->getNumOutputs();

  unsigned NumInputs = S->getNumInputs();

  unsigned NumClobbers = S->getNumClobbers();

  unsigned NumLabels = S->getNumLabels();


  // Outputs and inputs

  SmallVector<IdentifierInfo *, 16> Names;

  SmallVector<StringLiteral*, 16> Constraints;

  SmallVector<Stmt*, 16> Exprs;

  for (unsigned I = 0, N = NumOutputs + NumInputs; I != N; ++I) {

    Names.push_back(Record.readIdentifier());

    Constraints.push_back(cast_or_null<StringLiteral>(Record.readSubStmt()));

    Exprs.push_back(Record.readSubStmt());

  }


  // Constraints

  SmallVector<StringLiteral*, 16> Clobbers;

  for (unsigned I = 0; I != NumClobbers; ++I)

    Clobbers.push_back(cast_or_null<StringLiteral>(Record.readSubStmt()));


  // Labels

  for (unsigned I = 0, N = NumLabels; I != N; ++I) {

    Names.push_back(Record.readIdentifier());

    Exprs.push_back(Record.readSubStmt());

  }


  S->setOutputsAndInputsAndClobbers(Record.getContext(),

                                    Names.data(), Constraints.data(),

                                    Exprs.data(), NumOutputs, NumInputs,

                                    NumLabels,

                                    Clobbers.data(), NumClobbers);

}


void ASTStmtReader::VisitMSAsmStmt(MSAsmStmt *S) {

  VisitAsmStmt(S);

  S->LBraceLoc = readSourceLocation();

  S->EndLoc = readSourceLocation();

  S->NumAsmToks = Record.readInt();

  std::string AsmStr = readString();


  // Read the tokens.

  SmallVector<Token, 16> AsmToks;

  AsmToks.reserve(S->NumAsmToks);

  for (unsigned i = 0, e = S->NumAsmToks; i != e; ++i) {

    AsmToks.push_back(Record.readToken());

  }


  // The calls to reserve() for the FooData vectors are mandatory to

  // prevent dead StringRefs in the Foo vectors.


  // Read the clobbers.

  SmallVector<std::string, 16> ClobbersData;

  SmallVector<StringRef, 16> Clobbers;

  ClobbersData.reserve(S->NumClobbers);

  Clobbers.reserve(S->NumClobbers);

  for (unsigned i = 0, e = S->NumClobbers; i != e; ++i) {

    ClobbersData.push_back(readString());

    Clobbers.push_back(ClobbersData.back());

  }


  // Read the operands.

  unsigned NumOperands = S->NumOutputs + S->NumInputs;

  SmallVector<Expr*, 16> Exprs;

  SmallVector<std::string, 16> ConstraintsData;

  SmallVector<StringRef, 16> Constraints;

  Exprs.reserve(NumOperands);

  ConstraintsData.reserve(NumOperands);

  Constraints.reserve(NumOperands);

  for (unsigned i = 0; i != NumOperands; ++i) {

    Exprs.push_back(cast<Expr>(Record.readSubStmt()));

    ConstraintsData.push_back(readString());

    Constraints.push_back(ConstraintsData.back());

  }


  S->initialize(Record.getContext(), AsmStr, AsmToks,

                Constraints, Exprs, Clobbers);

}


void ASTStmtReader::VisitCoroutineBodyStmt(CoroutineBodyStmt *S) {

  VisitStmt(S);

  assert(Record.peekInt() == S->NumParams);

  Record.skipInts(1);

  auto *StoredStmts = S->getStoredStmts();

  for (unsigned i = 0;

       i < CoroutineBodyStmt::SubStmt::FirstParamMove + S->NumParams; ++i)

    StoredStmts[i] = Record.readSubStmt();

}


void ASTStmtReader::VisitCoreturnStmt(CoreturnStmt *S) {

  VisitStmt(S);

  S->CoreturnLoc = Record.readSourceLocation();

  for (auto &SubStmt: S->SubStmts)

    SubStmt = Record.readSubStmt();

  S->IsImplicit = Record.readInt() != 0;

}


void ASTStmtReader::VisitCoawaitExpr(CoawaitExpr *E) {

  VisitExpr(E);

  E->KeywordLoc = readSourceLocation();

  for (auto &SubExpr: E->SubExprs)

    SubExpr = Record.readSubStmt();

  E->OpaqueValue = cast_or_null<OpaqueValueExpr>(Record.readSubStmt());

  E->setIsImplicit(Record.readInt() != 0);

}


void ASTStmtReader::VisitCoyieldExpr(CoyieldExpr *E) {

  VisitExpr(E);

  E->KeywordLoc = readSourceLocation();

  for (auto &SubExpr: E->SubExprs)

    SubExpr = Record.readSubStmt();

  E->OpaqueValue = cast_or_null<OpaqueValueExpr>(Record.readSubStmt());

}


void ASTStmtReader::VisitDependentCoawaitExpr(DependentCoawaitExpr *E) {

  VisitExpr(E);

  E->KeywordLoc = readSourceLocation();

  for (auto &SubExpr: E->SubExprs)

    SubExpr = Record.readSubStmt();

}


void ASTStmtReader::VisitCapturedStmt(CapturedStmt *S) {

  VisitStmt(S);

  Record.skipInts(1);

  S->setCapturedDecl(readDeclAs<CapturedDecl>());

  S->setCapturedRegionKind(static_cast<CapturedRegionKind>(Record.readInt()));

  S->setCapturedRecordDecl(readDeclAs<RecordDecl>());


  // Capture inits

  for (CapturedStmt::capture_init_iterator I = S->capture_init_begin(),

                                           E = S->capture_init_end();

       I != E; ++I)

    *I = Record.readSubExpr();


  // Body

  S->setCapturedStmt(Record.readSubStmt());

  S->getCapturedDecl()->setBody(S->getCapturedStmt());


  // Captures

  for (auto &I : S->captures()) {

    I.VarAndKind.setPointer(readDeclAs<VarDecl>());

    I.VarAndKind.setInt(

        static_cast<CapturedStmt::VariableCaptureKind>(Record.readInt()));

    I.Loc = readSourceLocation();

  }

}


void ASTStmtReader::VisitExpr(Expr *E) {

  VisitStmt(E);

  CurrentUnpackingBits.emplace(Record.readInt());

  E->setDependence(static_cast<ExprDependence>(

      CurrentUnpackingBits->getNextBits(/*Width=*/5)));

  E->setValueKind(static_cast<ExprValueKind>(

      CurrentUnpackingBits->getNextBits(/*Width=*/2)));

  E->setObjectKind(static_cast<ExprObjectKind>(

      CurrentUnpackingBits->getNextBits(/*Width=*/3)));


  E->setType(Record.readType());

  assert(Record.getIdx() == NumExprFields &&

         "Incorrect expression field count");

}


void ASTStmtReader::VisitConstantExpr(ConstantExpr *E) {

  VisitExpr(E);


  auto StorageKind = static_cast<ConstantResultStorageKind>(Record.readInt());

  assert(E->getResultStorageKind() == StorageKind && "Wrong ResultKind!");


  E->ConstantExprBits.APValueKind = Record.readInt();

  E->ConstantExprBits.IsUnsigned = Record.readInt();

  E->ConstantExprBits.BitWidth = Record.readInt();

  E->ConstantExprBits.HasCleanup = false; // Not serialized, see below.

  E->ConstantExprBits.IsImmediateInvocation = Record.readInt();


  switch (StorageKind) {

  case ConstantResultStorageKind::None:

    break;


  case ConstantResultStorageKind::Int64:

    E->Int64Result() = Record.readInt();

    break;


  case ConstantResultStorageKind::APValue:

    E->APValueResult() = Record.readAPValue();

    if (E->APValueResult().needsCleanup()) {

      E->ConstantExprBits.HasCleanup = true;

      Record.getContext().addDestruction(&E->APValueResult());

    }

    break;

  }


  E->setSubExpr(Record.readSubExpr());

}


void ASTStmtReader::VisitSYCLUniqueStableNameExpr(SYCLUniqueStableNameExpr *E) {

  VisitExpr(E);


  E->setLocation(readSourceLocation());

  E->setLParenLocation(readSourceLocation());

  E->setRParenLocation(readSourceLocation());


  E->setTypeSourceInfo(Record.readTypeSourceInfo());

}


void ASTStmtReader::VisitPredefinedExpr(PredefinedExpr *E) {

  VisitExpr(E);

  bool HasFunctionName = Record.readInt();

  E->PredefinedExprBits.HasFunctionName = HasFunctionName;

  E->PredefinedExprBits.Kind = Record.readInt();

  E->PredefinedExprBits.IsTransparent = Record.readInt();

  E->setLocation(readSourceLocation());

  if (HasFunctionName)

    E->setFunctionName(cast<StringLiteral>(Record.readSubExpr()));

}


void ASTStmtReader::VisitDeclRefExpr(DeclRefExpr *E) {

  VisitExpr(E);


  CurrentUnpackingBits.emplace(Record.readInt());

  E->DeclRefExprBits.HadMultipleCandidates = CurrentUnpackingBits->getNextBit();

  E->DeclRefExprBits.RefersToEnclosingVariableOrCapture =

      CurrentUnpackingBits->getNextBit();

  E->DeclRefExprBits.NonOdrUseReason =

      CurrentUnpackingBits->getNextBits(/*Width=*/2);

  E->DeclRefExprBits.IsImmediateEscalating = CurrentUnpackingBits->getNextBit();

  E->DeclRefExprBits.HasFoundDecl = CurrentUnpackingBits->getNextBit();

  E->DeclRefExprBits.HasQualifier = CurrentUnpackingBits->getNextBit();

  E->DeclRefExprBits.HasTemplateKWAndArgsInfo =

      CurrentUnpackingBits->getNextBit();

  E->DeclRefExprBits.CapturedByCopyInLambdaWithExplicitObjectParameter = false;

  unsigned NumTemplateArgs = 0;

  if (E->hasTemplateKWAndArgsInfo())

    NumTemplateArgs = Record.readInt();


  if (E->hasQualifier())

    new (E->getTrailingObjects<NestedNameSpecifierLoc>())

        NestedNameSpecifierLoc(Record.readNestedNameSpecifierLoc());


  if (E->hasFoundDecl())

    *E->getTrailingObjects<NamedDecl *>() = readDeclAs<NamedDecl>();


  if (E->hasTemplateKWAndArgsInfo())

    ReadTemplateKWAndArgsInfo(

        *E->getTrailingObjects<ASTTemplateKWAndArgsInfo>(),

        E->getTrailingObjects<TemplateArgumentLoc>(), NumTemplateArgs);


  E->D = readDeclAs<ValueDecl>();

  E->setLocation(readSourceLocation());

  E->DNLoc = Record.readDeclarationNameLoc(E->getDecl()->getDeclName());

}


void ASTStmtReader::VisitIntegerLiteral(IntegerLiteral *E) {

  VisitExpr(E);

  E->setLocation(readSourceLocation());

  E->setValue(Record.getContext(), Record.readAPInt());

}


void ASTStmtReader::VisitFixedPointLiteral(FixedPointLiteral *E) {

  VisitExpr(E);

  E->setLocation(readSourceLocation());

  E->setScale(Record.readInt());

  E->setValue(Record.getContext(), Record.readAPInt());

}


void ASTStmtReader::VisitFloatingLiteral(FloatingLiteral *E) {

  VisitExpr(E);

  E->setRawSemantics(

      static_cast<llvm::APFloatBase::Semantics>(Record.readInt()));

  E->setExact(Record.readInt());

  E->setValue(Record.getContext(), Record.readAPFloat(E->getSemantics()));

  E->setLocation(readSourceLocation());

}


void ASTStmtReader::VisitImaginaryLiteral(ImaginaryLiteral *E) {

  VisitExpr(E);

  E->setSubExpr(Record.readSubExpr());

}


void ASTStmtReader::VisitStringLiteral(StringLiteral *E) {

  VisitExpr(E);


  // NumConcatenated, Length and CharByteWidth are set by the empty

  // ctor since they are needed to allocate storage for the trailing objects.

  unsigned NumConcatenated = Record.readInt();

  unsigned Length = Record.readInt();

  unsigned CharByteWidth = Record.readInt();

  assert((NumConcatenated == E->getNumConcatenated()) &&

         "Wrong number of concatenated tokens!");

  assert((Length == E->getLength()) && "Wrong Length!");

  assert((CharByteWidth == E->getCharByteWidth()) && "Wrong character width!");

  E->StringLiteralBits.Kind = Record.readInt();

  E->StringLiteralBits.IsPascal = Record.readInt();


  // The character width is originally computed via mapCharByteWidth.

  // Check that the deserialized character width is consistant with the result

  // of calling mapCharByteWidth.

  assert((CharByteWidth ==

          StringLiteral::mapCharByteWidth(Record.getContext().getTargetInfo(),

                                          E->getKind())) &&

         "Wrong character width!");


  // Deserialize the trailing array of SourceLocation.

  for (unsigned I = 0; I < NumConcatenated; ++I)

    E->setStrTokenLoc(I, readSourceLocation());


  // Deserialize the trailing array of char holding the string data.

  char *StrData = E->getStrDataAsChar();

  for (unsigned I = 0; I < Length * CharByteWidth; ++I)

    StrData[I] = Record.readInt();

}


void ASTStmtReader::VisitCharacterLiteral(CharacterLiteral *E) {

  VisitExpr(E);

  E->setValue(Record.readInt());

  E->setLocation(readSourceLocation());

  E->setKind(static_cast<CharacterLiteralKind>(Record.readInt()));

}


void ASTStmtReader::VisitParenExpr(ParenExpr *E) {

  VisitExpr(E);

  E->setLParen(readSourceLocation());

  E->setRParen(readSourceLocation());

  E->setSubExpr(Record.readSubExpr());

}


void ASTStmtReader::VisitParenListExpr(ParenListExpr *E) {

  VisitExpr(E);

  unsigned NumExprs = Record.readInt();

  assert((NumExprs == E->getNumExprs()) && "Wrong NumExprs!");

  for (unsigned I = 0; I != NumExprs; ++I)

    E->getTrailingObjects<Stmt *>()[I] = Record.readSubStmt();

  E->LParenLoc = readSourceLocation();

  E->RParenLoc = readSourceLocation();

}


void ASTStmtReader::VisitUnaryOperator(UnaryOperator *E) {

  VisitExpr(E);

  bool hasFP_Features = CurrentUnpackingBits->getNextBit();

  assert(hasFP_Features == E->hasStoredFPFeatures());

  E->setSubExpr(Record.readSubExpr());

  E->setOpcode(

      (UnaryOperator::Opcode)CurrentUnpackingBits->getNextBits(/*Width=*/5));

  E->setOperatorLoc(readSourceLocation());

  E->setCanOverflow(CurrentUnpackingBits->getNextBit());

  if (hasFP_Features)

    E->setStoredFPFeatures(

        FPOptionsOverride::getFromOpaqueInt(Record.readInt()));

}


void ASTStmtReader::VisitOffsetOfExpr(OffsetOfExpr *E) {

  VisitExpr(E);

  assert(E->getNumComponents() == Record.peekInt());

  Record.skipInts(1);

  assert(E->getNumExpressions() == Record.peekInt());

  Record.skipInts(1);

  E->setOperatorLoc(readSourceLocation());

  E->setRParenLoc(readSourceLocation());

  E->setTypeSourceInfo(readTypeSourceInfo());

  for (unsigned I = 0, N = E->getNumComponents(); I != N; ++I) {

    auto Kind = static_cast<OffsetOfNode::Kind>(Record.readInt());

    SourceLocation Start = readSourceLocation();

    SourceLocation End = readSourceLocation();

    switch (Kind) {

    case OffsetOfNode::Array:

      E->setComponent(I, OffsetOfNode(Start, Record.readInt(), End));

      break;


    case OffsetOfNode::Field:

      E->setComponent(

          I, OffsetOfNode(Start, readDeclAs<FieldDecl>(), End));

      break;


    case OffsetOfNode::Identifier:

      E->setComponent(

          I,

          OffsetOfNode(Start, Record.readIdentifier(), End));

      break;


    case OffsetOfNode::Base: {

      auto *Base = new (Record.getContext()) CXXBaseSpecifier();

      *Base = Record.readCXXBaseSpecifier();

      E->setComponent(I, OffsetOfNode(Base));

      break;

    }

    }

  }


  for (unsigned I = 0, N = E->getNumExpressions(); I != N; ++I)

    E->setIndexExpr(I, Record.readSubExpr());

}


void ASTStmtReader::VisitUnaryExprOrTypeTraitExpr(UnaryExprOrTypeTraitExpr *E) {

  VisitExpr(E);

  E->setKind(static_cast<UnaryExprOrTypeTrait>(Record.readInt()));

  if (Record.peekInt() == 0) {

    E->setArgument(Record.readSubExpr());

    Record.skipInts(1);

  } else {

    E->setArgument(readTypeSourceInfo());

  }

  E->setOperatorLoc(readSourceLocation());

  E->setRParenLoc(readSourceLocation());

}


static ConstraintSatisfaction

readConstraintSatisfaction(ASTRecordReader &Record) {

  ConstraintSatisfaction Satisfaction;

  Satisfaction.IsSatisfied = Record.readInt();

  Satisfaction.ContainsErrors = Record.readInt();

  const ASTContext &C = Record.getContext();

  if (!Satisfaction.IsSatisfied) {

    unsigned NumDetailRecords = Record.readInt();

    for (unsigned i = 0; i != NumDetailRecords; ++i) {

      if (/* IsDiagnostic */Record.readInt()) {

        SourceLocation DiagLocation = Record.readSourceLocation();

        StringRef DiagMessage = C.backupStr(Record.readString());


        Satisfaction.Details.emplace_back(

            new (C) ConstraintSatisfaction::SubstitutionDiagnostic(

                DiagLocation, DiagMessage));

      } else

        Satisfaction.Details.emplace_back(Record.readExpr());

    }

  }

  return Satisfaction;

}


void ASTStmtReader::VisitConceptSpecializationExpr(

        ConceptSpecializationExpr *E) {

  VisitExpr(E);

  E->SpecDecl = Record.readDeclAs<ImplicitConceptSpecializationDecl>();

  if (Record.readBool())

    E->ConceptRef = Record.readConceptReference();

  E->Satisfaction = E->isValueDependent() ? nullptr :

      ASTConstraintSatisfaction::Create(Record.getContext(),

                                        readConstraintSatisfaction(Record));

}


static concepts::Requirement::SubstitutionDiagnostic *

readSubstitutionDiagnostic(ASTRecordReader &Record) {

  const ASTContext &C = Record.getContext();

  StringRef SubstitutedEntity = C.backupStr(Record.readString());

  SourceLocation DiagLoc = Record.readSourceLocation();

  StringRef DiagMessage = C.backupStr(Record.readString());


  return new (Record.getContext())

      concepts::Requirement::SubstitutionDiagnostic{SubstitutedEntity, DiagLoc,

                                                    DiagMessage};

}


void ASTStmtReader::VisitRequiresExpr(RequiresExpr *E) {

  VisitExpr(E);

  unsigned NumLocalParameters = Record.readInt();

  unsigned NumRequirements = Record.readInt();

  E->RequiresExprBits.RequiresKWLoc = Record.readSourceLocation();

  E->RequiresExprBits.IsSatisfied = Record.readInt();

  E->Body = Record.readDeclAs<RequiresExprBodyDecl>();

  llvm::SmallVector<ParmVarDecl *, 4> LocalParameters;

  for (unsigned i = 0; i < NumLocalParameters; ++i)

    LocalParameters.push_back(cast<ParmVarDecl>(Record.readDecl()));

  std::copy(LocalParameters.begin(), LocalParameters.end(),

            E->getTrailingObjects<ParmVarDecl *>());

  llvm::SmallVector<concepts::Requirement *, 4> Requirements;

  for (unsigned i = 0; i < NumRequirements; ++i) {

    auto RK =

        static_cast<concepts::Requirement::RequirementKind>(Record.readInt());

    concepts::Requirement *R = nullptr;

    switch (RK) {

      case concepts::Requirement::RK_Type: {

        auto Status =

            static_cast<concepts::TypeRequirement::SatisfactionStatus>(

                Record.readInt());

        if (Status == concepts::TypeRequirement::SS_SubstitutionFailure)

          R = new (Record.getContext())

              concepts::TypeRequirement(readSubstitutionDiagnostic(Record));

        else

          R = new (Record.getContext())

              concepts::TypeRequirement(Record.readTypeSourceInfo());

      } break;

      case concepts::Requirement::RK_Simple:

      case concepts::Requirement::RK_Compound: {

        auto Status =

            static_cast<concepts::ExprRequirement::SatisfactionStatus>(

                Record.readInt());

        llvm::PointerUnion<concepts::Requirement::SubstitutionDiagnostic *,

                           Expr *> E;

        if (Status == concepts::ExprRequirement::SS_ExprSubstitutionFailure) {

          E = readSubstitutionDiagnostic(Record);

        } else

          E = Record.readExpr();


        std::optional<concepts::ExprRequirement::ReturnTypeRequirement> Req;

        ConceptSpecializationExpr *SubstitutedConstraintExpr = nullptr;

        SourceLocation NoexceptLoc;

        if (RK == concepts::Requirement::RK_Simple) {

          Req.emplace();

        } else {

          NoexceptLoc = Record.readSourceLocation();

          switch (/* returnTypeRequirementKind */Record.readInt()) {

            case 0:

              // No return type requirement.

              Req.emplace();

              break;

            case 1: {

              // type-constraint

              TemplateParameterList *TPL = Record.readTemplateParameterList();

              if (Status >=

                  concepts::ExprRequirement::SS_ConstraintsNotSatisfied)

                SubstitutedConstraintExpr =

                    cast<ConceptSpecializationExpr>(Record.readExpr());

              Req.emplace(TPL);

            } break;

            case 2:

              // Substitution failure

              Req.emplace(readSubstitutionDiagnostic(Record));

              break;

          }

        }

        if (Expr *Ex = E.dyn_cast<Expr *>())

          R = new (Record.getContext()) concepts::ExprRequirement(

                  Ex, RK == concepts::Requirement::RK_Simple, NoexceptLoc,

                  std::move(*Req), Status, SubstitutedConstraintExpr);

        else

          R = new (Record.getContext()) concepts::ExprRequirement(

                  E.get<concepts::Requirement::SubstitutionDiagnostic *>(),

                  RK == concepts::Requirement::RK_Simple, NoexceptLoc,

                  std::move(*Req));

      } break;

      case concepts::Requirement::RK_Nested: {

        ASTContext &C = Record.getContext();

        bool HasInvalidConstraint = Record.readInt();

        if (HasInvalidConstraint) {

          StringRef InvalidConstraint = C.backupStr(Record.readString());

          R = new (C) concepts::NestedRequirement(

              Record.getContext(), InvalidConstraint,

              readConstraintSatisfaction(Record));

          break;

        }

        Expr *E = Record.readExpr();

        if (E->isInstantiationDependent())

          R = new (C) concepts::NestedRequirement(E);

        else

          R = new (C) concepts::NestedRequirement(

              C, E, readConstraintSatisfaction(Record));

      } break;

    }

    if (!R)

      continue;

    Requirements.push_back(R);

  }

  std::copy(Requirements.begin(), Requirements.end(),

            E->getTrailingObjects<concepts::Requirement *>());

  E->LParenLoc = Record.readSourceLocation();

  E->RParenLoc = Record.readSourceLocation();

  E->RBraceLoc = Record.readSourceLocation();

}


void ASTStmtReader::VisitArraySubscriptExpr(ArraySubscriptExpr *E) {

  VisitExpr(E);

  E->setLHS(Record.readSubExpr());

  E->setRHS(Record.readSubExpr());

  E->setRBracketLoc(readSourceLocation());

}


void ASTStmtReader::VisitMatrixSubscriptExpr(MatrixSubscriptExpr *E) {

  VisitExpr(E);

  E->setBase(Record.readSubExpr());

  E->setRowIdx(Record.readSubExpr());

  E->setColumnIdx(Record.readSubExpr());

  E->setRBracketLoc(readSourceLocation());

}


void ASTStmtReader::VisitArraySectionExpr(ArraySectionExpr *E) {

  VisitExpr(E);

  E->ASType = Record.readEnum<ArraySectionExpr::ArraySectionType>();


  E->setBase(Record.readSubExpr());

  E->setLowerBound(Record.readSubExpr());

  E->setLength(Record.readSubExpr());


  if (E->isOMPArraySection())

    E->setStride(Record.readSubExpr());


  E->setColonLocFirst(readSourceLocation());


  if (E->isOMPArraySection())

    E->setColonLocSecond(readSourceLocation());


  E->setRBracketLoc(readSourceLocation());

}


void ASTStmtReader::VisitOMPArrayShapingExpr(OMPArrayShapingExpr *E) {

  VisitExpr(E);

  unsigned NumDims = Record.readInt();

  E->setBase(Record.readSubExpr());

  SmallVector<Expr *, 4> Dims(NumDims);

  for (unsigned I = 0; I < NumDims; ++I)

    Dims[I] = Record.readSubExpr();

  E->setDimensions(Dims);

  SmallVector<SourceRange, 4> SRs(NumDims);

  for (unsigned I = 0; I < NumDims; ++I)

    SRs[I] = readSourceRange();

  E->setBracketsRanges(SRs);

  E->setLParenLoc(readSourceLocation());

  E->setRParenLoc(readSourceLocation());

}


void ASTStmtReader::VisitOMPIteratorExpr(OMPIteratorExpr *E) {

  VisitExpr(E);

  unsigned NumIters = Record.readInt();

  E->setIteratorKwLoc(readSourceLocation());

  E->setLParenLoc(readSourceLocation());

  E->setRParenLoc(readSourceLocation());

  for (unsigned I = 0; I < NumIters; ++I) {

    E->setIteratorDeclaration(I, Record.readDeclRef());

    E->setAssignmentLoc(I, readSourceLocation());

    Expr *Begin = Record.readSubExpr();

    Expr *End = Record.readSubExpr();

    Expr *Step = Record.readSubExpr();

    SourceLocation ColonLoc = readSourceLocation();

    SourceLocation SecColonLoc;

    if (Step)

      SecColonLoc = readSourceLocation();

    E->setIteratorRange(I, Begin, ColonLoc, End, SecColonLoc, Step);

    // Deserialize helpers

    OMPIteratorHelperData HD;

    HD.CounterVD = cast_or_null<VarDecl>(Record.readDeclRef());

    HD.Upper = Record.readSubExpr();

    HD.Update = Record.readSubExpr();

    HD.CounterUpdate = Record.readSubExpr();

    E->setHelper(I, HD);

  }

}


void ASTStmtReader::VisitCallExpr(CallExpr *E) {

  VisitExpr(E);


  unsigned NumArgs = Record.readInt();

  CurrentUnpackingBits.emplace(Record.readInt());

  E->setADLCallKind(

      static_cast<CallExpr::ADLCallKind>(CurrentUnpackingBits->getNextBit()));

  bool HasFPFeatures = CurrentUnpackingBits->getNextBit();

  assert((NumArgs == E->getNumArgs()) && "Wrong NumArgs!");

  E->setRParenLoc(readSourceLocation());

  E->setCallee(Record.readSubExpr());

  for (unsigned I = 0; I != NumArgs; ++I)

    E->setArg(I, Record.readSubExpr());


  if (HasFPFeatures)

    E->setStoredFPFeatures(

        FPOptionsOverride::getFromOpaqueInt(Record.readInt()));

}


void ASTStmtReader::VisitCXXMemberCallExpr(CXXMemberCallExpr *E) {

  VisitCallExpr(E);

}


void ASTStmtReader::VisitMemberExpr(MemberExpr *E) {

  VisitExpr(E);


  CurrentUnpackingBits.emplace(Record.readInt());

  bool HasQualifier = CurrentUnpackingBits->getNextBit();

  bool HasFoundDecl = CurrentUnpackingBits->getNextBit();

  bool HasTemplateInfo = CurrentUnpackingBits->getNextBit();

  unsigned NumTemplateArgs = Record.readInt();


  E->Base = Record.readSubExpr();

  E->MemberDecl = Record.readDeclAs<ValueDecl>();

  E->MemberDNLoc = Record.readDeclarationNameLoc(E->MemberDecl->getDeclName());

  E->MemberLoc = Record.readSourceLocation();

  E->MemberExprBits.IsArrow = CurrentUnpackingBits->getNextBit();

  E->MemberExprBits.HasQualifier = HasQualifier;

  E->MemberExprBits.HasFoundDecl = HasFoundDecl;

  E->MemberExprBits.HasTemplateKWAndArgsInfo = HasTemplateInfo;

  E->MemberExprBits.HadMultipleCandidates = CurrentUnpackingBits->getNextBit();

  E->MemberExprBits.NonOdrUseReason =

      CurrentUnpackingBits->getNextBits(/*Width=*/2);

  E->MemberExprBits.OperatorLoc = Record.readSourceLocation();


  if (HasQualifier)

    new (E->getTrailingObjects<NestedNameSpecifierLoc>())

        NestedNameSpecifierLoc(Record.readNestedNameSpecifierLoc());


  if (HasFoundDecl) {

    auto *FoundD = Record.readDeclAs<NamedDecl>();

    auto AS = (AccessSpecifier)CurrentUnpackingBits->getNextBits(/*Width=*/2);

    *E->getTrailingObjects<DeclAccessPair>() = DeclAccessPair::make(FoundD, AS);

  }


  if (HasTemplateInfo)

    ReadTemplateKWAndArgsInfo(

        *E->getTrailingObjects<ASTTemplateKWAndArgsInfo>(),

        E->getTrailingObjects<TemplateArgumentLoc>(), NumTemplateArgs);

}


void ASTStmtReader::VisitObjCIsaExpr(ObjCIsaExpr *E) {

  VisitExpr(E);

  E->setBase(Record.readSubExpr());

  E->setIsaMemberLoc(readSourceLocation());

  E->setOpLoc(readSourceLocation());

  E->setArrow(Record.readInt());

}


void ASTStmtReader::

VisitObjCIndirectCopyRestoreExpr(ObjCIndirectCopyRestoreExpr *E) {

  VisitExpr(E);

  E->Operand = Record.readSubExpr();

  E->setShouldCopy(Record.readInt());

}


void ASTStmtReader::VisitObjCBridgedCastExpr(ObjCBridgedCastExpr *E) {

  VisitExplicitCastExpr(E);

  E->LParenLoc = readSourceLocation();

  E->BridgeKeywordLoc = readSourceLocation();

  E->Kind = Record.readInt();

}


void ASTStmtReader::VisitCastExpr(CastExpr *E) {

  VisitExpr(E);

  unsigned NumBaseSpecs = Record.readInt();

  assert(NumBaseSpecs == E->path_size());


  CurrentUnpackingBits.emplace(Record.readInt());

  E->setCastKind((CastKind)CurrentUnpackingBits->getNextBits(/*Width=*/7));

  unsigned HasFPFeatures = CurrentUnpackingBits->getNextBit();

  assert(E->hasStoredFPFeatures() == HasFPFeatures);


  E->setSubExpr(Record.readSubExpr());


  CastExpr::path_iterator BaseI = E->path_begin();

  while (NumBaseSpecs--) {

    auto *BaseSpec = new (Record.getContext()) CXXBaseSpecifier;

    *BaseSpec = Record.readCXXBaseSpecifier();

    *BaseI++ = BaseSpec;

  }

  if (HasFPFeatures)

    *E->getTrailingFPFeatures() =

        FPOptionsOverride::getFromOpaqueInt(Record.readInt());

}


void ASTStmtReader::VisitBinaryOperator(BinaryOperator *E) {

  VisitExpr(E);

  CurrentUnpackingBits.emplace(Record.readInt());

  E->setOpcode(

      (BinaryOperator::Opcode)CurrentUnpackingBits->getNextBits(/*Width=*/6));

  bool hasFP_Features = CurrentUnpackingBits->getNextBit();

  E->setHasStoredFPFeatures(hasFP_Features);

  E->setLHS(Record.readSubExpr());

  E->setRHS(Record.readSubExpr());

  E->setOperatorLoc(readSourceLocation());

  if (hasFP_Features)

    E->setStoredFPFeatures(

        FPOptionsOverride::getFromOpaqueInt(Record.readInt()));

}


void ASTStmtReader::VisitCompoundAssignOperator(CompoundAssignOperator *E) {

  VisitBinaryOperator(E);

  E->setComputationLHSType(Record.readType());

  E->setComputationResultType(Record.readType());

}


void ASTStmtReader::VisitConditionalOperator(ConditionalOperator *E) {

  VisitExpr(E);

  E->SubExprs[ConditionalOperator::COND] = Record.readSubExpr();

  E->SubExprs[ConditionalOperator::LHS] = Record.readSubExpr();

  E->SubExprs[ConditionalOperator::RHS] = Record.readSubExpr();

  E->QuestionLoc = readSourceLocation();

  E->ColonLoc = readSourceLocation();

}


void

ASTStmtReader::VisitBinaryConditionalOperator(BinaryConditionalOperator *E) {

  VisitExpr(E);

  E->OpaqueValue = cast<OpaqueValueExpr>(Record.readSubExpr());

  E->SubExprs[BinaryConditionalOperator::COMMON] = Record.readSubExpr();

  E->SubExprs[BinaryConditionalOperator::COND] = Record.readSubExpr();

  E->SubExprs[BinaryConditionalOperator::LHS] = Record.readSubExpr();

  E->SubExprs[BinaryConditionalOperator::RHS] = Record.readSubExpr();

  E->QuestionLoc = readSourceLocation();

  E->ColonLoc = readSourceLocation();

}


void ASTStmtReader::VisitImplicitCastExpr(ImplicitCastExpr *E) {

  VisitCastExpr(E);

  E->setIsPartOfExplicitCast(CurrentUnpackingBits->getNextBit());

}


void ASTStmtReader::VisitExplicitCastExpr(ExplicitCastExpr *E) {

  VisitCastExpr(E);

  E->setTypeInfoAsWritten(readTypeSourceInfo());

}


void ASTStmtReader::VisitCStyleCastExpr(CStyleCastExpr *E) {

  VisitExplicitCastExpr(E);

  E->setLParenLoc(readSourceLocation());

  E->setRParenLoc(readSourceLocation());

}


void ASTStmtReader::VisitCompoundLiteralExpr(CompoundLiteralExpr *E) {

  VisitExpr(E);

  E->setLParenLoc(readSourceLocation());

  E->setTypeSourceInfo(readTypeSourceInfo());

  E->setInitializer(Record.readSubExpr());

  E->setFileScope(Record.readInt());

}


void ASTStmtReader::VisitExtVectorElementExpr(ExtVectorElementExpr *E) {

  VisitExpr(E);

  E->setBase(Record.readSubExpr());

  E->setAccessor(Record.readIdentifier());

  E->setAccessorLoc(readSourceLocation());

}


void ASTStmtReader::VisitInitListExpr(InitListExpr *E) {

  VisitExpr(E);

  if (auto *SyntForm = cast_or_null<InitListExpr>(Record.readSubStmt()))

    E->setSyntacticForm(SyntForm);

  E->setLBraceLoc(readSourceLocation());

  E->setRBraceLoc(readSourceLocation());

  bool isArrayFiller = Record.readInt();

  Expr *filler = nullptr;

  if (isArrayFiller) {

    filler = Record.readSubExpr();

    E->ArrayFillerOrUnionFieldInit = filler;

  } else

    E->ArrayFillerOrUnionFieldInit = readDeclAs<FieldDecl>();

  E->sawArrayRangeDesignator(Record.readInt());

  unsigned NumInits = Record.readInt();

  E->reserveInits(Record.getContext(), NumInits);

  if (isArrayFiller) {

    for (unsigned I = 0; I != NumInits; ++I) {

      Expr *init = Record.readSubExpr();

      E->updateInit(Record.getContext(), I, init ? init : filler);

    }

  } else {

    for (unsigned I = 0; I != NumInits; ++I)

      E->updateInit(Record.getContext(), I, Record.readSubExpr());

  }

}


void ASTStmtReader::VisitDesignatedInitExpr(DesignatedInitExpr *E) {

  using Designator = DesignatedInitExpr::Designator;


  VisitExpr(E);

  unsigned NumSubExprs = Record.readInt();

  assert(NumSubExprs == E->getNumSubExprs() && "Wrong number of subexprs");

  for (unsigned I = 0; I != NumSubExprs; ++I)

    E->setSubExpr(I, Record.readSubExpr());

  E->setEqualOrColonLoc(readSourceLocation());

  E->setGNUSyntax(Record.readInt());


  SmallVector<Designator, 4> Designators;

  while (Record.getIdx() < Record.size()) {

    switch ((DesignatorTypes)Record.readInt()) {

    case DESIG_FIELD_DECL: {

      auto *Field = readDeclAs<FieldDecl>();

      SourceLocation DotLoc = readSourceLocation();

      SourceLocation FieldLoc = readSourceLocation();

      Designators.push_back(Designator::CreateFieldDesignator(

          Field->getIdentifier(), DotLoc, FieldLoc));

      Designators.back().setFieldDecl(Field);

      break;

    }


    case DESIG_FIELD_NAME: {

      const IdentifierInfo *Name = Record.readIdentifier();

      SourceLocation DotLoc = readSourceLocation();

      SourceLocation FieldLoc = readSourceLocation();

      Designators.push_back(Designator::CreateFieldDesignator(Name, DotLoc,

                                                              FieldLoc));

      break;

    }


    case DESIG_ARRAY: {

      unsigned Index = Record.readInt();

      SourceLocation LBracketLoc = readSourceLocation();

      SourceLocation RBracketLoc = readSourceLocation();

      Designators.push_back(Designator::CreateArrayDesignator(Index,

                                                              LBracketLoc,

                                                              RBracketLoc));

      break;

    }


    case DESIG_ARRAY_RANGE: {

      unsigned Index = Record.readInt();

      SourceLocation LBracketLoc = readSourceLocation();

      SourceLocation EllipsisLoc = readSourceLocation();

      SourceLocation RBracketLoc = readSourceLocation();

      Designators.push_back(Designator::CreateArrayRangeDesignator(

          Index, LBracketLoc, EllipsisLoc, RBracketLoc));

      break;

    }

    }

  }

  E->setDesignators(Record.getContext(),

                    Designators.data(), Designators.size());

}


void ASTStmtReader::VisitDesignatedInitUpdateExpr(DesignatedInitUpdateExpr *E) {

  VisitExpr(E);

  E->setBase(Record.readSubExpr());

  E->setUpdater(Record.readSubExpr());

}


void ASTStmtReader::VisitNoInitExpr(NoInitExpr *E) {

  VisitExpr(E);

}


void ASTStmtReader::VisitArrayInitLoopExpr(ArrayInitLoopExpr *E) {

  VisitExpr(E);

  E->SubExprs[0] = Record.readSubExpr();

  E->SubExprs[1] = Record.readSubExpr();

}


void ASTStmtReader::VisitArrayInitIndexExpr(ArrayInitIndexExpr *E) {

  VisitExpr(E);

}


void ASTStmtReader::VisitImplicitValueInitExpr(ImplicitValueInitExpr *E) {

  VisitExpr(E);

}


void ASTStmtReader::VisitVAArgExpr(VAArgExpr *E) {

  VisitExpr(E);

  E->setSubExpr(Record.readSubExpr());

  E->setWrittenTypeInfo(readTypeSourceInfo());

  E->setBuiltinLoc(readSourceLocation());

  E->setRParenLoc(readSourceLocation());

  E->setIsMicrosoftABI(Record.readInt());

}


void ASTStmtReader::VisitSourceLocExpr(SourceLocExpr *E) {

  VisitExpr(E);

  E->ParentContext = readDeclAs<DeclContext>();

  E->BuiltinLoc = readSourceLocation();

  E->RParenLoc = readSourceLocation();

  E->SourceLocExprBits.Kind = Record.readInt();

}


void ASTStmtReader::VisitEmbedExpr(EmbedExpr *E) {

  VisitExpr(E);

  E->EmbedKeywordLoc = readSourceLocation();

  EmbedDataStorage *Data = new (Record.getContext()) EmbedDataStorage;

  Data->BinaryData = cast<StringLiteral>(Record.readSubStmt());

  E->Data = Data;

  E->Begin = Record.readInt();

  E->NumOfElements = Record.readInt();

}


void ASTStmtReader::VisitAddrLabelExpr(AddrLabelExpr *E) {

  VisitExpr(E);

  E->setAmpAmpLoc(readSourceLocation());

  E->setLabelLoc(readSourceLocation());

  E->setLabel(readDeclAs<LabelDecl>());

}


void ASTStmtReader::VisitStmtExpr(StmtExpr *E) {

  VisitExpr(E);

  E->setLParenLoc(readSourceLocation());

  E->setRParenLoc(readSourceLocation());

  E->setSubStmt(cast_or_null<CompoundStmt>(Record.readSubStmt()));

  E->StmtExprBits.TemplateDepth = Record.readInt();

}


void ASTStmtReader::VisitChooseExpr(ChooseExpr *E) {

  VisitExpr(E);

  E->setCond(Record.readSubExpr());

  E->setLHS(Record.readSubExpr());

  E->setRHS(Record.readSubExpr());

  E->setBuiltinLoc(readSourceLocation());

  E->setRParenLoc(readSourceLocation());

  E->setIsConditionTrue(Record.readInt());

}


void ASTStmtReader::VisitGNUNullExpr(GNUNullExpr *E) {

  VisitExpr(E);

  E->setTokenLocation(readSourceLocation());

}


void ASTStmtReader::VisitShuffleVectorExpr(ShuffleVectorExpr *E) {

  VisitExpr(E);

  SmallVector<Expr *, 16> Exprs;

  unsigned NumExprs = Record.readInt();

  while (NumExprs--)

    Exprs.push_back(Record.readSubExpr());

  E->setExprs(Record.getContext(), Exprs);

  E->setBuiltinLoc(readSourceLocation());

  E->setRParenLoc(readSourceLocation());

}


void ASTStmtReader::VisitConvertVectorExpr(ConvertVectorExpr *E) {

  VisitExpr(E);

  E->BuiltinLoc = readSourceLocation();

  E->RParenLoc = readSourceLocation();

  E->TInfo = readTypeSourceInfo();

  E->SrcExpr = Record.readSubExpr();

}


void ASTStmtReader::VisitBlockExpr(BlockExpr *E) {

  VisitExpr(E);

  E->setBlockDecl(readDeclAs<BlockDecl>());

}


void ASTStmtReader::VisitGenericSelectionExpr(GenericSelectionExpr *E) {

  VisitExpr(E);


  unsigned NumAssocs = Record.readInt();

  assert(NumAssocs == E->getNumAssocs() && "Wrong NumAssocs!");

  E->IsExprPredicate = Record.readInt();

  E->ResultIndex = Record.readInt();

  E->GenericSelectionExprBits.GenericLoc = readSourceLocation();

  E->DefaultLoc = readSourceLocation();

  E->RParenLoc = readSourceLocation();


  Stmt **Stmts = E->getTrailingObjects<Stmt *>();

  // Add 1 to account for the controlling expression which is the first

  // expression in the trailing array of Stmt *. This is not needed for

  // the trailing array of TypeSourceInfo *.

  for (unsigned I = 0, N = NumAssocs + 1; I < N; ++I)

    Stmts[I] = Record.readSubExpr();


  TypeSourceInfo **TSIs = E->getTrailingObjects<TypeSourceInfo *>();

  for (unsigned I = 0, N = NumAssocs; I < N; ++I)

    TSIs[I] = readTypeSourceInfo();

}


void ASTStmtReader::VisitPseudoObjectExpr(PseudoObjectExpr *E) {

  VisitExpr(E);

  unsigned numSemanticExprs = Record.readInt();

  assert(numSemanticExprs + 1 == E->PseudoObjectExprBits.NumSubExprs);

  E->PseudoObjectExprBits.ResultIndex = Record.readInt();


  // Read the syntactic expression.

  E->getSubExprsBuffer()[0] = Record.readSubExpr();


  // Read all the semantic expressions.

  for (unsigned i = 0; i != numSemanticExprs; ++i) {

    Expr *subExpr = Record.readSubExpr();

    E->getSubExprsBuffer()[i+1] = subExpr;

  }

}


void ASTStmtReader::VisitAtomicExpr(AtomicExpr *E) {

  VisitExpr(E);

  E->Op = AtomicExpr::AtomicOp(Record.readInt());

  E->NumSubExprs = AtomicExpr::getNumSubExprs(E->Op);

  for (unsigned I = 0; I != E->NumSubExprs; ++I)

    E->SubExprs[I] = Record.readSubExpr();

  E->BuiltinLoc = readSourceLocation();

  E->RParenLoc = readSourceLocation();

}


//===----------------------------------------------------------------------===//

// Objective-C Expressions and Statements


void ASTStmtReader::VisitObjCStringLiteral(ObjCStringLiteral *E) {

  VisitExpr(E);

  E->setString(cast<StringLiteral>(Record.readSubStmt()));

  E->setAtLoc(readSourceLocation());

}


void ASTStmtReader::VisitObjCBoxedExpr(ObjCBoxedExpr *E) {

  VisitExpr(E);

  // could be one of several IntegerLiteral, FloatLiteral, etc.

  E->SubExpr = Record.readSubStmt();

  E->BoxingMethod = readDeclAs<ObjCMethodDecl>();

  E->Range = readSourceRange();

}


void ASTStmtReader::VisitObjCArrayLiteral(ObjCArrayLiteral *E) {

  VisitExpr(E);

  unsigned NumElements = Record.readInt();

  assert(NumElements == E->getNumElements() && "Wrong number of elements");

  Expr **Elements = E->getElements();

  for (unsigned I = 0, N = NumElements; I != N; ++I)

    Elements[I] = Record.readSubExpr();

  E->ArrayWithObjectsMethod = readDeclAs<ObjCMethodDecl>();

  E->Range = readSourceRange();

}


void ASTStmtReader::VisitObjCDictionaryLiteral(ObjCDictionaryLiteral *E) {

  VisitExpr(E);

  unsigned NumElements = Record.readInt();

  assert(NumElements == E->getNumElements() && "Wrong number of elements");

  bool HasPackExpansions = Record.readInt();

  assert(HasPackExpansions == E->HasPackExpansions &&"Pack expansion mismatch");

  auto *KeyValues =

      E->getTrailingObjects<ObjCDictionaryLiteral::KeyValuePair>();

  auto *Expansions =

      E->getTrailingObjects<ObjCDictionaryLiteral::ExpansionData>();

  for (unsigned I = 0; I != NumElements; ++I) {

    KeyValues[I].Key = Record.readSubExpr();

    KeyValues[I].Value = Record.readSubExpr();

    if (HasPackExpansions) {

      Expansions[I].EllipsisLoc = readSourceLocation();

      Expansions[I].NumExpansionsPlusOne = Record.readInt();

    }

  }

  E->DictWithObjectsMethod = readDeclAs<ObjCMethodDecl>();

  E->Range = readSourceRange();

}


void ASTStmtReader::VisitObjCEncodeExpr(ObjCEncodeExpr *E) {

  VisitExpr(E);

  E->setEncodedTypeSourceInfo(readTypeSourceInfo());

  E->setAtLoc(readSourceLocation());

  E->setRParenLoc(readSourceLocation());

}


void ASTStmtReader::VisitObjCSelectorExpr(ObjCSelectorExpr *E) {

  VisitExpr(E);

  E->setSelector(Record.readSelector());

  E->setAtLoc(readSourceLocation());

  E->setRParenLoc(readSourceLocation());

}


void ASTStmtReader::VisitObjCProtocolExpr(ObjCProtocolExpr *E) {

  VisitExpr(E);

  E->setProtocol(readDeclAs<ObjCProtocolDecl>());

  E->setAtLoc(readSourceLocation());

  E->ProtoLoc = readSourceLocation();

  E->setRParenLoc(readSourceLocation());

}


void ASTStmtReader::VisitObjCIvarRefExpr(ObjCIvarRefExpr *E) {

  VisitExpr(E);

  E->setDecl(readDeclAs<ObjCIvarDecl>());

  E->setLocation(readSourceLocation());

  E->setOpLoc(readSourceLocation());

  E->setBase(Record.readSubExpr());

  E->setIsArrow(Record.readInt());

  E->setIsFreeIvar(Record.readInt());

}


void ASTStmtReader::VisitObjCPropertyRefExpr(ObjCPropertyRefExpr *E) {

  VisitExpr(E);

  unsigned MethodRefFlags = Record.readInt();

  bool Implicit = Record.readInt() != 0;

  if (Implicit) {

    auto *Getter = readDeclAs<ObjCMethodDecl>();

    auto *Setter = readDeclAs<ObjCMethodDecl>();

    E->setImplicitProperty(Getter, Setter, MethodRefFlags);

  } else {

    E->setExplicitProperty(readDeclAs<ObjCPropertyDecl>(), MethodRefFlags);

  }

  E->setLocation(readSourceLocation());

  E->setReceiverLocation(readSourceLocation());

  switch (Record.readInt()) {

  case 0:

    E->setBase(Record.readSubExpr());

    break;

  case 1:

    E->setSuperReceiver(Record.readType());

    break;

  case 2:

    E->setClassReceiver(readDeclAs<ObjCInterfaceDecl>());

    break;

  }

}


void ASTStmtReader::VisitObjCSubscriptRefExpr(ObjCSubscriptRefExpr *E) {

  VisitExpr(E);

  E->setRBracket(readSourceLocation());

  E->setBaseExpr(Record.readSubExpr());

  E->setKeyExpr(Record.readSubExpr());

  E->GetAtIndexMethodDecl = readDeclAs<ObjCMethodDecl>();

  E->SetAtIndexMethodDecl = readDeclAs<ObjCMethodDecl>();

}


void ASTStmtReader::VisitObjCMessageExpr(ObjCMessageExpr *E) {

  VisitExpr(E);

  assert(Record.peekInt() == E->getNumArgs());

  Record.skipInts(1);

  unsigned NumStoredSelLocs = Record.readInt();

  E->SelLocsKind = Record.readInt();

  E->setDelegateInitCall(Record.readInt());

  E->IsImplicit = Record.readInt();

  auto Kind = static_cast<ObjCMessageExpr::ReceiverKind>(Record.readInt());

  switch (Kind) {

  case ObjCMessageExpr::Instance:

    E->setInstanceReceiver(Record.readSubExpr());

    break;


  case ObjCMessageExpr::Class:

    E->setClassReceiver(readTypeSourceInfo());

    break;


  case ObjCMessageExpr::SuperClass:

  case ObjCMessageExpr::SuperInstance: {

    QualType T = Record.readType();

    SourceLocation SuperLoc = readSourceLocation();

    E->setSuper(SuperLoc, T, Kind == ObjCMessageExpr::SuperInstance);

    break;

  }

  }


  assert(Kind == E->getReceiverKind());


  if (Record.readInt())

    E->setMethodDecl(readDeclAs<ObjCMethodDecl>());

  else

    E->setSelector(Record.readSelector());


  E->LBracLoc = readSourceLocation();

  E->RBracLoc = readSourceLocation();


  for (unsigned I = 0, N = E->getNumArgs(); I != N; ++I)

    E->setArg(I, Record.readSubExpr());


  SourceLocation *Locs = E->getStoredSelLocs();

  for (unsigned I = 0; I != NumStoredSelLocs; ++I)

    Locs[I] = readSourceLocation();

}


void ASTStmtReader::VisitObjCForCollectionStmt(ObjCForCollectionStmt *S) {

  VisitStmt(S);

  S->setElement(Record.readSubStmt());

  S->setCollection(Record.readSubExpr());

  S->setBody(Record.readSubStmt());

  S->setForLoc(readSourceLocation());

  S->setRParenLoc(readSourceLocation());

}


void ASTStmtReader::VisitObjCAtCatchStmt(ObjCAtCatchStmt *S) {

  VisitStmt(S);

  S->setCatchBody(Record.readSubStmt());

  S->setCatchParamDecl(readDeclAs<VarDecl>());

  S->setAtCatchLoc(readSourceLocation());

  S->setRParenLoc(readSourceLocation());

}


void ASTStmtReader::VisitObjCAtFinallyStmt(ObjCAtFinallyStmt *S) {

  VisitStmt(S);

  S->setFinallyBody(Record.readSubStmt());

  S->setAtFinallyLoc(readSourceLocation());

}


void ASTStmtReader::VisitObjCAutoreleasePoolStmt(ObjCAutoreleasePoolStmt *S) {

  VisitStmt(S); // FIXME: no test coverage.

  S->setSubStmt(Record.readSubStmt());

  S->setAtLoc(readSourceLocation());

}


void ASTStmtReader::VisitObjCAtTryStmt(ObjCAtTryStmt *S) {

  VisitStmt(S);

  assert(Record.peekInt() == S->getNumCatchStmts());

  Record.skipInts(1);

  bool HasFinally = Record.readInt();

  S->setTryBody(Record.readSubStmt());

  for (unsigned I = 0, N = S->getNumCatchStmts(); I != N; ++I)

    S->setCatchStmt(I, cast_or_null<ObjCAtCatchStmt>(Record.readSubStmt()));


  if (HasFinally)

    S->setFinallyStmt(Record.readSubStmt());

  S->setAtTryLoc(readSourceLocation());

}


void ASTStmtReader::VisitObjCAtSynchronizedStmt(ObjCAtSynchronizedStmt *S) {

  VisitStmt(S); // FIXME: no test coverage.

  S->setSynchExpr(Record.readSubStmt());

  S->setSynchBody(Record.readSubStmt());

  S->setAtSynchronizedLoc(readSourceLocation());

}


void ASTStmtReader::VisitObjCAtThrowStmt(ObjCAtThrowStmt *S) {

  VisitStmt(S); // FIXME: no test coverage.

  S->setThrowExpr(Record.readSubStmt());

  S->setThrowLoc(readSourceLocation());

}


void ASTStmtReader::VisitObjCBoolLiteralExpr(ObjCBoolLiteralExpr *E) {

  VisitExpr(E);

  E->setValue(Record.readInt());

  E->setLocation(readSourceLocation());

}


void ASTStmtReader::VisitObjCAvailabilityCheckExpr(ObjCAvailabilityCheckExpr *E) {

  VisitExpr(E);

  SourceRange R = Record.readSourceRange();

  E->AtLoc = R.getBegin();

  E->RParen = R.getEnd();

  E->VersionToCheck = Record.readVersionTuple();

}


//===----------------------------------------------------------------------===//

// C++ Expressions and Statements

//===----------------------------------------------------------------------===//


void ASTStmtReader::VisitCXXCatchStmt(CXXCatchStmt *S) {

  VisitStmt(S);

  S->CatchLoc = readSourceLocation();

  S->ExceptionDecl = readDeclAs<VarDecl>();

  S->HandlerBlock = Record.readSubStmt();

}


void ASTStmtReader::VisitCXXTryStmt(CXXTryStmt *S) {

  VisitStmt(S);

  assert(Record.peekInt() == S->getNumHandlers() && "NumStmtFields is wrong ?");

  Record.skipInts(1);

  S->TryLoc = readSourceLocation();

  S->getStmts()[0] = Record.readSubStmt();

  for (unsigned i = 0, e = S->getNumHandlers(); i != e; ++i)

    S->getStmts()[i + 1] = Record.readSubStmt();

}


void ASTStmtReader::VisitCXXForRangeStmt(CXXForRangeStmt *S) {

  VisitStmt(S);

  S->ForLoc = readSourceLocation();

  S->CoawaitLoc = readSourceLocation();

  S->ColonLoc = readSourceLocation();

  S->RParenLoc = readSourceLocation();

  S->setInit(Record.readSubStmt());

  S->setRangeStmt(Record.readSubStmt());

  S->setBeginStmt(Record.readSubStmt());

  S->setEndStmt(Record.readSubStmt());

  S->setCond(Record.readSubExpr());

  S->setInc(Record.readSubExpr());

  S->setLoopVarStmt(Record.readSubStmt());

  S->setBody(Record.readSubStmt());

}


void ASTStmtReader::VisitMSDependentExistsStmt(MSDependentExistsStmt *S) {

  VisitStmt(S);

  S->KeywordLoc = readSourceLocation();

  S->IsIfExists = Record.readInt();

  S->QualifierLoc = Record.readNestedNameSpecifierLoc();

  S->NameInfo = Record.readDeclarationNameInfo();

  S->SubStmt = Record.readSubStmt();

}


void ASTStmtReader::VisitCXXOperatorCallExpr(CXXOperatorCallExpr *E) {

  VisitCallExpr(E);

  E->CXXOperatorCallExprBits.OperatorKind = Record.readInt();

  E->Range = Record.readSourceRange();

}


void ASTStmtReader::VisitCXXRewrittenBinaryOperator(

    CXXRewrittenBinaryOperator *E) {

  VisitExpr(E);

  E->CXXRewrittenBinaryOperatorBits.IsReversed = Record.readInt();

  E->SemanticForm = Record.readSubExpr();

}


void ASTStmtReader::VisitCXXConstructExpr(CXXConstructExpr *E) {

  VisitExpr(E);


  unsigned NumArgs = Record.readInt();

  assert((NumArgs == E->getNumArgs()) && "Wrong NumArgs!");


  E->CXXConstructExprBits.Elidable = Record.readInt();

  E->CXXConstructExprBits.HadMultipleCandidates = Record.readInt();

  E->CXXConstructExprBits.ListInitialization = Record.readInt();

  E->CXXConstructExprBits.StdInitListInitialization = Record.readInt();

  E->CXXConstructExprBits.ZeroInitialization = Record.readInt();

  E->CXXConstructExprBits.ConstructionKind = Record.readInt();

  E->CXXConstructExprBits.IsImmediateEscalating = Record.readInt();

  E->CXXConstructExprBits.Loc = readSourceLocation();

  E->Constructor = readDeclAs<CXXConstructorDecl>();

  E->ParenOrBraceRange = readSourceRange();


  for (unsigned I = 0; I != NumArgs; ++I)

    E->setArg(I, Record.readSubExpr());

}


void ASTStmtReader::VisitCXXInheritedCtorInitExpr(CXXInheritedCtorInitExpr *E) {

  VisitExpr(E);

  E->Constructor = readDeclAs<CXXConstructorDecl>();

  E->Loc = readSourceLocation();

  E->ConstructsVirtualBase = Record.readInt();

  E->InheritedFromVirtualBase = Record.readInt();

}


void ASTStmtReader::VisitCXXTemporaryObjectExpr(CXXTemporaryObjectExpr *E) {

  VisitCXXConstructExpr(E);

  E->TSI = readTypeSourceInfo();

}


void ASTStmtReader::VisitLambdaExpr(LambdaExpr *E) {

  VisitExpr(E);

  unsigned NumCaptures = Record.readInt();

  (void)NumCaptures;

  assert(NumCaptures == E->LambdaExprBits.NumCaptures);

  E->IntroducerRange = readSourceRange();

  E->LambdaExprBits.CaptureDefault = Record.readInt();

  E->CaptureDefaultLoc = readSourceLocation();

  E->LambdaExprBits.ExplicitParams = Record.readInt();

  E->LambdaExprBits.ExplicitResultType = Record.readInt();

  E->ClosingBrace = readSourceLocation();


  // Read capture initializers.

  for (LambdaExpr::capture_init_iterator C = E->capture_init_begin(),

                                         CEnd = E->capture_init_end();

       C != CEnd; ++C)

    *C = Record.readSubExpr();


  // The body will be lazily deserialized when needed from the call operator

  // declaration.

}


void

ASTStmtReader::VisitCXXStdInitializerListExpr(CXXStdInitializerListExpr *E) {

  VisitExpr(E);

  E->SubExpr = Record.readSubExpr();

}


void ASTStmtReader::VisitCXXNamedCastExpr(CXXNamedCastExpr *E) {

  VisitExplicitCastExpr(E);

  SourceRange R = readSourceRange();

  E->Loc = R.getBegin();

  E->RParenLoc = R.getEnd();

  if (CurrentUnpackingBits->getNextBit())

    E->AngleBrackets = readSourceRange();

}


void ASTStmtReader::VisitCXXStaticCastExpr(CXXStaticCastExpr *E) {

  return VisitCXXNamedCastExpr(E);

}


void ASTStmtReader::VisitCXXDynamicCastExpr(CXXDynamicCastExpr *E) {

  return VisitCXXNamedCastExpr(E);

}


void ASTStmtReader::VisitCXXReinterpretCastExpr(CXXReinterpretCastExpr *E) {

  return VisitCXXNamedCastExpr(E);

}


void ASTStmtReader::VisitCXXAddrspaceCastExpr(CXXAddrspaceCastExpr *E) {

  return VisitCXXNamedCastExpr(E);

}


void ASTStmtReader::VisitCXXConstCastExpr(CXXConstCastExpr *E) {

  return VisitCXXNamedCastExpr(E);

}


void ASTStmtReader::VisitCXXFunctionalCastExpr(CXXFunctionalCastExpr *E) {

  VisitExplicitCastExpr(E);

  E->setLParenLoc(readSourceLocation());

  E->setRParenLoc(readSourceLocation());

}


void ASTStmtReader::VisitBuiltinBitCastExpr(BuiltinBitCastExpr *E) {

  VisitExplicitCastExpr(E);

  E->KWLoc = readSourceLocation();

  E->RParenLoc = readSourceLocation();

}


void ASTStmtReader::VisitUserDefinedLiteral(UserDefinedLiteral *E) {

  VisitCallExpr(E);

  E->UDSuffixLoc = readSourceLocation();

}


void ASTStmtReader::VisitCXXBoolLiteralExpr(CXXBoolLiteralExpr *E) {

  VisitExpr(E);

  E->setValue(Record.readInt());

  E->setLocation(readSourceLocation());

}


void ASTStmtReader::VisitCXXNullPtrLiteralExpr(CXXNullPtrLiteralExpr *E) {

  VisitExpr(E);

  E->setLocation(readSourceLocation());

}


void ASTStmtReader::VisitCXXTypeidExpr(CXXTypeidExpr *E) {

  VisitExpr(E);

  E->setSourceRange(readSourceRange());

  if (E->isTypeOperand())

    E->Operand = readTypeSourceInfo();

  else

    E->Operand = Record.readSubExpr();

}


void ASTStmtReader::VisitCXXThisExpr(CXXThisExpr *E) {

  VisitExpr(E);

  E->setLocation(readSourceLocation());

  E->setImplicit(Record.readInt());

  E->setCapturedByCopyInLambdaWithExplicitObjectParameter(Record.readInt());

}


void ASTStmtReader::VisitCXXThrowExpr(CXXThrowExpr *E) {

  VisitExpr(E);

  E->CXXThrowExprBits.ThrowLoc = readSourceLocation();

  E->Operand = Record.readSubExpr();

  E->CXXThrowExprBits.IsThrownVariableInScope = Record.readInt();

}


void ASTStmtReader::VisitCXXDefaultArgExpr(CXXDefaultArgExpr *E) {

  VisitExpr(E);

  E->Param = readDeclAs<ParmVarDecl>();

  E->UsedContext = readDeclAs<DeclContext>();

  E->CXXDefaultArgExprBits.Loc = readSourceLocation();

  E->CXXDefaultArgExprBits.HasRewrittenInit = Record.readInt();

  if (E->CXXDefaultArgExprBits.HasRewrittenInit)

    *E->getTrailingObjects<Expr *>() = Record.readSubExpr();

}


void ASTStmtReader::VisitCXXDefaultInitExpr(CXXDefaultInitExpr *E) {

  VisitExpr(E);

  E->CXXDefaultInitExprBits.HasRewrittenInit = Record.readInt();

  E->Field = readDeclAs<FieldDecl>();

  E->UsedContext = readDeclAs<DeclContext>();

  E->CXXDefaultInitExprBits.Loc = readSourceLocation();

  if (E->CXXDefaultInitExprBits.HasRewrittenInit)

    *E->getTrailingObjects<Expr *>() = Record.readSubExpr();

}


void ASTStmtReader::VisitCXXBindTemporaryExpr(CXXBindTemporaryExpr *E) {

  VisitExpr(E);

  E->setTemporary(Record.readCXXTemporary());

  E->setSubExpr(Record.readSubExpr());

}


void ASTStmtReader::VisitCXXScalarValueInitExpr(CXXScalarValueInitExpr *E) {

  VisitExpr(E);

  E->TypeInfo = readTypeSourceInfo();

  E->CXXScalarValueInitExprBits.RParenLoc = readSourceLocation();

}


void ASTStmtReader::VisitCXXNewExpr(CXXNewExpr *E) {

  VisitExpr(E);


  bool IsArray = Record.readInt();

  bool HasInit = Record.readInt();

  unsigned NumPlacementArgs = Record.readInt();

  bool IsParenTypeId = Record.readInt();


  E->CXXNewExprBits.IsGlobalNew = Record.readInt();

  E->CXXNewExprBits.ShouldPassAlignment = Record.readInt();

  E->CXXNewExprBits.UsualArrayDeleteWantsSize = Record.readInt();

  E->CXXNewExprBits.HasInitializer = Record.readInt();

  E->CXXNewExprBits.StoredInitializationStyle = Record.readInt();


  assert((IsArray == E->isArray()) && "Wrong IsArray!");

  assert((HasInit == E->hasInitializer()) && "Wrong HasInit!");

  assert((NumPlacementArgs == E->getNumPlacementArgs()) &&

         "Wrong NumPlacementArgs!");

  assert((IsParenTypeId == E->isParenTypeId()) && "Wrong IsParenTypeId!");

  (void)IsArray;

  (void)HasInit;

  (void)NumPlacementArgs;


  E->setOperatorNew(readDeclAs<FunctionDecl>());

  E->setOperatorDelete(readDeclAs<FunctionDecl>());

  E->AllocatedTypeInfo = readTypeSourceInfo();

  if (IsParenTypeId)

    E->getTrailingObjects<SourceRange>()[0] = readSourceRange();

  E->Range = readSourceRange();

  E->DirectInitRange = readSourceRange();


  // Install all the subexpressions.

  for (CXXNewExpr::raw_arg_iterator I = E->raw_arg_begin(),

                                    N = E->raw_arg_end();

       I != N; ++I)

    *I = Record.readSubStmt();

}


void ASTStmtReader::VisitCXXDeleteExpr(CXXDeleteExpr *E) {

  VisitExpr(E);

  E->CXXDeleteExprBits.GlobalDelete = Record.readInt();

  E->CXXDeleteExprBits.ArrayForm = Record.readInt();

  E->CXXDeleteExprBits.ArrayFormAsWritten = Record.readInt();

  E->CXXDeleteExprBits.UsualArrayDeleteWantsSize = Record.readInt();

  E->OperatorDelete = readDeclAs<FunctionDecl>();

  E->Argument = Record.readSubExpr();

  E->CXXDeleteExprBits.Loc = readSourceLocation();

}


void ASTStmtReader::VisitCXXPseudoDestructorExpr(CXXPseudoDestructorExpr *E) {

  VisitExpr(E);


  E->Base = Record.readSubExpr();

  E->IsArrow = Record.readInt();

  E->OperatorLoc = readSourceLocation();

  E->QualifierLoc = Record.readNestedNameSpecifierLoc();

  E->ScopeType = readTypeSourceInfo();

  E->ColonColonLoc = readSourceLocation();

  E->TildeLoc = readSourceLocation();


  IdentifierInfo *II = Record.readIdentifier();

  if (II)

    E->setDestroyedType(II, readSourceLocation());

  else

    E->setDestroyedType(readTypeSourceInfo());

}


void ASTStmtReader::VisitExprWithCleanups(ExprWithCleanups *E) {

  VisitExpr(E);


  unsigned NumObjects = Record.readInt();

  assert(NumObjects == E->getNumObjects());

  for (unsigned i = 0; i != NumObjects; ++i) {

    unsigned CleanupKind = Record.readInt();

    ExprWithCleanups::CleanupObject Obj;

    if (CleanupKind == COK_Block)

      Obj = readDeclAs<BlockDecl>();

    else if (CleanupKind == COK_CompoundLiteral)

      Obj = cast<CompoundLiteralExpr>(Record.readSubExpr());

    else

      llvm_unreachable("unexpected cleanup object type");

    E->getTrailingObjects<ExprWithCleanups::CleanupObject>()[i] = Obj;

  }


  E->ExprWithCleanupsBits.CleanupsHaveSideEffects = Record.readInt();

  E->SubExpr = Record.readSubExpr();

}


void ASTStmtReader::VisitCXXDependentScopeMemberExpr(

    CXXDependentScopeMemberExpr *E) {

  VisitExpr(E);


  unsigned NumTemplateArgs = Record.readInt();

  CurrentUnpackingBits.emplace(Record.readInt());

  bool HasTemplateKWAndArgsInfo = CurrentUnpackingBits->getNextBit();

  bool HasFirstQualifierFoundInScope = CurrentUnpackingBits->getNextBit();


  assert((HasTemplateKWAndArgsInfo == E->hasTemplateKWAndArgsInfo()) &&

         "Wrong HasTemplateKWAndArgsInfo!");

  assert(

      (HasFirstQualifierFoundInScope == E->hasFirstQualifierFoundInScope()) &&

      "Wrong HasFirstQualifierFoundInScope!");


  if (HasTemplateKWAndArgsInfo)

    ReadTemplateKWAndArgsInfo(

        *E->getTrailingObjects<ASTTemplateKWAndArgsInfo>(),

        E->getTrailingObjects<TemplateArgumentLoc>(), NumTemplateArgs);


  assert((NumTemplateArgs == E->getNumTemplateArgs()) &&

         "Wrong NumTemplateArgs!");


  E->CXXDependentScopeMemberExprBits.IsArrow =

      CurrentUnpackingBits->getNextBit();


  E->BaseType = Record.readType();

  E->QualifierLoc = Record.readNestedNameSpecifierLoc();

  // not ImplicitAccess

  if (CurrentUnpackingBits->getNextBit())

    E->Base = Record.readSubExpr();

  else

    E->Base = nullptr;


  E->CXXDependentScopeMemberExprBits.OperatorLoc = readSourceLocation();


  if (HasFirstQualifierFoundInScope)

    *E->getTrailingObjects<NamedDecl *>() = readDeclAs<NamedDecl>();


  E->MemberNameInfo = Record.readDeclarationNameInfo();

}


void

ASTStmtReader::VisitDependentScopeDeclRefExpr(DependentScopeDeclRefExpr *E) {

  VisitExpr(E);


  if (CurrentUnpackingBits->getNextBit()) // HasTemplateKWAndArgsInfo

    ReadTemplateKWAndArgsInfo(

        *E->getTrailingObjects<ASTTemplateKWAndArgsInfo>(),

        E->getTrailingObjects<TemplateArgumentLoc>(),

        /*NumTemplateArgs=*/CurrentUnpackingBits->getNextBits(/*Width=*/16));


  E->QualifierLoc = Record.readNestedNameSpecifierLoc();

  E->NameInfo = Record.readDeclarationNameInfo();

}


void

ASTStmtReader::VisitCXXUnresolvedConstructExpr(CXXUnresolvedConstructExpr *E) {

  VisitExpr(E);

  assert(Record.peekInt() == E->getNumArgs() &&

         "Read wrong record during creation ?");

  Record.skipInts(1);

  for (unsigned I = 0, N = E->getNumArgs(); I != N; ++I)

    E->setArg(I, Record.readSubExpr());

  E->TypeAndInitForm.setPointer(readTypeSourceInfo());

  E->setLParenLoc(readSourceLocation());

  E->setRParenLoc(readSourceLocation());

  E->TypeAndInitForm.setInt(Record.readInt());

}


void ASTStmtReader::VisitOverloadExpr(OverloadExpr *E) {

  VisitExpr(E);


  unsigned NumResults = Record.readInt();

  CurrentUnpackingBits.emplace(Record.readInt());

  bool HasTemplateKWAndArgsInfo = CurrentUnpackingBits->getNextBit();

  assert((E->getNumDecls() == NumResults) && "Wrong NumResults!");

  assert((E->hasTemplateKWAndArgsInfo() == HasTemplateKWAndArgsInfo) &&

         "Wrong HasTemplateKWAndArgsInfo!");


  if (HasTemplateKWAndArgsInfo) {

    unsigned NumTemplateArgs = Record.readInt();

    ReadTemplateKWAndArgsInfo(*E->getTrailingASTTemplateKWAndArgsInfo(),

                              E->getTrailingTemplateArgumentLoc(),

                              NumTemplateArgs);

    assert((E->getNumTemplateArgs() == NumTemplateArgs) &&

           "Wrong NumTemplateArgs!");

  }


  UnresolvedSet<8> Decls;

  for (unsigned I = 0; I != NumResults; ++I) {

    auto *D = readDeclAs<NamedDecl>();

    auto AS = (AccessSpecifier)Record.readInt();

    Decls.addDecl(D, AS);

  }


  DeclAccessPair *Results = E->getTrailingResults();

  UnresolvedSetIterator Iter = Decls.begin();

  for (unsigned I = 0; I != NumResults; ++I) {

    Results[I] = (Iter + I).getPair();

  }


  E->NameInfo = Record.readDeclarationNameInfo();

  E->QualifierLoc = Record.readNestedNameSpecifierLoc();

}


void ASTStmtReader::VisitUnresolvedMemberExpr(UnresolvedMemberExpr *E) {

  VisitOverloadExpr(E);

  E->UnresolvedMemberExprBits.IsArrow = CurrentUnpackingBits->getNextBit();

  E->UnresolvedMemberExprBits.HasUnresolvedUsing =

      CurrentUnpackingBits->getNextBit();


  if (/*!isImplicitAccess=*/CurrentUnpackingBits->getNextBit())

    E->Base = Record.readSubExpr();

  else

    E->Base = nullptr;


  E->OperatorLoc = readSourceLocation();


  E->BaseType = Record.readType();

}


void ASTStmtReader::VisitUnresolvedLookupExpr(UnresolvedLookupExpr *E) {

  VisitOverloadExpr(E);

  E->UnresolvedLookupExprBits.RequiresADL = CurrentUnpackingBits->getNextBit();

  E->NamingClass = readDeclAs<CXXRecordDecl>();

}


void ASTStmtReader::VisitTypeTraitExpr(TypeTraitExpr *E) {

  VisitExpr(E);

  E->TypeTraitExprBits.NumArgs = Record.readInt();

  E->TypeTraitExprBits.Kind = Record.readInt();

  E->TypeTraitExprBits.Value = Record.readInt();

  SourceRange Range = readSourceRange();

  E->Loc = Range.getBegin();

  E->RParenLoc = Range.getEnd();


  auto **Args = E->getTrailingObjects<TypeSourceInfo *>();

  for (unsigned I = 0, N = E->getNumArgs(); I != N; ++I)

    Args[I] = readTypeSourceInfo();

}


void ASTStmtReader::VisitArrayTypeTraitExpr(ArrayTypeTraitExpr *E) {

  VisitExpr(E);

  E->ATT = (ArrayTypeTrait)Record.readInt();

  E->Value = (unsigned int)Record.readInt();

  SourceRange Range = readSourceRange();

  E->Loc = Range.getBegin();

  E->RParen = Range.getEnd();

  E->QueriedType = readTypeSourceInfo();

  E->Dimension = Record.readSubExpr();

}


void ASTStmtReader::VisitExpressionTraitExpr(ExpressionTraitExpr *E) {

  VisitExpr(E);

  E->ET = (ExpressionTrait)Record.readInt();

  E->Value = (bool)Record.readInt();

  SourceRange Range = readSourceRange();

  E->QueriedExpression = Record.readSubExpr();

  E->Loc = Range.getBegin();

  E->RParen = Range.getEnd();

}


void ASTStmtReader::VisitCXXNoexceptExpr(CXXNoexceptExpr *E) {

  VisitExpr(E);

  E->CXXNoexceptExprBits.Value = Record.readInt();

  E->Range = readSourceRange();

  E->Operand = Record.readSubExpr();

}


void ASTStmtReader::VisitPackExpansionExpr(PackExpansionExpr *E) {

  VisitExpr(E);

  E->EllipsisLoc = readSourceLocation();

  E->NumExpansions = Record.readInt();

  E->Pattern = Record.readSubExpr();

}


void ASTStmtReader::VisitSizeOfPackExpr(SizeOfPackExpr *E) {

  VisitExpr(E);

  unsigned NumPartialArgs = Record.readInt();

  E->OperatorLoc = readSourceLocation();

  E->PackLoc = readSourceLocation();

  E->RParenLoc = readSourceLocation();

  E->Pack = Record.readDeclAs<NamedDecl>();

  if (E->isPartiallySubstituted()) {

    assert(E->Length == NumPartialArgs);

    for (auto *I = E->getTrailingObjects<TemplateArgument>(),

              *E = I + NumPartialArgs;

         I != E; ++I)

      new (I) TemplateArgument(Record.readTemplateArgument());

  } else if (!E->isValueDependent()) {

    E->Length = Record.readInt();

  }

}


void ASTStmtReader::VisitPackIndexingExpr(PackIndexingExpr *E) {

  VisitExpr(E);

  E->TransformedExpressions = Record.readInt();

  E->ExpandedToEmptyPack = Record.readInt();

  E->EllipsisLoc = readSourceLocation();

  E->RSquareLoc = readSourceLocation();

  E->SubExprs[0] = Record.readStmt();

  E->SubExprs[1] = Record.readStmt();

  auto **Exprs = E->getTrailingObjects<Expr *>();

  for (unsigned I = 0; I < E->TransformedExpressions; ++I)

    Exprs[I] = Record.readExpr();

}


void ASTStmtReader::VisitSubstNonTypeTemplateParmExpr(

                                              SubstNonTypeTemplateParmExpr *E) {

  VisitExpr(E);

  E->AssociatedDeclAndRef.setPointer(readDeclAs<Decl>());

  E->AssociatedDeclAndRef.setInt(CurrentUnpackingBits->getNextBit());

  E->Index = CurrentUnpackingBits->getNextBits(/*Width=*/12);

  if (CurrentUnpackingBits->getNextBit())

    E->PackIndex = Record.readInt();

  else

    E->PackIndex = 0;

  E->SubstNonTypeTemplateParmExprBits.NameLoc = readSourceLocation();

  E->Replacement = Record.readSubExpr();

}


void ASTStmtReader::VisitSubstNonTypeTemplateParmPackExpr(

                                          SubstNonTypeTemplateParmPackExpr *E) {

  VisitExpr(E);

  E->AssociatedDecl = readDeclAs<Decl>();

  E->Index = Record.readInt();

  TemplateArgument ArgPack = Record.readTemplateArgument();

  if (ArgPack.getKind() != TemplateArgument::Pack)

    return;


  E->Arguments = ArgPack.pack_begin();

  E->NumArguments = ArgPack.pack_size();

  E->NameLoc = readSourceLocation();

}


void ASTStmtReader::VisitFunctionParmPackExpr(FunctionParmPackExpr *E) {

  VisitExpr(E);

  E->NumParameters = Record.readInt();

  E->ParamPack = readDeclAs<ParmVarDecl>();

  E->NameLoc = readSourceLocation();

  auto **Parms = E->getTrailingObjects<VarDecl *>();

  for (unsigned i = 0, n = E->NumParameters; i != n; ++i)

    Parms[i] = readDeclAs<VarDecl>();

}


void ASTStmtReader::VisitMaterializeTemporaryExpr(MaterializeTemporaryExpr *E) {

  VisitExpr(E);

  bool HasMaterialzedDecl = Record.readInt();

  if (HasMaterialzedDecl)

    E->State = cast<LifetimeExtendedTemporaryDecl>(Record.readDecl());

  else

    E->State = Record.readSubExpr();

}


void ASTStmtReader::VisitCXXFoldExpr(CXXFoldExpr *E) {

  VisitExpr(E);

  E->LParenLoc = readSourceLocation();

  E->EllipsisLoc = readSourceLocation();

  E->RParenLoc = readSourceLocation();

  E->NumExpansions = Record.readInt();

  E->SubExprs[0] = Record.readSubExpr();

  E->SubExprs[1] = Record.readSubExpr();

  E->SubExprs[2] = Record.readSubExpr();

  E->Opcode = (BinaryOperatorKind)Record.readInt();

}


void ASTStmtReader::VisitCXXParenListInitExpr(CXXParenListInitExpr *E) {

  VisitExpr(E);

  unsigned ExpectedNumExprs = Record.readInt();

  assert(E->NumExprs == ExpectedNumExprs &&

         "expected number of expressions does not equal the actual number of "

         "serialized expressions.");

  E->NumUserSpecifiedExprs = Record.readInt();

  E->InitLoc = readSourceLocation();

  E->LParenLoc = readSourceLocation();

  E->RParenLoc = readSourceLocation();

  for (unsigned I = 0; I < ExpectedNumExprs; I++)

    E->getTrailingObjects<Expr *>()[I] = Record.readSubExpr();


  bool HasArrayFillerOrUnionDecl = Record.readBool();

  if (HasArrayFillerOrUnionDecl) {

    bool HasArrayFiller = Record.readBool();

    if (HasArrayFiller) {

      E->setArrayFiller(Record.readSubExpr());

    } else {

      E->setInitializedFieldInUnion(readDeclAs<FieldDecl>());

    }

  }

  E->updateDependence();

}


void ASTStmtReader::VisitOpaqueValueExpr(OpaqueValueExpr *E) {

  VisitExpr(E);

  E->SourceExpr = Record.readSubExpr();

  E->OpaqueValueExprBits.Loc = readSourceLocation();

  E->setIsUnique(Record.readInt());

}


void ASTStmtReader::VisitTypoExpr(TypoExpr *E) {

  llvm_unreachable("Cannot read TypoExpr nodes");

}


void ASTStmtReader::VisitRecoveryExpr(RecoveryExpr *E) {

  VisitExpr(E);

  unsigned NumArgs = Record.readInt();

  E->BeginLoc = readSourceLocation();

  E->EndLoc = readSourceLocation();

  assert((NumArgs + 0LL ==

          std::distance(E->children().begin(), E->children().end())) &&

         "Wrong NumArgs!");

  (void)NumArgs;

  for (Stmt *&Child : E->children())

    Child = Record.readSubStmt();

}


//===----------------------------------------------------------------------===//

// Microsoft Expressions and Statements

//===----------------------------------------------------------------------===//

void ASTStmtReader::VisitMSPropertyRefExpr(MSPropertyRefExpr *E) {

  VisitExpr(E);

  E->IsArrow = (Record.readInt() != 0);

  E->BaseExpr = Record.readSubExpr();

  E->QualifierLoc = Record.readNestedNameSpecifierLoc();

  E->MemberLoc = readSourceLocation();

  E->TheDecl = readDeclAs<MSPropertyDecl>();

}


void ASTStmtReader::VisitMSPropertySubscriptExpr(MSPropertySubscriptExpr *E) {

  VisitExpr(E);

  E->setBase(Record.readSubExpr());

  E->setIdx(Record.readSubExpr());

  E->setRBracketLoc(readSourceLocation());

}


void ASTStmtReader::VisitCXXUuidofExpr(CXXUuidofExpr *E) {

  VisitExpr(E);

  E->setSourceRange(readSourceRange());

  E->Guid = readDeclAs<MSGuidDecl>();

  if (E->isTypeOperand())

    E->Operand = readTypeSourceInfo();

  else

    E->Operand = Record.readSubExpr();

}


void ASTStmtReader::VisitSEHLeaveStmt(SEHLeaveStmt *S) {

  VisitStmt(S);

  S->setLeaveLoc(readSourceLocation());

}


void ASTStmtReader::VisitSEHExceptStmt(SEHExceptStmt *S) {

  VisitStmt(S);

  S->Loc = readSourceLocation();

  S->Children[SEHExceptStmt::FILTER_EXPR] = Record.readSubStmt();

  S->Children[SEHExceptStmt::BLOCK] = Record.readSubStmt();

}


void ASTStmtReader::VisitSEHFinallyStmt(SEHFinallyStmt *S) {

  VisitStmt(S);

  S->Loc = readSourceLocation();

  S->Block = Record.readSubStmt();

}


void ASTStmtReader::VisitSEHTryStmt(SEHTryStmt *S) {

  VisitStmt(S);

  S->IsCXXTry = Record.readInt();

  S->TryLoc = readSourceLocation();

  S->Children[SEHTryStmt::TRY] = Record.readSubStmt();

  S->Children[SEHTryStmt::HANDLER] = Record.readSubStmt();

}


//===----------------------------------------------------------------------===//

// CUDA Expressions and Statements

//===----------------------------------------------------------------------===//


void ASTStmtReader::VisitCUDAKernelCallExpr(CUDAKernelCallExpr *E) {

  VisitCallExpr(E);

  E->setPreArg(CUDAKernelCallExpr::CONFIG, Record.readSubExpr());

}


//===----------------------------------------------------------------------===//

// OpenCL Expressions and Statements.

//===----------------------------------------------------------------------===//

void ASTStmtReader::VisitAsTypeExpr(AsTypeExpr *E) {

  VisitExpr(E);

  E->BuiltinLoc = readSourceLocation();

  E->RParenLoc = readSourceLocation();

  E->SrcExpr = Record.readSubExpr();

}


//===----------------------------------------------------------------------===//

// OpenMP Directives.

//===----------------------------------------------------------------------===//


void ASTStmtReader::VisitOMPCanonicalLoop(OMPCanonicalLoop *S) {

  VisitStmt(S);

  for (Stmt *&SubStmt : S->SubStmts)

    SubStmt = Record.readSubStmt();

}


void ASTStmtReader::VisitOMPExecutableDirective(OMPExecutableDirective *E) {

  Record.readOMPChildren(E->Data);

  E->setLocStart(readSourceLocation());

  E->setLocEnd(readSourceLocation());

}


void ASTStmtReader::VisitOMPLoopBasedDirective(OMPLoopBasedDirective *D) {

  VisitStmt(D);

  // Field CollapsedNum was read in ReadStmtFromStream.

  Record.skipInts(1);

  VisitOMPExecutableDirective(D);

}


void ASTStmtReader::VisitOMPLoopDirective(OMPLoopDirective *D) {

  VisitOMPLoopBasedDirective(D);

}


void ASTStmtReader::VisitOMPMetaDirective(OMPMetaDirective *D) {

  VisitStmt(D);

  // The NumClauses field was read in ReadStmtFromStream.

  Record.skipInts(1);

  VisitOMPExecutableDirective(D);

}


void ASTStmtReader::VisitOMPParallelDirective(OMPParallelDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

  D->setHasCancel(Record.readBool());

}


void ASTStmtReader::VisitOMPSimdDirective(OMPSimdDirective *D) {

  VisitOMPLoopDirective(D);

}


void ASTStmtReader::VisitOMPLoopTransformationDirective(

    OMPLoopTransformationDirective *D) {

  VisitOMPLoopBasedDirective(D);

  D->setNumGeneratedLoops(Record.readUInt32());

}


void ASTStmtReader::VisitOMPTileDirective(OMPTileDirective *D) {

  VisitOMPLoopTransformationDirective(D);

}


void ASTStmtReader::VisitOMPUnrollDirective(OMPUnrollDirective *D) {

  VisitOMPLoopTransformationDirective(D);

}


void ASTStmtReader::VisitOMPReverseDirective(OMPReverseDirective *D) {

  VisitOMPLoopTransformationDirective(D);

}


void ASTStmtReader::VisitOMPInterchangeDirective(OMPInterchangeDirective *D) {

  VisitOMPLoopTransformationDirective(D);

}


void ASTStmtReader::VisitOMPForDirective(OMPForDirective *D) {

  VisitOMPLoopDirective(D);

  D->setHasCancel(Record.readBool());

}


void ASTStmtReader::VisitOMPForSimdDirective(OMPForSimdDirective *D) {

  VisitOMPLoopDirective(D);

}


void ASTStmtReader::VisitOMPSectionsDirective(OMPSectionsDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

  D->setHasCancel(Record.readBool());

}


void ASTStmtReader::VisitOMPSectionDirective(OMPSectionDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

  D->setHasCancel(Record.readBool());

}


void ASTStmtReader::VisitOMPScopeDirective(OMPScopeDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

}


void ASTStmtReader::VisitOMPSingleDirective(OMPSingleDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

}


void ASTStmtReader::VisitOMPMasterDirective(OMPMasterDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

}


void ASTStmtReader::VisitOMPCriticalDirective(OMPCriticalDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

  D->DirName = Record.readDeclarationNameInfo();

}


void ASTStmtReader::VisitOMPParallelForDirective(OMPParallelForDirective *D) {

  VisitOMPLoopDirective(D);

  D->setHasCancel(Record.readBool());

}


void ASTStmtReader::VisitOMPParallelForSimdDirective(

    OMPParallelForSimdDirective *D) {

  VisitOMPLoopDirective(D);

}


void ASTStmtReader::VisitOMPParallelMasterDirective(

    OMPParallelMasterDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

}


void ASTStmtReader::VisitOMPParallelMaskedDirective(

    OMPParallelMaskedDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

}


void ASTStmtReader::VisitOMPParallelSectionsDirective(

    OMPParallelSectionsDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

  D->setHasCancel(Record.readBool());

}


void ASTStmtReader::VisitOMPTaskDirective(OMPTaskDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

  D->setHasCancel(Record.readBool());

}


void ASTStmtReader::VisitOMPTaskyieldDirective(OMPTaskyieldDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

}


void ASTStmtReader::VisitOMPBarrierDirective(OMPBarrierDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

}


void ASTStmtReader::VisitOMPTaskwaitDirective(OMPTaskwaitDirective *D) {

  VisitStmt(D);

  // The NumClauses field was read in ReadStmtFromStream.

  Record.skipInts(1);

  VisitOMPExecutableDirective(D);

}


void ASTStmtReader::VisitOMPAssumeDirective(OMPAssumeDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

}


void ASTStmtReader::VisitOMPErrorDirective(OMPErrorDirective *D) {

  VisitStmt(D);

  // The NumClauses field was read in ReadStmtFromStream.

  Record.skipInts(1);

  VisitOMPExecutableDirective(D);

}


void ASTStmtReader::VisitOMPTaskgroupDirective(OMPTaskgroupDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

}


void ASTStmtReader::VisitOMPFlushDirective(OMPFlushDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

}


void ASTStmtReader::VisitOMPDepobjDirective(OMPDepobjDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

}


void ASTStmtReader::VisitOMPScanDirective(OMPScanDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

}


void ASTStmtReader::VisitOMPOrderedDirective(OMPOrderedDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

}


void ASTStmtReader::VisitOMPAtomicDirective(OMPAtomicDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

  D->Flags.IsXLHSInRHSPart = Record.readBool() ? 1 : 0;

  D->Flags.IsPostfixUpdate = Record.readBool() ? 1 : 0;

  D->Flags.IsFailOnly = Record.readBool() ? 1 : 0;

}


void ASTStmtReader::VisitOMPTargetDirective(OMPTargetDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

}


void ASTStmtReader::VisitOMPTargetDataDirective(OMPTargetDataDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

}


void ASTStmtReader::VisitOMPTargetEnterDataDirective(

    OMPTargetEnterDataDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

}


void ASTStmtReader::VisitOMPTargetExitDataDirective(

    OMPTargetExitDataDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

}


void ASTStmtReader::VisitOMPTargetParallelDirective(

    OMPTargetParallelDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

  D->setHasCancel(Record.readBool());

}


void ASTStmtReader::VisitOMPTargetParallelForDirective(

    OMPTargetParallelForDirective *D) {

  VisitOMPLoopDirective(D);

  D->setHasCancel(Record.readBool());

}


void ASTStmtReader::VisitOMPTeamsDirective(OMPTeamsDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

}


void ASTStmtReader::VisitOMPCancellationPointDirective(

    OMPCancellationPointDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

  D->setCancelRegion(Record.readEnum<OpenMPDirectiveKind>());

}


void ASTStmtReader::VisitOMPCancelDirective(OMPCancelDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

  D->setCancelRegion(Record.readEnum<OpenMPDirectiveKind>());

}


void ASTStmtReader::VisitOMPTaskLoopDirective(OMPTaskLoopDirective *D) {

  VisitOMPLoopDirective(D);

  D->setHasCancel(Record.readBool());

}


void ASTStmtReader::VisitOMPTaskLoopSimdDirective(OMPTaskLoopSimdDirective *D) {

  VisitOMPLoopDirective(D);

}


void ASTStmtReader::VisitOMPMasterTaskLoopDirective(

    OMPMasterTaskLoopDirective *D) {

  VisitOMPLoopDirective(D);

  D->setHasCancel(Record.readBool());

}


void ASTStmtReader::VisitOMPMaskedTaskLoopDirective(

    OMPMaskedTaskLoopDirective *D) {

  VisitOMPLoopDirective(D);

  D->setHasCancel(Record.readBool());

}


void ASTStmtReader::VisitOMPMasterTaskLoopSimdDirective(

    OMPMasterTaskLoopSimdDirective *D) {

  VisitOMPLoopDirective(D);

}


void ASTStmtReader::VisitOMPMaskedTaskLoopSimdDirective(

    OMPMaskedTaskLoopSimdDirective *D) {

  VisitOMPLoopDirective(D);

}


void ASTStmtReader::VisitOMPParallelMasterTaskLoopDirective(

    OMPParallelMasterTaskLoopDirective *D) {

  VisitOMPLoopDirective(D);

  D->setHasCancel(Record.readBool());

}


void ASTStmtReader::VisitOMPParallelMaskedTaskLoopDirective(

    OMPParallelMaskedTaskLoopDirective *D) {

  VisitOMPLoopDirective(D);

  D->setHasCancel(Record.readBool());

}


void ASTStmtReader::VisitOMPParallelMasterTaskLoopSimdDirective(

    OMPParallelMasterTaskLoopSimdDirective *D) {

  VisitOMPLoopDirective(D);

}


void ASTStmtReader::VisitOMPParallelMaskedTaskLoopSimdDirective(

    OMPParallelMaskedTaskLoopSimdDirective *D) {

  VisitOMPLoopDirective(D);

}


void ASTStmtReader::VisitOMPDistributeDirective(OMPDistributeDirective *D) {

  VisitOMPLoopDirective(D);

}


void ASTStmtReader::VisitOMPTargetUpdateDirective(OMPTargetUpdateDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

}


void ASTStmtReader::VisitOMPDistributeParallelForDirective(

    OMPDistributeParallelForDirective *D) {

  VisitOMPLoopDirective(D);

  D->setHasCancel(Record.readBool());

}


void ASTStmtReader::VisitOMPDistributeParallelForSimdDirective(

    OMPDistributeParallelForSimdDirective *D) {

  VisitOMPLoopDirective(D);

}


void ASTStmtReader::VisitOMPDistributeSimdDirective(

    OMPDistributeSimdDirective *D) {

  VisitOMPLoopDirective(D);

}


void ASTStmtReader::VisitOMPTargetParallelForSimdDirective(

    OMPTargetParallelForSimdDirective *D) {

  VisitOMPLoopDirective(D);

}


void ASTStmtReader::VisitOMPTargetSimdDirective(OMPTargetSimdDirective *D) {

  VisitOMPLoopDirective(D);

}


void ASTStmtReader::VisitOMPTeamsDistributeDirective(

    OMPTeamsDistributeDirective *D) {

  VisitOMPLoopDirective(D);

}


void ASTStmtReader::VisitOMPTeamsDistributeSimdDirective(

    OMPTeamsDistributeSimdDirective *D) {

  VisitOMPLoopDirective(D);

}


void ASTStmtReader::VisitOMPTeamsDistributeParallelForSimdDirective(

    OMPTeamsDistributeParallelForSimdDirective *D) {

  VisitOMPLoopDirective(D);

}


void ASTStmtReader::VisitOMPTeamsDistributeParallelForDirective(

    OMPTeamsDistributeParallelForDirective *D) {

  VisitOMPLoopDirective(D);

  D->setHasCancel(Record.readBool());

}


void ASTStmtReader::VisitOMPTargetTeamsDirective(OMPTargetTeamsDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

}


void ASTStmtReader::VisitOMPTargetTeamsDistributeDirective(

    OMPTargetTeamsDistributeDirective *D) {

  VisitOMPLoopDirective(D);

}


void ASTStmtReader::VisitOMPTargetTeamsDistributeParallelForDirective(

    OMPTargetTeamsDistributeParallelForDirective *D) {

  VisitOMPLoopDirective(D);

  D->setHasCancel(Record.readBool());

}


void ASTStmtReader::VisitOMPTargetTeamsDistributeParallelForSimdDirective(

    OMPTargetTeamsDistributeParallelForSimdDirective *D) {

  VisitOMPLoopDirective(D);

}


void ASTStmtReader::VisitOMPTargetTeamsDistributeSimdDirective(

    OMPTargetTeamsDistributeSimdDirective *D) {

  VisitOMPLoopDirective(D);

}


void ASTStmtReader::VisitOMPInteropDirective(OMPInteropDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

}


void ASTStmtReader::VisitOMPDispatchDirective(OMPDispatchDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

  D->setTargetCallLoc(Record.readSourceLocation());

}


void ASTStmtReader::VisitOMPMaskedDirective(OMPMaskedDirective *D) {

  VisitStmt(D);

  VisitOMPExecutableDirective(D);

}


void ASTStmtReader::VisitOMPGenericLoopDirective(OMPGenericLoopDirective *D) {

  VisitOMPLoopDirective(D);

}


void ASTStmtReader::VisitOMPTeamsGenericLoopDirective(

    OMPTeamsGenericLoopDirective *D) {

  VisitOMPLoopDirective(D);

}


void ASTStmtReader::VisitOMPTargetTeamsGenericLoopDirective(

    OMPTargetTeamsGenericLoopDirective *D) {

  VisitOMPLoopDirective(D);

  D->setCanBeParallelFor(Record.readBool());

}


void ASTStmtReader::VisitOMPParallelGenericLoopDirective(

    OMPParallelGenericLoopDirective *D) {

  VisitOMPLoopDirective(D);

}


void ASTStmtReader::VisitOMPTargetParallelGenericLoopDirective(

    OMPTargetParallelGenericLoopDirective *D) {

  VisitOMPLoopDirective(D);

}


//===----------------------------------------------------------------------===//

// OpenACC Constructs/Directives.

//===----------------------------------------------------------------------===//

void ASTStmtReader::VisitOpenACCConstructStmt(OpenACCConstructStmt *S) {

  (void)Record.readInt();

  S->Kind = Record.readEnum<OpenACCDirectiveKind>();

  S->Range = Record.readSourceRange();

  S->DirectiveLoc = Record.readSourceLocation();

  Record.readOpenACCClauseList(S->Clauses);

}


void ASTStmtReader::VisitOpenACCAssociatedStmtConstruct(

    OpenACCAssociatedStmtConstruct *S) {

  VisitOpenACCConstructStmt(S);

  S->setAssociatedStmt(Record.readSubStmt());

}


void ASTStmtReader::VisitOpenACCComputeConstruct(OpenACCComputeConstruct *S) {

  VisitStmt(S);

  VisitOpenACCAssociatedStmtConstruct(S);

  S->findAndSetChildLoops();

}


void ASTStmtReader::VisitOpenACCLoopConstruct(OpenACCLoopConstruct *S) {

  VisitStmt(S);

  VisitOpenACCAssociatedStmtConstruct(S);

}


//===----------------------------------------------------------------------===//

// ASTReader Implementation

//===----------------------------------------------------------------------===//


Stmt *ASTReader::ReadStmt(ModuleFile &F) {

  switch (ReadingKind) {

  case Read_None:

    llvm_unreachable("should not call this when not reading anything");

  case Read_Decl:

  case Read_Type:

    return ReadStmtFromStream(F);

  case Read_Stmt:

    return ReadSubStmt();

  }


  llvm_unreachable("ReadingKind not set ?");

}


Expr *ASTReader::ReadExpr(ModuleFile &F) {

  return cast_or_null<Expr>(ReadStmt(F));

}


Expr *ASTReader::ReadSubExpr() {

  return cast_or_null<Expr>(ReadSubStmt());

}


// Within the bitstream, expressions are stored in Reverse Polish

// Notation, with each of the subexpressions preceding the

// expression they are stored in. Subexpressions are stored from last to first.

// To evaluate expressions, we continue reading expressions and placing them on

// the stack, with expressions having operands removing those operands from the

// stack. Evaluation terminates when we see a STMT_STOP record, and

// the single remaining expression on the stack is our result.

Stmt *ASTReader::ReadStmtFromStream(ModuleFile &F) {

  ReadingKindTracker ReadingKind(Read_Stmt, *this);

  llvm::BitstreamCursor &Cursor = F.DeclsCursor;


  // Map of offset to previously deserialized stmt. The offset points

  // just after the stmt record.

  llvm::DenseMap<uint64_t, Stmt *> StmtEntries;


#ifndef NDEBUG

  unsigned PrevNumStmts = StmtStack.size();

#endif


  ASTRecordReader Record(*this, F);

  ASTStmtReader Reader(Record, Cursor);

  Stmt::EmptyShell Empty;


  while (true) {

    llvm::Expected<llvm::BitstreamEntry> MaybeEntry =

        Cursor.advanceSkippingSubblocks();

    if (!MaybeEntry) {

      Error(toString(MaybeEntry.takeError()));

      return nullptr;

    }

    llvm::BitstreamEntry Entry = MaybeEntry.get();


    switch (Entry.Kind) {

    case llvm::BitstreamEntry::SubBlock: // Handled for us already.

    case llvm::BitstreamEntry::Error:

      Error("malformed block record in AST file");

      return nullptr;

    case llvm::BitstreamEntry::EndBlock:

      goto Done;

    case llvm::BitstreamEntry::Record:

      // The interesting case.

      break;

    }


    ASTContext &Context = getContext();

    Stmt *S = nullptr;

    bool Finished = false;

    bool IsStmtReference = false;

    Expected<unsigned> MaybeStmtCode = Record.readRecord(Cursor, Entry.ID);

    if (!MaybeStmtCode) {

      Error(toString(MaybeStmtCode.takeError()));

      return nullptr;

    }

    switch ((StmtCode)MaybeStmtCode.get()) {

    case STMT_STOP:

      Finished = true;

      break;


    case STMT_REF_PTR:

      IsStmtReference = true;

      assert(StmtEntries.contains(Record[0]) &&

             "No stmt was recorded for this offset reference!");

      S = StmtEntries[Record.readInt()];

      break;


    case STMT_NULL_PTR:

      S = nullptr;

      break;


    case STMT_NULL:

      S = new (Context) NullStmt(Empty);

      break;


    case STMT_COMPOUND: {

      unsigned NumStmts = Record[ASTStmtReader::NumStmtFields];

      bool HasFPFeatures = Record[ASTStmtReader::NumStmtFields + 1];

      S = CompoundStmt::CreateEmpty(Context, NumStmts, HasFPFeatures);

      break;

    }


    case STMT_CASE:

      S = CaseStmt::CreateEmpty(

          Context,

          /*CaseStmtIsGNURange*/ Record[ASTStmtReader::NumStmtFields + 3]);

      break;


    case STMT_DEFAULT:

      S = new (Context) DefaultStmt(Empty);

      break;


    case STMT_LABEL:

      S = new (Context) LabelStmt(Empty);

      break;


    case STMT_ATTRIBUTED:

      S = AttributedStmt::CreateEmpty(

        Context,

        /*NumAttrs*/Record[ASTStmtReader::NumStmtFields]);

      break;


    case STMT_IF: {

      BitsUnpacker IfStmtBits(Record[ASTStmtReader::NumStmtFields]);

      bool HasElse = IfStmtBits.getNextBit();

      bool HasVar = IfStmtBits.getNextBit();

      bool HasInit = IfStmtBits.getNextBit();

      S = IfStmt::CreateEmpty(Context, HasElse, HasVar, HasInit);

      break;

    }


    case STMT_SWITCH:

      S = SwitchStmt::CreateEmpty(

          Context,

          /* HasInit=*/Record[ASTStmtReader::NumStmtFields],

          /* HasVar=*/Record[ASTStmtReader::NumStmtFields + 1]);

      break;


    case STMT_WHILE:

      S = WhileStmt::CreateEmpty(

          Context,

          /* HasVar=*/Record[ASTStmtReader::NumStmtFields]);

      break;


    case STMT_DO:

      S = new (Context) DoStmt(Empty);

      break;


    case STMT_FOR:

      S = new (Context) ForStmt(Empty);

      break;


    case STMT_GOTO:

      S = new (Context) GotoStmt(Empty);

      break;


    case STMT_INDIRECT_GOTO:

      S = new (Context) IndirectGotoStmt(Empty);

      break;


    case STMT_CONTINUE:

      S = new (Context) ContinueStmt(Empty);

      break;


    case STMT_BREAK:

      S = new (Context) BreakStmt(Empty);

      break;


    case STMT_RETURN:

      S = ReturnStmt::CreateEmpty(

          Context, /* HasNRVOCandidate=*/Record[ASTStmtReader::NumStmtFields]);

      break;


    case STMT_DECL:

      S = new (Context) DeclStmt(Empty);

      break;


    case STMT_GCCASM:

      S = new (Context) GCCAsmStmt(Empty);

      break;


    case STMT_MSASM:

      S = new (Context) MSAsmStmt(Empty);

      break;


    case STMT_CAPTURED:

      S = CapturedStmt::CreateDeserialized(

          Context, Record[ASTStmtReader::NumStmtFields]);

      break;


    case EXPR_CONSTANT:

      S = ConstantExpr::CreateEmpty(

          Context, static_cast<ConstantResultStorageKind>(

                       /*StorageKind=*/Record[ASTStmtReader::NumExprFields]));

      break;


    case EXPR_SYCL_UNIQUE_STABLE_NAME:

      S = SYCLUniqueStableNameExpr::CreateEmpty(Context);

      break;


    case EXPR_PREDEFINED:

      S = PredefinedExpr::CreateEmpty(

          Context,

          /*HasFunctionName*/ Record[ASTStmtReader::NumExprFields]);

      break;


    case EXPR_DECL_REF: {

      BitsUnpacker DeclRefExprBits(Record[ASTStmtReader::NumExprFields]);

      DeclRefExprBits.advance(5);

      bool HasFoundDecl = DeclRefExprBits.getNextBit();

      bool HasQualifier = DeclRefExprBits.getNextBit();

      bool HasTemplateKWAndArgsInfo = DeclRefExprBits.getNextBit();

      unsigned NumTemplateArgs = HasTemplateKWAndArgsInfo

                                     ? Record[ASTStmtReader::NumExprFields + 1]

                                     : 0;

      S = DeclRefExpr::CreateEmpty(Context, HasQualifier, HasFoundDecl,

                                   HasTemplateKWAndArgsInfo, NumTemplateArgs);

      break;

    }


    case EXPR_INTEGER_LITERAL:

      S = IntegerLiteral::Create(Context, Empty);

      break;


    case EXPR_FIXEDPOINT_LITERAL:

      S = FixedPointLiteral::Create(Context, Empty);

      break;


    case EXPR_FLOATING_LITERAL:

      S = FloatingLiteral::Create(Context, Empty);

      break;


    case EXPR_IMAGINARY_LITERAL:

      S = new (Context) ImaginaryLiteral(Empty);

      break;


    case EXPR_STRING_LITERAL:

      S = StringLiteral::CreateEmpty(

          Context,

          /* NumConcatenated=*/Record[ASTStmtReader::NumExprFields],

          /* Length=*/Record[ASTStmtReader::NumExprFields + 1],

          /* CharByteWidth=*/Record[ASTStmtReader::NumExprFields + 2]);

      break;


    case EXPR_CHARACTER_LITERAL:

      S = new (Context) CharacterLiteral(Empty);

      break;


    case EXPR_PAREN:

      S = new (Context) ParenExpr(Empty);

      break;


    case EXPR_PAREN_LIST:

      S = ParenListExpr::CreateEmpty(

          Context,

          /* NumExprs=*/Record[ASTStmtReader::NumExprFields]);

      break;


    case EXPR_UNARY_OPERATOR: {

      BitsUnpacker UnaryOperatorBits(Record[ASTStmtReader::NumStmtFields]);

      UnaryOperatorBits.advance(ASTStmtReader::NumExprBits);

      bool HasFPFeatures = UnaryOperatorBits.getNextBit();

      S = UnaryOperator::CreateEmpty(Context, HasFPFeatures);

      break;

    }


    case EXPR_OFFSETOF:

      S = OffsetOfExpr::CreateEmpty(Context,

                                    Record[ASTStmtReader::NumExprFields],

                                    Record[ASTStmtReader::NumExprFields + 1]);

      break;


    case EXPR_SIZEOF_ALIGN_OF:

      S = new (Context) UnaryExprOrTypeTraitExpr(Empty);

      break;


    case EXPR_ARRAY_SUBSCRIPT:

      S = new (Context) ArraySubscriptExpr(Empty);

      break;


    case EXPR_MATRIX_SUBSCRIPT:

      S = new (Context) MatrixSubscriptExpr(Empty);

      break;


    case EXPR_ARRAY_SECTION:

      S = new (Context) ArraySectionExpr(Empty);

      break;


    case EXPR_OMP_ARRAY_SHAPING:

      S = OMPArrayShapingExpr::CreateEmpty(

          Context, Record[ASTStmtReader::NumExprFields]);

      break;


    case EXPR_OMP_ITERATOR:

      S = OMPIteratorExpr::CreateEmpty(Context,

                                       Record[ASTStmtReader::NumExprFields]);

      break;


    case EXPR_CALL: {

      auto NumArgs = Record[ASTStmtReader::NumExprFields];

      BitsUnpacker CallExprBits(Record[ASTStmtReader::NumExprFields + 1]);

      CallExprBits.advance(1);

      auto HasFPFeatures = CallExprBits.getNextBit();

      S = CallExpr::CreateEmpty(Context, NumArgs, HasFPFeatures, Empty);

      break;

    }


    case EXPR_RECOVERY:

      S = RecoveryExpr::CreateEmpty(

          Context, /*NumArgs=*/Record[ASTStmtReader::NumExprFields]);

      break;


    case EXPR_MEMBER: {

      BitsUnpacker ExprMemberBits(Record[ASTStmtReader::NumExprFields]);

      bool HasQualifier = ExprMemberBits.getNextBit();

      bool HasFoundDecl = ExprMemberBits.getNextBit();

      bool HasTemplateInfo = ExprMemberBits.getNextBit();

      unsigned NumTemplateArgs = Record[ASTStmtReader::NumExprFields + 1];

      S = MemberExpr::CreateEmpty(Context, HasQualifier, HasFoundDecl,

                                  HasTemplateInfo, NumTemplateArgs);

      break;

    }


    case EXPR_BINARY_OPERATOR: {

      BitsUnpacker BinaryOperatorBits(Record[ASTStmtReader::NumExprFields]);

      BinaryOperatorBits.advance(/*Size of opcode*/ 6);

      bool HasFPFeatures = BinaryOperatorBits.getNextBit();

      S = BinaryOperator::CreateEmpty(Context, HasFPFeatures);

      break;

    }


    case EXPR_COMPOUND_ASSIGN_OPERATOR: {

      BitsUnpacker BinaryOperatorBits(Record[ASTStmtReader::NumExprFields]);

      BinaryOperatorBits.advance(/*Size of opcode*/ 6);

      bool HasFPFeatures = BinaryOperatorBits.getNextBit();

      S = CompoundAssignOperator::CreateEmpty(Context, HasFPFeatures);

      break;

    }


    case EXPR_CONDITIONAL_OPERATOR:

      S = new (Context) ConditionalOperator(Empty);

      break;


    case EXPR_BINARY_CONDITIONAL_OPERATOR:

      S = new (Context) BinaryConditionalOperator(Empty);

      break;


    case EXPR_IMPLICIT_CAST: {

      unsigned PathSize = Record[ASTStmtReader::NumExprFields];

      BitsUnpacker CastExprBits(Record[ASTStmtReader::NumExprFields + 1]);

      CastExprBits.advance(7);

      bool HasFPFeatures = CastExprBits.getNextBit();

      S = ImplicitCastExpr::CreateEmpty(Context, PathSize, HasFPFeatures);

      break;

    }


    case EXPR_CSTYLE_CAST: {

      unsigned PathSize = Record[ASTStmtReader::NumExprFields];

      BitsUnpacker CastExprBits(Record[ASTStmtReader::NumExprFields + 1]);

      CastExprBits.advance(7);

      bool HasFPFeatures = CastExprBits.getNextBit();

      S = CStyleCastExpr::CreateEmpty(Context, PathSize, HasFPFeatures);

      break;

    }


    case EXPR_COMPOUND_LITERAL:

      S = new (Context) CompoundLiteralExpr(Empty);

      break;


    case EXPR_EXT_VECTOR_ELEMENT:

      S = new (Context) ExtVectorElementExpr(Empty);

      break;


    case EXPR_INIT_LIST:

      S = new (Context) InitListExpr(Empty);

      break;


    case EXPR_DESIGNATED_INIT:

      S = DesignatedInitExpr::CreateEmpty(Context,

                                     Record[ASTStmtReader::NumExprFields] - 1);


      break;


    case EXPR_DESIGNATED_INIT_UPDATE:

      S = new (Context) DesignatedInitUpdateExpr(Empty);

      break;


    case EXPR_IMPLICIT_VALUE_INIT:

      S = new (Context) ImplicitValueInitExpr(Empty);

      break;


    case EXPR_NO_INIT:

      S = new (Context) NoInitExpr(Empty);

      break;


    case EXPR_ARRAY_INIT_LOOP:

      S = new (Context) ArrayInitLoopExpr(Empty);

      break;


    case EXPR_ARRAY_INIT_INDEX:

      S = new (Context) ArrayInitIndexExpr(Empty);

      break;


    case EXPR_VA_ARG:

      S = new (Context) VAArgExpr(Empty);

      break;


    case EXPR_SOURCE_LOC:

      S = new (Context) SourceLocExpr(Empty);

      break;


    case EXPR_BUILTIN_PP_EMBED:

      S = new (Context) EmbedExpr(Empty);

      break;


    case EXPR_ADDR_LABEL:

      S = new (Context) AddrLabelExpr(Empty);

      break;


    case EXPR_STMT:

      S = new (Context) StmtExpr(Empty);

      break;


    case EXPR_CHOOSE:

      S = new (Context) ChooseExpr(Empty);

      break;


    case EXPR_GNU_NULL:

      S = new (Context) GNUNullExpr(Empty);

      break;


    case EXPR_SHUFFLE_VECTOR:

      S = new (Context) ShuffleVectorExpr(Empty);

      break;


    case EXPR_CONVERT_VECTOR:

      S = new (Context) ConvertVectorExpr(Empty);

      break;


    case EXPR_BLOCK:

      S = new (Context) BlockExpr(Empty);

      break;


    case EXPR_GENERIC_SELECTION:

      S = GenericSelectionExpr::CreateEmpty(

          Context,

          /*NumAssocs=*/Record[ASTStmtReader::NumExprFields]);

      break;


    case EXPR_OBJC_STRING_LITERAL:

      S = new (Context) ObjCStringLiteral(Empty);

      break;


    case EXPR_OBJC_BOXED_EXPRESSION:

      S = new (Context) ObjCBoxedExpr(Empty);

      break;


    case EXPR_OBJC_ARRAY_LITERAL:

      S = ObjCArrayLiteral::CreateEmpty(Context,

                                        Record[ASTStmtReader::NumExprFields]);

      break;


    case EXPR_OBJC_DICTIONARY_LITERAL:

      S = ObjCDictionaryLiteral::CreateEmpty(Context,

            Record[ASTStmtReader::NumExprFields],

            Record[ASTStmtReader::NumExprFields + 1]);

      break;


    case EXPR_OBJC_ENCODE:

      S = new (Context) ObjCEncodeExpr(Empty);

      break;


    case EXPR_OBJC_SELECTOR_EXPR:

      S = new (Context) ObjCSelectorExpr(Empty);

      break;


    case EXPR_OBJC_PROTOCOL_EXPR:

      S = new (Context) ObjCProtocolExpr(Empty);

      break;


    case EXPR_OBJC_IVAR_REF_EXPR:

      S = new (Context) ObjCIvarRefExpr(Empty);

      break;


    case EXPR_OBJC_PROPERTY_REF_EXPR:

      S = new (Context) ObjCPropertyRefExpr(Empty);

      break;


    case EXPR_OBJC_SUBSCRIPT_REF_EXPR:

      S = new (Context) ObjCSubscriptRefExpr(Empty);

      break;


    case EXPR_OBJC_KVC_REF_EXPR:

      llvm_unreachable("mismatching AST file");


    case EXPR_OBJC_MESSAGE_EXPR:

      S = ObjCMessageExpr::CreateEmpty(Context,

                                     Record[ASTStmtReader::NumExprFields],

                                     Record[ASTStmtReader::NumExprFields + 1]);

      break;


    case EXPR_OBJC_ISA:

      S = new (Context) ObjCIsaExpr(Empty);

      break;


    case EXPR_OBJC_INDIRECT_COPY_RESTORE:

      S = new (Context) ObjCIndirectCopyRestoreExpr(Empty);

      break;


    case EXPR_OBJC_BRIDGED_CAST:

      S = new (Context) ObjCBridgedCastExpr(Empty);

      break;


    case STMT_OBJC_FOR_COLLECTION:

      S = new (Context) ObjCForCollectionStmt(Empty);

      break;


    case STMT_OBJC_CATCH:

      S = new (Context) ObjCAtCatchStmt(Empty);

      break;


    case STMT_OBJC_FINALLY:

      S = new (Context) ObjCAtFinallyStmt(Empty);

      break;


    case STMT_OBJC_AT_TRY:

      S = ObjCAtTryStmt::CreateEmpty(Context,

                                     Record[ASTStmtReader::NumStmtFields],

                                     Record[ASTStmtReader::NumStmtFields + 1]);

      break;


    case STMT_OBJC_AT_SYNCHRONIZED:

      S = new (Context) ObjCAtSynchronizedStmt(Empty);

      break;


    case STMT_OBJC_AT_THROW:

      S = new (Context) ObjCAtThrowStmt(Empty);

      break;


    case STMT_OBJC_AUTORELEASE_POOL:

      S = new (Context) ObjCAutoreleasePoolStmt(Empty);

      break;


    case EXPR_OBJC_BOOL_LITERAL:

      S = new (Context) ObjCBoolLiteralExpr(Empty);

      break;


    case EXPR_OBJC_AVAILABILITY_CHECK:

      S = new (Context) ObjCAvailabilityCheckExpr(Empty);

      break;


    case STMT_SEH_LEAVE:

      S = new (Context) SEHLeaveStmt(Empty);

      break;


    case STMT_SEH_EXCEPT:

      S = new (Context) SEHExceptStmt(Empty);

      break;


    case STMT_SEH_FINALLY:

      S = new (Context) SEHFinallyStmt(Empty);

      break;


    case STMT_SEH_TRY:

      S = new (Context) SEHTryStmt(Empty);

      break;


    case STMT_CXX_CATCH:

      S = new (Context) CXXCatchStmt(Empty);

      break;


    case STMT_CXX_TRY:

      S = CXXTryStmt::Create(Context, Empty,

             /*numHandlers=*/Record[ASTStmtReader::NumStmtFields]);

      break;


    case STMT_CXX_FOR_RANGE:

      S = new (Context) CXXForRangeStmt(Empty);

      break;


    case STMT_MS_DEPENDENT_EXISTS:

      S = new (Context) MSDependentExistsStmt(SourceLocation(), true,

                                              NestedNameSpecifierLoc(),

                                              DeclarationNameInfo(),

                                              nullptr);

      break;


    case STMT_OMP_CANONICAL_LOOP:

      S = OMPCanonicalLoop::createEmpty(Context);

      break;


    case STMT_OMP_META_DIRECTIVE:

      S = OMPMetaDirective::CreateEmpty(

          Context, Record[ASTStmtReader::NumStmtFields], Empty);

      break;


    case STMT_OMP_PARALLEL_DIRECTIVE:

      S =

        OMPParallelDirective::CreateEmpty(Context,

                                          Record[ASTStmtReader::NumStmtFields],

                                          Empty);

      break;


    case STMT_OMP_SIMD_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPSimdDirective::CreateEmpty(Context, NumClauses,

                                        CollapsedNum, Empty);

      break;

    }


    case STMT_OMP_TILE_DIRECTIVE: {

      unsigned NumLoops = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPTileDirective::CreateEmpty(Context, NumClauses, NumLoops);

      break;

    }


    case STMT_OMP_UNROLL_DIRECTIVE: {

      assert(Record[ASTStmtReader::NumStmtFields] == 1 && "Unroll directive accepts only a single loop");

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPUnrollDirective::CreateEmpty(Context, NumClauses);

      break;

    }


    case STMT_OMP_REVERSE_DIRECTIVE: {

      assert(Record[ASTStmtReader::NumStmtFields] == 1 &&

             "Reverse directive accepts only a single loop");

      assert(Record[ASTStmtReader::NumStmtFields + 1] == 0 &&

             "Reverse directive has no clauses");

      S = OMPReverseDirective::CreateEmpty(Context);

      break;

    }


    case STMT_OMP_INTERCHANGE_DIRECTIVE: {

      unsigned NumLoops = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPInterchangeDirective::CreateEmpty(Context, NumClauses, NumLoops);

      break;

    }


    case STMT_OMP_FOR_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPForDirective::CreateEmpty(Context, NumClauses, CollapsedNum,

                                       Empty);

      break;

    }


    case STMT_OMP_FOR_SIMD_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPForSimdDirective::CreateEmpty(Context, NumClauses, CollapsedNum,

                                           Empty);

      break;

    }


    case STMT_OMP_SECTIONS_DIRECTIVE:

      S = OMPSectionsDirective::CreateEmpty(

          Context, Record[ASTStmtReader::NumStmtFields], Empty);

      break;


    case STMT_OMP_SECTION_DIRECTIVE:

      S = OMPSectionDirective::CreateEmpty(Context, Empty);

      break;


    case STMT_OMP_SCOPE_DIRECTIVE:

      S = OMPScopeDirective::CreateEmpty(

          Context, Record[ASTStmtReader::NumStmtFields], Empty);

      break;


    case STMT_OMP_SINGLE_DIRECTIVE:

      S = OMPSingleDirective::CreateEmpty(

          Context, Record[ASTStmtReader::NumStmtFields], Empty);

      break;


    case STMT_OMP_MASTER_DIRECTIVE:

      S = OMPMasterDirective::CreateEmpty(Context, Empty);

      break;


    case STMT_OMP_CRITICAL_DIRECTIVE:

      S = OMPCriticalDirective::CreateEmpty(

          Context, Record[ASTStmtReader::NumStmtFields], Empty);

      break;


    case STMT_OMP_PARALLEL_FOR_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPParallelForDirective::CreateEmpty(Context, NumClauses,

                                               CollapsedNum, Empty);

      break;

    }


    case STMT_OMP_PARALLEL_FOR_SIMD_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPParallelForSimdDirective::CreateEmpty(Context, NumClauses,

                                                   CollapsedNum, Empty);

      break;

    }


    case STMT_OMP_PARALLEL_MASTER_DIRECTIVE:

      S = OMPParallelMasterDirective::CreateEmpty(

          Context, Record[ASTStmtReader::NumStmtFields], Empty);

      break;


    case STMT_OMP_PARALLEL_MASKED_DIRECTIVE:

      S = OMPParallelMaskedDirective::CreateEmpty(

          Context, Record[ASTStmtReader::NumStmtFields], Empty);

      break;


    case STMT_OMP_PARALLEL_SECTIONS_DIRECTIVE:

      S = OMPParallelSectionsDirective::CreateEmpty(

          Context, Record[ASTStmtReader::NumStmtFields], Empty);

      break;


    case STMT_OMP_TASK_DIRECTIVE:

      S = OMPTaskDirective::CreateEmpty(

          Context, Record[ASTStmtReader::NumStmtFields], Empty);

      break;


    case STMT_OMP_TASKYIELD_DIRECTIVE:

      S = OMPTaskyieldDirective::CreateEmpty(Context, Empty);

      break;


    case STMT_OMP_BARRIER_DIRECTIVE:

      S = OMPBarrierDirective::CreateEmpty(Context, Empty);

      break;


    case STMT_OMP_TASKWAIT_DIRECTIVE:

      S = OMPTaskwaitDirective::CreateEmpty(

          Context, Record[ASTStmtReader::NumStmtFields], Empty);

      break;


    case STMT_OMP_ERROR_DIRECTIVE:

      S = OMPErrorDirective::CreateEmpty(

          Context, Record[ASTStmtReader::NumStmtFields], Empty);

      break;


    case STMT_OMP_TASKGROUP_DIRECTIVE:

      S = OMPTaskgroupDirective::CreateEmpty(

          Context, Record[ASTStmtReader::NumStmtFields], Empty);

      break;


    case STMT_OMP_FLUSH_DIRECTIVE:

      S = OMPFlushDirective::CreateEmpty(

          Context, Record[ASTStmtReader::NumStmtFields], Empty);

      break;


    case STMT_OMP_DEPOBJ_DIRECTIVE:

      S = OMPDepobjDirective::CreateEmpty(

          Context, Record[ASTStmtReader::NumStmtFields], Empty);

      break;


    case STMT_OMP_SCAN_DIRECTIVE:

      S = OMPScanDirective::CreateEmpty(

          Context, Record[ASTStmtReader::NumStmtFields], Empty);

      break;


    case STMT_OMP_ORDERED_DIRECTIVE: {

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields];

      bool HasAssociatedStmt = Record[ASTStmtReader::NumStmtFields + 2];

      S = OMPOrderedDirective::CreateEmpty(Context, NumClauses,

                                           !HasAssociatedStmt, Empty);

      break;

    }


    case STMT_OMP_ATOMIC_DIRECTIVE:

      S = OMPAtomicDirective::CreateEmpty(

          Context, Record[ASTStmtReader::NumStmtFields], Empty);

      break;


    case STMT_OMP_TARGET_DIRECTIVE:

      S = OMPTargetDirective::CreateEmpty(

          Context, Record[ASTStmtReader::NumStmtFields], Empty);

      break;


    case STMT_OMP_TARGET_DATA_DIRECTIVE:

      S = OMPTargetDataDirective::CreateEmpty(

          Context, Record[ASTStmtReader::NumStmtFields], Empty);

      break;


    case STMT_OMP_TARGET_ENTER_DATA_DIRECTIVE:

      S = OMPTargetEnterDataDirective::CreateEmpty(

          Context, Record[ASTStmtReader::NumStmtFields], Empty);

      break;


    case STMT_OMP_TARGET_EXIT_DATA_DIRECTIVE:

      S = OMPTargetExitDataDirective::CreateEmpty(

          Context, Record[ASTStmtReader::NumStmtFields], Empty);

      break;


    case STMT_OMP_TARGET_PARALLEL_DIRECTIVE:

      S = OMPTargetParallelDirective::CreateEmpty(

          Context, Record[ASTStmtReader::NumStmtFields], Empty);

      break;


    case STMT_OMP_TARGET_PARALLEL_FOR_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPTargetParallelForDirective::CreateEmpty(Context, NumClauses,

                                                     CollapsedNum, Empty);

      break;

    }


    case STMT_OMP_TARGET_UPDATE_DIRECTIVE:

      S = OMPTargetUpdateDirective::CreateEmpty(

          Context, Record[ASTStmtReader::NumStmtFields], Empty);

      break;


    case STMT_OMP_TEAMS_DIRECTIVE:

      S = OMPTeamsDirective::CreateEmpty(

          Context, Record[ASTStmtReader::NumStmtFields], Empty);

      break;


    case STMT_OMP_CANCELLATION_POINT_DIRECTIVE:

      S = OMPCancellationPointDirective::CreateEmpty(Context, Empty);

      break;


    case STMT_OMP_CANCEL_DIRECTIVE:

      S = OMPCancelDirective::CreateEmpty(

          Context, Record[ASTStmtReader::NumStmtFields], Empty);

      break;


    case STMT_OMP_TASKLOOP_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPTaskLoopDirective::CreateEmpty(Context, NumClauses, CollapsedNum,

                                            Empty);

      break;

    }


    case STMT_OMP_TASKLOOP_SIMD_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPTaskLoopSimdDirective::CreateEmpty(Context, NumClauses,

                                                CollapsedNum, Empty);

      break;

    }


    case STMT_OMP_MASTER_TASKLOOP_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPMasterTaskLoopDirective::CreateEmpty(Context, NumClauses,

                                                  CollapsedNum, Empty);

      break;

    }


    case STMT_OMP_MASKED_TASKLOOP_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPMaskedTaskLoopDirective::CreateEmpty(Context, NumClauses,

                                                  CollapsedNum, Empty);

      break;

    }


    case STMT_OMP_MASTER_TASKLOOP_SIMD_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPMasterTaskLoopSimdDirective::CreateEmpty(Context, NumClauses,

                                                      CollapsedNum, Empty);

      break;

    }


    case STMT_OMP_MASKED_TASKLOOP_SIMD_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPMaskedTaskLoopSimdDirective::CreateEmpty(Context, NumClauses,

                                                      CollapsedNum, Empty);

      break;

    }


    case STMT_OMP_PARALLEL_MASTER_TASKLOOP_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPParallelMasterTaskLoopDirective::CreateEmpty(Context, NumClauses,

                                                          CollapsedNum, Empty);

      break;

    }


    case STMT_OMP_PARALLEL_MASKED_TASKLOOP_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPParallelMaskedTaskLoopDirective::CreateEmpty(Context, NumClauses,

                                                          CollapsedNum, Empty);

      break;

    }


    case STMT_OMP_PARALLEL_MASTER_TASKLOOP_SIMD_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPParallelMasterTaskLoopSimdDirective::CreateEmpty(

          Context, NumClauses, CollapsedNum, Empty);

      break;

    }


    case STMT_OMP_PARALLEL_MASKED_TASKLOOP_SIMD_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPParallelMaskedTaskLoopSimdDirective::CreateEmpty(

          Context, NumClauses, CollapsedNum, Empty);

      break;

    }


    case STMT_OMP_DISTRIBUTE_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPDistributeDirective::CreateEmpty(Context, NumClauses, CollapsedNum,

                                              Empty);

      break;

    }


    case STMT_OMP_DISTRIBUTE_PARALLEL_FOR_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPDistributeParallelForDirective::CreateEmpty(Context, NumClauses,

                                                         CollapsedNum, Empty);

      break;

    }


    case STMT_OMP_DISTRIBUTE_PARALLEL_FOR_SIMD_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPDistributeParallelForSimdDirective::CreateEmpty(Context, NumClauses,

                                                             CollapsedNum,

                                                             Empty);

      break;

    }


    case STMT_OMP_DISTRIBUTE_SIMD_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPDistributeSimdDirective::CreateEmpty(Context, NumClauses,

                                                  CollapsedNum, Empty);

      break;

    }


    case STMT_OMP_TARGET_PARALLEL_FOR_SIMD_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPTargetParallelForSimdDirective::CreateEmpty(Context, NumClauses,

                                                         CollapsedNum, Empty);

      break;

    }


    case STMT_OMP_TARGET_SIMD_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPTargetSimdDirective::CreateEmpty(Context, NumClauses, CollapsedNum,

                                              Empty);

      break;

    }


     case STMT_OMP_TEAMS_DISTRIBUTE_DIRECTIVE: {

       unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

       unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

       S = OMPTeamsDistributeDirective::CreateEmpty(Context, NumClauses,

                                                    CollapsedNum, Empty);

       break;

    }


    case STMT_OMP_TEAMS_DISTRIBUTE_SIMD_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPTeamsDistributeSimdDirective::CreateEmpty(Context, NumClauses,

                                                       CollapsedNum, Empty);

      break;

    }


    case STMT_OMP_TEAMS_DISTRIBUTE_PARALLEL_FOR_SIMD_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPTeamsDistributeParallelForSimdDirective::CreateEmpty(

          Context, NumClauses, CollapsedNum, Empty);

      break;

    }


    case STMT_OMP_TEAMS_DISTRIBUTE_PARALLEL_FOR_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPTeamsDistributeParallelForDirective::CreateEmpty(

          Context, NumClauses, CollapsedNum, Empty);

      break;

    }


    case STMT_OMP_TARGET_TEAMS_DIRECTIVE:

      S = OMPTargetTeamsDirective::CreateEmpty(

          Context, Record[ASTStmtReader::NumStmtFields], Empty);

      break;


    case STMT_OMP_TARGET_TEAMS_DISTRIBUTE_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPTargetTeamsDistributeDirective::CreateEmpty(Context, NumClauses,

                                                         CollapsedNum, Empty);

      break;

    }


    case STMT_OMP_TARGET_TEAMS_DISTRIBUTE_PARALLEL_FOR_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPTargetTeamsDistributeParallelForDirective::CreateEmpty(

          Context, NumClauses, CollapsedNum, Empty);

      break;

    }


    case STMT_OMP_TARGET_TEAMS_DISTRIBUTE_PARALLEL_FOR_SIMD_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPTargetTeamsDistributeParallelForSimdDirective::CreateEmpty(

          Context, NumClauses, CollapsedNum, Empty);

      break;

    }


    case STMT_OMP_TARGET_TEAMS_DISTRIBUTE_SIMD_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPTargetTeamsDistributeSimdDirective::CreateEmpty(

          Context, NumClauses, CollapsedNum, Empty);

      break;

    }


    case STMT_OMP_INTEROP_DIRECTIVE:

      S = OMPInteropDirective::CreateEmpty(

          Context, Record[ASTStmtReader::NumStmtFields], Empty);

      break;


    case STMT_OMP_DISPATCH_DIRECTIVE:

      S = OMPDispatchDirective::CreateEmpty(

          Context, Record[ASTStmtReader::NumStmtFields], Empty);

      break;


    case STMT_OMP_MASKED_DIRECTIVE:

      S = OMPMaskedDirective::CreateEmpty(

          Context, Record[ASTStmtReader::NumStmtFields], Empty);

      break;


    case STMT_OMP_GENERIC_LOOP_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPGenericLoopDirective::CreateEmpty(Context, NumClauses,

                                               CollapsedNum, Empty);

      break;

    }


    case STMT_OMP_TEAMS_GENERIC_LOOP_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPTeamsGenericLoopDirective::CreateEmpty(Context, NumClauses,

                                                    CollapsedNum, Empty);

      break;

    }


    case STMT_OMP_TARGET_TEAMS_GENERIC_LOOP_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPTargetTeamsGenericLoopDirective::CreateEmpty(Context, NumClauses,

                                                          CollapsedNum, Empty);

      break;

    }


    case STMT_OMP_PARALLEL_GENERIC_LOOP_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPParallelGenericLoopDirective::CreateEmpty(Context, NumClauses,

                                                       CollapsedNum, Empty);

      break;

    }


    case STMT_OMP_TARGET_PARALLEL_GENERIC_LOOP_DIRECTIVE: {

      unsigned CollapsedNum = Record[ASTStmtReader::NumStmtFields];

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields + 1];

      S = OMPTargetParallelGenericLoopDirective::CreateEmpty(

          Context, NumClauses, CollapsedNum, Empty);

      break;

    }


    case STMT_OMP_ASSUME_DIRECTIVE: {

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields];

      S = OMPAssumeDirective::CreateEmpty(Context, NumClauses, Empty);

      break;

    }


    case EXPR_CXX_OPERATOR_CALL: {

      auto NumArgs = Record[ASTStmtReader::NumExprFields];

      BitsUnpacker CallExprBits(Record[ASTStmtReader::NumExprFields + 1]);

      CallExprBits.advance(1);

      auto HasFPFeatures = CallExprBits.getNextBit();

      S = CXXOperatorCallExpr::CreateEmpty(Context, NumArgs, HasFPFeatures,

                                           Empty);

      break;

    }


    case EXPR_CXX_MEMBER_CALL: {

      auto NumArgs = Record[ASTStmtReader::NumExprFields];

      BitsUnpacker CallExprBits(Record[ASTStmtReader::NumExprFields + 1]);

      CallExprBits.advance(1);

      auto HasFPFeatures = CallExprBits.getNextBit();

      S = CXXMemberCallExpr::CreateEmpty(Context, NumArgs, HasFPFeatures,

                                         Empty);

      break;

    }


    case EXPR_CXX_REWRITTEN_BINARY_OPERATOR:

      S = new (Context) CXXRewrittenBinaryOperator(Empty);

      break;


    case EXPR_CXX_CONSTRUCT:

      S = CXXConstructExpr::CreateEmpty(

          Context,

          /* NumArgs=*/Record[ASTStmtReader::NumExprFields]);

      break;


    case EXPR_CXX_INHERITED_CTOR_INIT:

      S = new (Context) CXXInheritedCtorInitExpr(Empty);

      break;


    case EXPR_CXX_TEMPORARY_OBJECT:

      S = CXXTemporaryObjectExpr::CreateEmpty(

          Context,

          /* NumArgs=*/Record[ASTStmtReader::NumExprFields]);

      break;


    case EXPR_CXX_STATIC_CAST: {

      unsigned PathSize = Record[ASTStmtReader::NumExprFields];

      BitsUnpacker CastExprBits(Record[ASTStmtReader::NumExprFields + 1]);

      CastExprBits.advance(7);

      bool HasFPFeatures = CastExprBits.getNextBit();

      S = CXXStaticCastExpr::CreateEmpty(Context, PathSize, HasFPFeatures);

      break;

    }


    case EXPR_CXX_DYNAMIC_CAST: {

      unsigned PathSize = Record[ASTStmtReader::NumExprFields];

      S = CXXDynamicCastExpr::CreateEmpty(Context, PathSize);

      break;

    }


    case EXPR_CXX_REINTERPRET_CAST: {

      unsigned PathSize = Record[ASTStmtReader::NumExprFields];

      S = CXXReinterpretCastExpr::CreateEmpty(Context, PathSize);

      break;

    }


    case EXPR_CXX_CONST_CAST:

      S = CXXConstCastExpr::CreateEmpty(Context);

      break;


    case EXPR_CXX_ADDRSPACE_CAST:

      S = CXXAddrspaceCastExpr::CreateEmpty(Context);

      break;


    case EXPR_CXX_FUNCTIONAL_CAST: {

      unsigned PathSize = Record[ASTStmtReader::NumExprFields];

      BitsUnpacker CastExprBits(Record[ASTStmtReader::NumExprFields + 1]);

      CastExprBits.advance(7);

      bool HasFPFeatures = CastExprBits.getNextBit();

      S = CXXFunctionalCastExpr::CreateEmpty(Context, PathSize, HasFPFeatures);

      break;

    }


    case EXPR_BUILTIN_BIT_CAST: {

#ifndef NDEBUG

      unsigned PathSize = Record[ASTStmtReader::NumExprFields];

      assert(PathSize == 0 && "Wrong PathSize!");

#endif

      S = new (Context) BuiltinBitCastExpr(Empty);

      break;

    }


    case EXPR_USER_DEFINED_LITERAL: {

      auto NumArgs = Record[ASTStmtReader::NumExprFields];

      BitsUnpacker CallExprBits(Record[ASTStmtReader::NumExprFields + 1]);

      CallExprBits.advance(1);

      auto HasFPFeatures = CallExprBits.getNextBit();

      S = UserDefinedLiteral::CreateEmpty(Context, NumArgs, HasFPFeatures,

                                          Empty);

      break;

    }


    case EXPR_CXX_STD_INITIALIZER_LIST:

      S = new (Context) CXXStdInitializerListExpr(Empty);

      break;


    case EXPR_CXX_BOOL_LITERAL:

      S = new (Context) CXXBoolLiteralExpr(Empty);

      break;


    case EXPR_CXX_NULL_PTR_LITERAL:

      S = new (Context) CXXNullPtrLiteralExpr(Empty);

      break;


    case EXPR_CXX_TYPEID_EXPR:

      S = new (Context) CXXTypeidExpr(Empty, true);

      break;


    case EXPR_CXX_TYPEID_TYPE:

      S = new (Context) CXXTypeidExpr(Empty, false);

      break;


    case EXPR_CXX_UUIDOF_EXPR:

      S = new (Context) CXXUuidofExpr(Empty, true);

      break;


    case EXPR_CXX_PROPERTY_REF_EXPR:

      S = new (Context) MSPropertyRefExpr(Empty);

      break;


    case EXPR_CXX_PROPERTY_SUBSCRIPT_EXPR:

      S = new (Context) MSPropertySubscriptExpr(Empty);

      break;


    case EXPR_CXX_UUIDOF_TYPE:

      S = new (Context) CXXUuidofExpr(Empty, false);

      break;


    case EXPR_CXX_THIS:

      S = CXXThisExpr::CreateEmpty(Context);

      break;


    case EXPR_CXX_THROW:

      S = new (Context) CXXThrowExpr(Empty);

      break;


    case EXPR_CXX_DEFAULT_ARG:

      S = CXXDefaultArgExpr::CreateEmpty(

          Context, /*HasRewrittenInit=*/Record[ASTStmtReader::NumExprFields]);

      break;


    case EXPR_CXX_DEFAULT_INIT:

      S = CXXDefaultInitExpr::CreateEmpty(

          Context, /*HasRewrittenInit=*/Record[ASTStmtReader::NumExprFields]);

      break;


    case EXPR_CXX_BIND_TEMPORARY:

      S = new (Context) CXXBindTemporaryExpr(Empty);

      break;


    case EXPR_CXX_SCALAR_VALUE_INIT:

      S = new (Context) CXXScalarValueInitExpr(Empty);

      break;


    case EXPR_CXX_NEW:

      S = CXXNewExpr::CreateEmpty(

          Context,

          /*IsArray=*/Record[ASTStmtReader::NumExprFields],

          /*HasInit=*/Record[ASTStmtReader::NumExprFields + 1],

          /*NumPlacementArgs=*/Record[ASTStmtReader::NumExprFields + 2],

          /*IsParenTypeId=*/Record[ASTStmtReader::NumExprFields + 3]);

      break;


    case EXPR_CXX_DELETE:

      S = new (Context) CXXDeleteExpr(Empty);

      break;


    case EXPR_CXX_PSEUDO_DESTRUCTOR:

      S = new (Context) CXXPseudoDestructorExpr(Empty);

      break;


    case EXPR_EXPR_WITH_CLEANUPS:

      S = ExprWithCleanups::Create(Context, Empty,

                                   Record[ASTStmtReader::NumExprFields]);

      break;


    case EXPR_CXX_DEPENDENT_SCOPE_MEMBER: {

      unsigned NumTemplateArgs = Record[ASTStmtReader::NumExprFields];

      BitsUnpacker DependentScopeMemberBits(

          Record[ASTStmtReader::NumExprFields + 1]);

      bool HasTemplateKWAndArgsInfo = DependentScopeMemberBits.getNextBit();


      bool HasFirstQualifierFoundInScope =

          DependentScopeMemberBits.getNextBit();

      S = CXXDependentScopeMemberExpr::CreateEmpty(

          Context, HasTemplateKWAndArgsInfo, NumTemplateArgs,

          HasFirstQualifierFoundInScope);

      break;

    }


    case EXPR_CXX_DEPENDENT_SCOPE_DECL_REF: {

      BitsUnpacker DependentScopeDeclRefBits(

          Record[ASTStmtReader::NumStmtFields]);

      DependentScopeDeclRefBits.advance(ASTStmtReader::NumExprBits);

      bool HasTemplateKWAndArgsInfo = DependentScopeDeclRefBits.getNextBit();

      unsigned NumTemplateArgs =

          HasTemplateKWAndArgsInfo

              ? DependentScopeDeclRefBits.getNextBits(/*Width=*/16)

              : 0;

      S = DependentScopeDeclRefExpr::CreateEmpty(

          Context, HasTemplateKWAndArgsInfo, NumTemplateArgs);

      break;

    }


    case EXPR_CXX_UNRESOLVED_CONSTRUCT:

      S = CXXUnresolvedConstructExpr::CreateEmpty(Context,

                              /*NumArgs=*/Record[ASTStmtReader::NumExprFields]);

      break;


    case EXPR_CXX_UNRESOLVED_MEMBER: {

      auto NumResults = Record[ASTStmtReader::NumExprFields];

      BitsUnpacker OverloadExprBits(Record[ASTStmtReader::NumExprFields + 1]);

      auto HasTemplateKWAndArgsInfo = OverloadExprBits.getNextBit();

      auto NumTemplateArgs = HasTemplateKWAndArgsInfo

                                 ? Record[ASTStmtReader::NumExprFields + 2]

                                 : 0;

      S = UnresolvedMemberExpr::CreateEmpty(

          Context, NumResults, HasTemplateKWAndArgsInfo, NumTemplateArgs);

      break;

    }


    case EXPR_CXX_UNRESOLVED_LOOKUP: {

      auto NumResults = Record[ASTStmtReader::NumExprFields];

      BitsUnpacker OverloadExprBits(Record[ASTStmtReader::NumExprFields + 1]);

      auto HasTemplateKWAndArgsInfo = OverloadExprBits.getNextBit();

      auto NumTemplateArgs = HasTemplateKWAndArgsInfo

                                 ? Record[ASTStmtReader::NumExprFields + 2]

                                 : 0;

      S = UnresolvedLookupExpr::CreateEmpty(

          Context, NumResults, HasTemplateKWAndArgsInfo, NumTemplateArgs);

      break;

    }


    case EXPR_TYPE_TRAIT:

      S = TypeTraitExpr::CreateDeserialized(Context,

            Record[ASTStmtReader::NumExprFields]);

      break;


    case EXPR_ARRAY_TYPE_TRAIT:

      S = new (Context) ArrayTypeTraitExpr(Empty);

      break;


    case EXPR_CXX_EXPRESSION_TRAIT:

      S = new (Context) ExpressionTraitExpr(Empty);

      break;


    case EXPR_CXX_NOEXCEPT:

      S = new (Context) CXXNoexceptExpr(Empty);

      break;


    case EXPR_PACK_EXPANSION:

      S = new (Context) PackExpansionExpr(Empty);

      break;


    case EXPR_SIZEOF_PACK:

      S = SizeOfPackExpr::CreateDeserialized(

              Context,

              /*NumPartialArgs=*/Record[ASTStmtReader::NumExprFields]);

      break;


    case EXPR_PACK_INDEXING:

      S = PackIndexingExpr::CreateDeserialized(

          Context,

          /*TransformedExprs=*/Record[ASTStmtReader::NumExprFields]);

      break;


    case EXPR_SUBST_NON_TYPE_TEMPLATE_PARM:

      S = new (Context) SubstNonTypeTemplateParmExpr(Empty);

      break;


    case EXPR_SUBST_NON_TYPE_TEMPLATE_PARM_PACK:

      S = new (Context) SubstNonTypeTemplateParmPackExpr(Empty);

      break;


    case EXPR_FUNCTION_PARM_PACK:

      S = FunctionParmPackExpr::CreateEmpty(Context,

                                          Record[ASTStmtReader::NumExprFields]);

      break;


    case EXPR_MATERIALIZE_TEMPORARY:

      S = new (Context) MaterializeTemporaryExpr(Empty);

      break;


    case EXPR_CXX_FOLD:

      S = new (Context) CXXFoldExpr(Empty);

      break;


    case EXPR_CXX_PAREN_LIST_INIT:

      S = CXXParenListInitExpr::CreateEmpty(

          Context, /*numExprs=*/Record[ASTStmtReader::NumExprFields], Empty);

      break;


    case EXPR_OPAQUE_VALUE:

      S = new (Context) OpaqueValueExpr(Empty);

      break;


    case EXPR_CUDA_KERNEL_CALL: {

      auto NumArgs = Record[ASTStmtReader::NumExprFields];

      BitsUnpacker CallExprBits(Record[ASTStmtReader::NumExprFields + 1]);

      CallExprBits.advance(1);

      auto HasFPFeatures = CallExprBits.getNextBit();

      S = CUDAKernelCallExpr::CreateEmpty(Context, NumArgs, HasFPFeatures,

                                          Empty);

      break;

    }


    case EXPR_ASTYPE:

      S = new (Context) AsTypeExpr(Empty);

      break;


    case EXPR_PSEUDO_OBJECT: {

      unsigned numSemanticExprs = Record[ASTStmtReader::NumExprFields];

      S = PseudoObjectExpr::Create(Context, Empty, numSemanticExprs);

      break;

    }


    case EXPR_ATOMIC:

      S = new (Context) AtomicExpr(Empty);

      break;


    case EXPR_LAMBDA: {

      unsigned NumCaptures = Record[ASTStmtReader::NumExprFields];

      S = LambdaExpr::CreateDeserialized(Context, NumCaptures);

      break;

    }


    case STMT_COROUTINE_BODY: {

      unsigned NumParams = Record[ASTStmtReader::NumStmtFields];

      S = CoroutineBodyStmt::Create(Context, Empty, NumParams);

      break;

    }


    case STMT_CORETURN:

      S = new (Context) CoreturnStmt(Empty);

      break;


    case EXPR_COAWAIT:

      S = new (Context) CoawaitExpr(Empty);

      break;


    case EXPR_COYIELD:

      S = new (Context) CoyieldExpr(Empty);

      break;


    case EXPR_DEPENDENT_COAWAIT:

      S = new (Context) DependentCoawaitExpr(Empty);

      break;


    case EXPR_CONCEPT_SPECIALIZATION: {

      S = new (Context) ConceptSpecializationExpr(Empty);

      break;

    }

    case STMT_OPENACC_COMPUTE_CONSTRUCT: {

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields];

      S = OpenACCComputeConstruct::CreateEmpty(Context, NumClauses);

      break;

    }

    case STMT_OPENACC_LOOP_CONSTRUCT: {

      unsigned NumClauses = Record[ASTStmtReader::NumStmtFields];

      S = OpenACCLoopConstruct::CreateEmpty(Context, NumClauses);

      break;

    }

    case EXPR_REQUIRES:

      unsigned numLocalParameters = Record[ASTStmtReader::NumExprFields];

      unsigned numRequirement = Record[ASTStmtReader::NumExprFields + 1];

      S = RequiresExpr::Create(Context, Empty, numLocalParameters,

                               numRequirement);

      break;

    }


    // We hit a STMT_STOP, so we're done with this expression.

    if (Finished)

      break;


    ++NumStatementsRead;


    if (S && !IsStmtReference) {

      Reader.Visit(S);

      StmtEntries[Cursor.GetCurrentBitNo()] = S;

    }


    assert(Record.getIdx() == Record.size() &&

           "Invalid deserialization of statement");

    StmtStack.push_back(S);

  }

Done:

  assert(StmtStack.size() > PrevNumStmts && "Read too many sub-stmts!");

  assert(StmtStack.size() == PrevNumStmts + 1 && "Extra expressions on stack!");

  return StmtStack.pop_back_val();

}

ASTBitCodes.h

ASTConcept.h
This file provides AST data structures related to concepts.

ASTContext.h
Defines the clang::ASTContext interface.

readSubstitutionDiagnostic
static concepts::Requirement::SubstitutionDiagnostic * readSubstitutionDiagnostic(ASTRecordReader &Record)
Definition: ASTReaderStmt.cpp:823

readConstraintSatisfaction
static ConstraintSatisfaction readConstraintSatisfaction(ASTRecordReader &Record)
Definition: ASTReaderStmt.cpp:789

ASTRecordReader.h

AttrIterator.h

CapturedStmt.h

D
const Decl * D
Definition: CheckExprLifetime.cpp:200

E
Expr * E
Definition: CheckExprLifetime.cpp:198

DeclAccessPair.h

DeclCXX.h
Defines the C++ Decl subclasses, other than those for templates (found in DeclTemplate....

DeclGroup.h

DeclObjC.h

DeclTemplate.h
Defines the C++ template declaration subclasses.

Decl.h

DeclarationName.h

DependenceFlags.h

ExprCXX.h
Defines the clang::Expr interface and subclasses for C++ expressions.

ExprObjC.h

ExprOpenMP.h

Expr.h

ExpressionTraits.h
Defines enumerations for expression traits intrinsics.

Iter
unsigned Iter
Definition: HTMLLogger.cpp:154

LLVM.h
Forward-declares and imports various common LLVM datatypes that clang wants to use unqualified.

Lambda.h
Defines several types used to describe C++ lambda expressions that are shared between the parser and ...

LangOptions.h
Defines the clang::LangOptions interface.

Record
llvm::MachO::Record Record
Definition: MachO.h:31

NestedNameSpecifier.h

OpenMPClause.h
This file defines OpenMP AST classes for clauses.

OpenMPKinds.h
Defines some OpenMP-specific enums and functions.

OperationKinds.h

OperatorKinds.h
Defines an enumeration for C++ overloaded operators.

toString
static std::string toString(const clang::SanitizerSet &Sanitizers)
Produce a string containing comma-separated names of sanitizers in Sanitizers set.
Definition: SanitizerArgs.cpp:1080

Range
SourceRange Range
Definition: SemaObjC.cpp:757

SerializedDiagnosticReader::Cursor
Cursor
Definition: SerializedDiagnosticReader.cpp:109

SourceLocation.h
Defines the clang::SourceLocation class and associated facilities.

Specifiers.h
Defines various enumerations that describe declaration and type specifiers.

StmtCXX.h

StmtObjC.h
Defines the Objective-C statement AST node classes.

StmtOpenMP.h
This file defines OpenMP AST classes for executable directives and clauses.

StmtVisitor.h

Stmt.h

TemplateBase.h

Token.h

TypeTraits.h
Defines enumerations for the type traits support.

Type.h
C Language Family Type Representation.

Begin
SourceLocation Begin
Definition: USRLocFinder.cpp:165

UnresolvedSet.h

int
__device__ int
Definition: __clang_hip_libdevice_declares.h:67

Base

clang::ASTContext
Holds long-lived AST nodes (such as types and decls) that can be referred to throughout the semantic ...
Definition: ASTContext.h:187

clang::ASTReader::getContext
ASTContext & getContext()
Retrieve the AST context that this AST reader supplements.
Definition: ASTReader.h:2403

clang::ASTReader::ReadSubStmt
Stmt * ReadSubStmt()
Reads a sub-statement operand during statement reading.
Definition: ASTReader.h:2358

clang::ASTReader::ReadSubExpr
Expr * ReadSubExpr()
Reads a sub-expression operand during statement reading.
Definition: ASTReaderStmt.cpp:2862

clang::ASTReader::ReadExpr
Expr * ReadExpr(ModuleFile &F)
Reads an expression.
Definition: ASTReaderStmt.cpp:2858

clang::ASTReader::ReadStmt
Stmt * ReadStmt(ModuleFile &F)
Reads a statement.
Definition: ASTReaderStmt.cpp:2844

clang::ASTRecordReader
An object for streaming information from a record.
Definition: ASTRecordReader.h:33

clang::ASTStmtReader
Definition: ASTReaderStmt.cpp:72

clang::ASTStmtReader::NumExprFields
static const unsigned NumExprFields
The number of record fields required for the Expr class itself.
Definition: ASTReaderStmt.cpp:113

clang::ASTStmtReader::NumStmtFields
static const unsigned NumStmtFields
The number of record fields required for the Stmt class itself.
Definition: ASTReaderStmt.cpp:109

clang::ASTStmtReader::VisitStmt
void VisitStmt(Stmt *S)
Definition: ASTReaderStmt.cpp:143

clang::ASTStmtReader::NumExprBits
static const unsigned NumExprBits
The number of bits required for the packing bits for the Expr class.
Definition: ASTReaderStmt.cpp:116

clang::ASTStmtReader::ReadTemplateKWAndArgsInfo
void ReadTemplateKWAndArgsInfo(ASTTemplateKWAndArgsInfo &Args, TemplateArgumentLoc *ArgsLocArray, unsigned NumTemplateArgs)
Read and initialize a ExplicitTemplateArgumentList structure.
Definition: ASTReaderStmt.cpp:131

clang::ASTStmtReader::ASTStmtReader
ASTStmtReader(ASTRecordReader &Record, llvm::BitstreamCursor &Cursor)
Definition: ASTReaderStmt.cpp:104

clang::AddrLabelExpr
AddrLabelExpr - The GNU address of label extension, representing &&label.
Definition: Expr.h:4362

clang::ArrayInitIndexExpr
Represents the index of the current element of an array being initialized by an ArrayInitLoopExpr.
Definition: Expr.h:5746

clang::ArrayInitLoopExpr
Represents a loop initializing the elements of an array.
Definition: Expr.h:5693

clang::ArraySectionExpr
This class represents BOTH the OpenMP Array Section and OpenACC 'subarray', with a boolean differenti...
Definition: Expr.h:6916

clang::ArraySectionExpr::ArraySectionType
ArraySectionType
Definition: Expr.h:6921

clang::ArraySubscriptExpr
ArraySubscriptExpr - [C99 6.5.2.1] Array Subscripting.
Definition: Expr.h:2674

clang::ArrayTypeTraitExpr
An Embarcadero array type trait, as used in the implementation of __array_rank and __array_extent.
Definition: ExprCXX.h:2852

clang::AsTypeExpr
AsTypeExpr - Clang builtin function __builtin_astype [OpenCL 6.2.4.2] This AST node provides support ...
Definition: Expr.h:6416

clang::AsmStmt
AsmStmt is the base class for GCCAsmStmt and MSAsmStmt.
Definition: Stmt.h:3105

clang::AtomicExpr
AtomicExpr - Variadic atomic builtins: __atomic_exchange, __atomic_fetch_*, __atomic_load,...
Definition: Expr.h:6619

clang::AtomicExpr::AtomicOp
AtomicOp
Definition: Expr.h:6621

clang::AtomicExpr::getNumSubExprs
unsigned getNumSubExprs() const
Definition: Expr.h:6694

clang::AttributedStmt
Represents an attribute applied to a statement.
Definition: Stmt.h:2085

clang::AttributedStmt::CreateEmpty
static AttributedStmt * CreateEmpty(const ASTContext &C, unsigned NumAttrs)
Definition: Stmt.cpp:434

clang::BinaryConditionalOperator
BinaryConditionalOperator - The GNU extension to the conditional operator which allows the middle ope...
Definition: Expr.h:4265

clang::BinaryOperator
A builtin binary operation expression such as "x + y" or "x <= y".
Definition: Expr.h:3860

clang::BinaryOperator::CreateEmpty
static BinaryOperator * CreateEmpty(const ASTContext &C, bool hasFPFeatures)
Definition: Expr.cpp:4796

clang::BitsUnpacker
A simple helper class to unpack an integer to bits and consuming the bits in order.
Definition: ASTReader.h:2465

clang::BlockExpr
BlockExpr - Adaptor class for mixing a BlockDecl with expressions.
Definition: Expr.h:6355

clang::BreakStmt
BreakStmt - This represents a break.
Definition: Stmt.h:2985

clang::BuiltinBitCastExpr
Represents a C++2a __builtin_bit_cast(T, v) expression.
Definition: ExprCXX.h:5291

clang::CStyleCastExpr
CStyleCastExpr - An explicit cast in C (C99 6.5.4) or a C-style cast in C++ (C++ [expr....
Definition: Expr.h:3791

clang::CStyleCastExpr::CreateEmpty
static CStyleCastExpr * CreateEmpty(const ASTContext &Context, unsigned PathSize, bool HasFPFeatures)
Definition: Expr.cpp:2123

clang::CUDAKernelCallExpr
Represents a call to a CUDA kernel function.
Definition: ExprCXX.h:231

clang::CUDAKernelCallExpr::CreateEmpty
static CUDAKernelCallExpr * CreateEmpty(const ASTContext &Ctx, unsigned NumArgs, bool HasFPFeatures, EmptyShell Empty)
Definition: ExprCXX.cpp:1921

clang::CXXAddrspaceCastExpr
A C++ addrspace_cast expression (currently only enabled for OpenCL).
Definition: ExprCXX.h:601

clang::CXXAddrspaceCastExpr::CreateEmpty
static CXXAddrspaceCastExpr * CreateEmpty(const ASTContext &Context)
Definition: ExprCXX.cpp:898

clang::CXXBaseSpecifier
Represents a base class of a C++ class.
Definition: DeclCXX.h:146

clang::CXXBindTemporaryExpr
Represents binding an expression to a temporary.
Definition: ExprCXX.h:1491

clang::CXXBoolLiteralExpr
A boolean literal, per ([C++ lex.bool] Boolean literals).
Definition: ExprCXX.h:720

clang::CXXCatchStmt
CXXCatchStmt - This represents a C++ catch block.
Definition: StmtCXX.h:28

clang::CXXConstCastExpr
A C++ const_cast expression (C++ [expr.const.cast]).
Definition: ExprCXX.h:563

clang::CXXConstCastExpr::CreateEmpty
static CXXConstCastExpr * CreateEmpty(const ASTContext &Context)
Definition: ExprCXX.cpp:885

clang::CXXConstructExpr
Represents a call to a C++ constructor.
Definition: ExprCXX.h:1546

clang::CXXConstructExpr::CreateEmpty
static CXXConstructExpr * CreateEmpty(const ASTContext &Ctx, unsigned NumArgs)
Create an empty C++ construction expression.
Definition: ExprCXX.cpp:1175

clang::CXXDefaultArgExpr
A default argument (C++ [dcl.fct.default]).
Definition: ExprCXX.h:1268

clang::CXXDefaultArgExpr::CreateEmpty
static CXXDefaultArgExpr * CreateEmpty(const ASTContext &C, bool HasRewrittenInit)
Definition: ExprCXX.cpp:1012

clang::CXXDefaultInitExpr
A use of a default initializer in a constructor or in aggregate initialization.
Definition: ExprCXX.h:1375

clang::CXXDefaultInitExpr::CreateEmpty
static CXXDefaultInitExpr * CreateEmpty(const ASTContext &C, bool HasRewrittenInit)
Definition: ExprCXX.cpp:1066

clang::CXXDeleteExpr
Represents a delete expression for memory deallocation and destructor calls, e.g.
Definition: ExprCXX.h:2497

clang::CXXDependentScopeMemberExpr
Represents a C++ member access expression where the actual member referenced could not be resolved be...
Definition: ExprCXX.h:3682

clang::CXXDependentScopeMemberExpr::CreateEmpty
static CXXDependentScopeMemberExpr * CreateEmpty(const ASTContext &Ctx, bool HasTemplateKWAndArgsInfo, unsigned NumTemplateArgs, bool HasFirstQualifierFoundInScope)
Definition: ExprCXX.cpp:1555

clang::CXXDynamicCastExpr
A C++ dynamic_cast expression (C++ [expr.dynamic.cast]).
Definition: ExprCXX.h:478

clang::CXXDynamicCastExpr::CreateEmpty
static CXXDynamicCastExpr * CreateEmpty(const ASTContext &Context, unsigned pathSize)
Definition: ExprCXX.cpp:807

clang::CXXFoldExpr
Represents a folding of a pack over an operator.
Definition: ExprCXX.h:4839

clang::CXXForRangeStmt
CXXForRangeStmt - This represents C++0x [stmt.ranged]'s ranged for statement, represented as 'for (ra...
Definition: StmtCXX.h:135

clang::CXXFunctionalCastExpr
Represents an explicit C++ type conversion that uses "functional" notation (C++ [expr....
Definition: ExprCXX.h:1817

clang::CXXFunctionalCastExpr::CreateEmpty
static CXXFunctionalCastExpr * CreateEmpty(const ASTContext &Context, unsigned PathSize, bool HasFPFeatures)
Definition: ExprCXX.cpp:918

clang::CXXInheritedCtorInitExpr
Represents a call to an inherited base class constructor from an inheriting constructor.
Definition: ExprCXX.h:1737

clang::CXXMemberCallExpr
Represents a call to a member function that may be written either with member call syntax (e....
Definition: ExprCXX.h:176

clang::CXXMemberCallExpr::CreateEmpty
static CXXMemberCallExpr * CreateEmpty(const ASTContext &Ctx, unsigned NumArgs, bool HasFPFeatures, EmptyShell Empty)
Definition: ExprCXX.cpp:692

clang::CXXNamedCastExpr
Abstract class common to all of the C++ "named"/"keyword" casts.
Definition: ExprCXX.h:372

clang::CXXNewExpr
Represents a new-expression for memory allocation and constructor calls, e.g: "new CXXNewExpr(foo)".
Definition: ExprCXX.h:2240

clang::CXXNewExpr::CreateEmpty
static CXXNewExpr * CreateEmpty(const ASTContext &Ctx, bool IsArray, bool HasInit, unsigned NumPlacementArgs, bool IsParenTypeId)
Create an empty c++ new expression.
Definition: ExprCXX.cpp:315

clang::CXXNoexceptExpr
Represents a C++11 noexcept expression (C++ [expr.unary.noexcept]).
Definition: ExprCXX.h:4125

clang::CXXNullPtrLiteralExpr
The null pointer literal (C++11 [lex.nullptr])
Definition: ExprCXX.h:765

clang::CXXOperatorCallExpr
A call to an overloaded operator written using operator syntax.
Definition: ExprCXX.h:81

clang::CXXOperatorCallExpr::CreateEmpty
static CXXOperatorCallExpr * CreateEmpty(const ASTContext &Ctx, unsigned NumArgs, bool HasFPFeatures, EmptyShell Empty)
Definition: ExprCXX.cpp:627

clang::CXXParenListInitExpr
Represents a list-initialization with parenthesis.
Definition: ExprCXX.h:4953

clang::CXXParenListInitExpr::CreateEmpty
static CXXParenListInitExpr * CreateEmpty(ASTContext &C, unsigned numExprs, EmptyShell Empty)
Definition: ExprCXX.cpp:1943

clang::CXXPseudoDestructorExpr
Represents a C++ pseudo-destructor (C++ [expr.pseudo]).
Definition: ExprCXX.h:2616

clang::CXXReinterpretCastExpr
A C++ reinterpret_cast expression (C++ [expr.reinterpret.cast]).
Definition: ExprCXX.h:523

clang::CXXReinterpretCastExpr::CreateEmpty
static CXXReinterpretCastExpr * CreateEmpty(const ASTContext &Context, unsigned pathSize)
Definition: ExprCXX.cpp:871

clang::CXXRewrittenBinaryOperator
A rewritten comparison expression that was originally written using operator syntax.
Definition: ExprCXX.h:283

clang::CXXScalarValueInitExpr
An expression "T()" which creates a value-initialized rvalue of type T, which is a non-class type.
Definition: ExprCXX.h:2181

clang::CXXStaticCastExpr
A C++ static_cast expression (C++ [expr.static.cast]).
Definition: ExprCXX.h:433

clang::CXXStaticCastExpr::CreateEmpty
static CXXStaticCastExpr * CreateEmpty(const ASTContext &Context, unsigned PathSize, bool hasFPFeatures)
Definition: ExprCXX.cpp:779

clang::CXXStdInitializerListExpr
Implicit construction of a std::initializer_list<T> object from an array temporary within list-initia...
Definition: ExprCXX.h:797

clang::CXXTemporaryObjectExpr
Represents a C++ functional cast expression that builds a temporary object.
Definition: ExprCXX.h:1885

clang::CXXTemporaryObjectExpr::CreateEmpty
static CXXTemporaryObjectExpr * CreateEmpty(const ASTContext &Ctx, unsigned NumArgs)
Definition: ExprCXX.cpp:1141

clang::CXXThisExpr
Represents the this expression in C++.
Definition: ExprCXX.h:1152

clang::CXXThisExpr::CreateEmpty
static CXXThisExpr * CreateEmpty(const ASTContext &Ctx)
Definition: ExprCXX.cpp:1575

clang::CXXThrowExpr
A C++ throw-expression (C++ [except.throw]).
Definition: ExprCXX.h:1206

clang::CXXTryStmt
CXXTryStmt - A C++ try block, including all handlers.
Definition: StmtCXX.h:69

clang::CXXTryStmt::Create
static CXXTryStmt * Create(const ASTContext &C, SourceLocation tryLoc, CompoundStmt *tryBlock, ArrayRef< Stmt * > handlers)
Definition: StmtCXX.cpp:25

clang::CXXTypeidExpr
A C++ typeid expression (C++ [expr.typeid]), which gets the type_info that corresponds to the supplie...
Definition: ExprCXX.h:845

clang::CXXUnresolvedConstructExpr
Describes an explicit type conversion that uses functional notion but could not be resolved because o...
Definition: ExprCXX.h:3556

clang::CXXUnresolvedConstructExpr::CreateEmpty
static CXXUnresolvedConstructExpr * CreateEmpty(const ASTContext &Context, unsigned NumArgs)
Definition: ExprCXX.cpp:1482

clang::CXXUuidofExpr
A Microsoft C++ __uuidof expression, which gets the _GUID that corresponds to the supplied type or ex...
Definition: ExprCXX.h:1066

clang::CallExpr
CallExpr - Represents a function call (C99 6.5.2.2, C++ [expr.call]).
Definition: Expr.h:2830

clang::CallExpr::ADLCallKind
ADLCallKind
Definition: Expr.h:2886

clang::CallExpr::CreateEmpty
static CallExpr * CreateEmpty(const ASTContext &Ctx, unsigned NumArgs, bool HasFPFeatures, EmptyShell Empty)
Create an empty call expression, for deserialization.
Definition: Expr.cpp:1518

clang::CapturedStmt
This captures a statement into a function.
Definition: Stmt.h:3762

clang::CapturedStmt::CreateDeserialized
static CapturedStmt * CreateDeserialized(const ASTContext &Context, unsigned NumCaptures)
Definition: Stmt.cpp:1385

clang::CapturedStmt::VariableCaptureKind
VariableCaptureKind
The different capture forms: by 'this', by reference, capture for variable-length array type etc.
Definition: Stmt.h:3766

clang::CaseStmt
CaseStmt - Represent a case statement.
Definition: Stmt.h:1806

clang::CaseStmt::CreateEmpty
static CaseStmt * CreateEmpty(const ASTContext &Ctx, bool CaseStmtIsGNURange)
Build an empty case statement.
Definition: Stmt.cpp:1231

clang::CastExpr
CastExpr - Base class for type casts, including both implicit casts (ImplicitCastExpr) and explicit c...
Definition: Expr.h:3498

clang::CharacterLiteral
Definition: Expr.h:1591

clang::ChooseExpr
ChooseExpr - GNU builtin-in function __builtin_choose_expr.
Definition: Expr.h:4582

clang::CoawaitExpr
Represents a 'co_await' expression.
Definition: ExprCXX.h:5184

clang::CompoundAssignOperator
CompoundAssignOperator - For compound assignments (e.g.
Definition: Expr.h:4112

clang::CompoundAssignOperator::CreateEmpty
static CompoundAssignOperator * CreateEmpty(const ASTContext &C, bool hasFPFeatures)
Definition: Expr.cpp:4818

clang::CompoundLiteralExpr
CompoundLiteralExpr - [C99 6.5.2.5].
Definition: Expr.h:3428

clang::CompoundStmt
CompoundStmt - This represents a group of statements like { stmt stmt }.
Definition: Stmt.h:1606

clang::CompoundStmt::CreateEmpty
static CompoundStmt * CreateEmpty(const ASTContext &C, unsigned NumStmts, bool HasFPFeatures)
Definition: Stmt.cpp:393

clang::ConceptSpecializationExpr
Represents the specialization of a concept - evaluates to a prvalue of type bool.
Definition: ExprConcepts.h:42

clang::ConditionalOperator
ConditionalOperator - The ?: ternary operator.
Definition: Expr.h:4203

clang::ConstantExpr
ConstantExpr - An expression that occurs in a constant context and optionally the result of evaluatin...
Definition: Expr.h:1077

clang::ConstantExpr::CreateEmpty
static ConstantExpr * CreateEmpty(const ASTContext &Context, ConstantResultStorageKind StorageKind)
Definition: Expr.cpp:367

clang::ConstraintSatisfaction
The result of a constraint satisfaction check, containing the necessary information to diagnose an un...
Definition: ASTConcept.h:35

clang::ConstraintSatisfaction::SubstitutionDiagnostic
std::pair< SourceLocation, StringRef > SubstitutionDiagnostic
Definition: ASTConcept.h:49

clang::ConstraintSatisfaction::ContainsErrors
bool ContainsErrors
Definition: ASTConcept.h:53

clang::ConstraintSatisfaction::Details
llvm::SmallVector< Detail, 4 > Details
The substituted constraint expr, if the template arguments could be substituted into them,...
Definition: ASTConcept.h:58

clang::ConstraintSatisfaction::IsSatisfied
bool IsSatisfied
Definition: ASTConcept.h:52

clang::ContinueStmt
ContinueStmt - This represents a continue.
Definition: Stmt.h:2955

clang::ConvertVectorExpr
ConvertVectorExpr - Clang builtin function __builtin_convertvector This AST node provides support for...
Definition: Expr.h:4523

clang::CoreturnStmt
Represents a 'co_return' statement in the C++ Coroutines TS.
Definition: StmtCXX.h:473

clang::CoroutineBodyStmt
Represents the body of a coroutine.
Definition: StmtCXX.h:320

clang::CoroutineBodyStmt::Create
static CoroutineBodyStmt * Create(const ASTContext &C, CtorArgs const &Args)
Definition: StmtCXX.cpp:87

clang::CoyieldExpr
Represents a 'co_yield' expression.
Definition: ExprCXX.h:5265

clang::DeclAccessPair
A POD class for pairing a NamedDecl* with an access specifier.
Definition: DeclAccessPair.h:30

clang::DeclAccessPair::make
static DeclAccessPair make(NamedDecl *D, AccessSpecifier AS)
Definition: DeclAccessPair.h:44

clang::DeclGroupRef
Definition: DeclGroup.h:51

clang::DeclGroup::Create
static DeclGroup * Create(ASTContext &C, Decl **Decls, unsigned NumDecls)
Definition: DeclGroup.cpp:20

clang::DeclRefExpr
A reference to a declared variable, function, enum, etc.
Definition: Expr.h:1265

clang::DeclRefExpr::CreateEmpty
static DeclRefExpr * CreateEmpty(const ASTContext &Context, bool HasQualifier, bool HasFoundDecl, bool HasTemplateKWAndArgsInfo, unsigned NumTemplateArgs)
Construct an empty declaration reference expression.
Definition: Expr.cpp:529

clang::DeclStmt
DeclStmt - Adaptor class for mixing declarations with statements and expressions.
Definition: Stmt.h:1497

clang::Decl
Decl - This represents one declaration (or definition), e.g.
Definition: DeclBase.h:86

clang::DefaultStmt
Definition: Stmt.h:1960

clang::DependentCoawaitExpr
Represents a 'co_await' expression while the type of the promise is dependent.
Definition: ExprCXX.h:5216

clang::DependentScopeDeclRefExpr
A qualified reference to a name whose declaration cannot yet be resolved.
Definition: ExprCXX.h:3322

clang::DependentScopeDeclRefExpr::CreateEmpty
static DependentScopeDeclRefExpr * CreateEmpty(const ASTContext &Context, bool HasTemplateKWAndArgsInfo, unsigned NumTemplateArgs)
Definition: ExprCXX.cpp:547

clang::DesignatedInitExpr::Designator
Represents a single C99 designator.
Definition: Expr.h:5317

clang::DesignatedInitExpr
Represents a C99 designated initializer expression.
Definition: Expr.h:5274

clang::DesignatedInitExpr::CreateEmpty
static DesignatedInitExpr * CreateEmpty(const ASTContext &C, unsigned NumIndexExprs)
Definition: Expr.cpp:4617

clang::DesignatedInitUpdateExpr
Definition: Expr.h:5639

clang::Designator
Designator - A designator in a C99 designated initializer.
Definition: Designator.h:38

clang::Designator::CreateArrayRangeDesignator
static Designator CreateArrayRangeDesignator(Expr *Start, Expr *End, SourceLocation LBracketLoc, SourceLocation EllipsisLoc)
Creates a GNU array-range designator.
Definition: Designator.h:172

clang::Designator::CreateArrayDesignator
static Designator CreateArrayDesignator(Expr *Index, SourceLocation LBracketLoc)
Creates an array designator.
Definition: Designator.h:142

clang::Designator::CreateFieldDesignator
static Designator CreateFieldDesignator(const IdentifierInfo *FieldName, SourceLocation DotLoc, SourceLocation FieldLoc)
Creates a field designator.
Definition: Designator.h:115

clang::DoStmt
DoStmt - This represents a 'do/while' stmt.
Definition: Stmt.h:2730

clang::EmbedExpr
Represents a reference to #emded data.
Definition: Expr.h:4857

clang::ExplicitCastExpr
ExplicitCastExpr - An explicit cast written in the source code.
Definition: Expr.h:3750

clang::ExprWithCleanups
Represents an expression – generally a full-expression – that introduces cleanups to be run at the en...
Definition: ExprCXX.h:3473

clang::ExprWithCleanups::CleanupObject
llvm::PointerUnion< BlockDecl *, CompoundLiteralExpr * > CleanupObject
The type of objects that are kept in the cleanup.
Definition: ExprCXX.h:3479

clang::ExprWithCleanups::Create
static ExprWithCleanups * Create(const ASTContext &C, EmptyShell empty, unsigned numObjects)
Definition: ExprCXX.cpp:1447

clang::Expr
This represents one expression.
Definition: Expr.h:110

clang::Expr::setType
void setType(QualType t)
Definition: Expr.h:143

clang::Expr::isValueDependent
bool isValueDependent() const
Determines whether the value of this expression depends on.
Definition: Expr.h:175

clang::Expr::isInstantiationDependent
bool isInstantiationDependent() const
Whether this expression is instantiation-dependent, meaning that it depends in some way on.
Definition: Expr.h:221

clang::Expr::setValueKind
void setValueKind(ExprValueKind Cat)
setValueKind - Set the value kind produced by this expression.
Definition: Expr.h:454

clang::Expr::setObjectKind
void setObjectKind(ExprObjectKind Cat)
setObjectKind - Set the object kind produced by this expression.
Definition: Expr.h:457

clang::Expr::setDependence
void setDependence(ExprDependence Deps)
Each concrete expr subclass is expected to compute its dependence and call this in the constructor.
Definition: Expr.h:135

clang::ExpressionTraitExpr
An expression trait intrinsic.
Definition: ExprCXX.h:2923

clang::ExtVectorElementExpr
ExtVectorElementExpr - This represents access to specific elements of a vector, and may occur on the ...
Definition: Expr.h:6295

clang::FPOptionsOverride::getFromOpaqueInt
static FPOptionsOverride getFromOpaqueInt(storage_type I)
Definition: LangOptions.h:982

clang::FixedPointLiteral
Definition: Expr.h:1542

clang::FixedPointLiteral::Create
static FixedPointLiteral * Create(const ASTContext &C, EmptyShell Empty)
Returns an empty fixed-point literal.
Definition: Expr.cpp:1007

clang::FloatingLiteral
Definition: Expr.h:1638

clang::FloatingLiteral::Create
static FloatingLiteral * Create(const ASTContext &C, const llvm::APFloat &V, bool isexact, QualType Type, SourceLocation L)
Definition: Expr.cpp:1078

clang::ForStmt
ForStmt - This represents a 'for (init;cond;inc)' stmt.
Definition: Stmt.h:2786

clang::FunctionParmPackExpr
Represents a reference to a function parameter pack or init-capture pack that has been substituted bu...
Definition: ExprCXX.h:4647

clang::FunctionParmPackExpr::CreateEmpty
static FunctionParmPackExpr * CreateEmpty(const ASTContext &Context, unsigned NumParams)
Definition: ExprCXX.cpp:1805

clang::GCCAsmStmt
This represents a GCC inline-assembly statement extension.
Definition: Stmt.h:3264

clang::GNUNullExpr
GNUNullExpr - Implements the GNU __null extension, which is a name for a null pointer constant that h...
Definition: Expr.h:4657

clang::GenericSelectionExpr
Represents a C11 generic selection.
Definition: Expr.h:5907

clang::GenericSelectionExpr::CreateEmpty
static GenericSelectionExpr * CreateEmpty(const ASTContext &Context, unsigned NumAssocs)
Create an empty generic selection expression for deserialization.
Definition: Expr.cpp:4551

clang::GotoStmt
GotoStmt - This represents a direct goto.
Definition: Stmt.h:2867

clang::IdentifierInfo
One of these records is kept for each identifier that is lexed.
Definition: IdentifierTable.h:117

clang::IfStmt
IfStmt - This represents an if/then/else.
Definition: Stmt.h:2143

clang::IfStmt::CreateEmpty
static IfStmt * CreateEmpty(const ASTContext &Ctx, bool HasElse, bool HasVar, bool HasInit)
Create an empty IfStmt optionally with storage for an else statement, condition variable and init exp...
Definition: Stmt.cpp:973

clang::ImaginaryLiteral
ImaginaryLiteral - We support imaginary integer and floating point literals, like "1....
Definition: Expr.h:1717

clang::ImplicitCastExpr
ImplicitCastExpr - Allows us to explicitly represent implicit type conversions, which have no direct ...
Definition: Expr.h:3675

clang::ImplicitCastExpr::CreateEmpty
static ImplicitCastExpr * CreateEmpty(const ASTContext &Context, unsigned PathSize, bool HasFPFeatures)
Definition: Expr.cpp:2096

clang::ImplicitConceptSpecializationDecl
Definition: DeclTemplate.h:3195

clang::ImplicitValueInitExpr
Represents an implicitly-generated value initialization of an object of a given type.
Definition: Expr.h:5782

clang::IndirectGotoStmt
IndirectGotoStmt - This represents an indirect goto.
Definition: Stmt.h:2906

clang::InitListExpr
Describes an C or C++ initializer list.
Definition: Expr.h:5029

clang::IntegerLiteral
Definition: Expr.h:1499

clang::IntegerLiteral::Create
static IntegerLiteral * Create(const ASTContext &C, const llvm::APInt &V, QualType type, SourceLocation l)
Returns a new integer literal with value 'V' and type 'type'.
Definition: Expr.cpp:977

clang::LabelStmt
LabelStmt - Represents a label, which has a substatement.
Definition: Stmt.h:2036

clang::LambdaExpr
A C++ lambda expression, which produces a function object (of unspecified type) that can be invoked l...
Definition: ExprCXX.h:1954

clang::LambdaExpr::CreateDeserialized
static LambdaExpr * CreateDeserialized(const ASTContext &C, unsigned NumCaptures)
Construct a new lambda expression that will be deserialized from an external source.
Definition: ExprCXX.cpp:1314

clang::MSAsmStmt
This represents a Microsoft inline-assembly statement extension.
Definition: Stmt.h:3487

clang::MSDependentExistsStmt
Representation of a Microsoft __if_exists or __if_not_exists statement with a dependent name.
Definition: StmtCXX.h:253

clang::MSPropertyRefExpr
A member reference to an MSPropertyDecl.
Definition: ExprCXX.h:933

clang::MSPropertySubscriptExpr
MS property subscript expression.
Definition: ExprCXX.h:1004

clang::MaterializeTemporaryExpr
Represents a prvalue temporary that is written into memory so that a reference can bind to it.
Definition: ExprCXX.h:4727

clang::MatrixSubscriptExpr
MatrixSubscriptExpr - Matrix subscript expression for the MatrixType extension.
Definition: Expr.h:2752

clang::MemberExpr
MemberExpr - [C99 6.5.2.3] Structure and Union Members.
Definition: Expr.h:3187

clang::MemberExpr::CreateEmpty
static MemberExpr * CreateEmpty(const ASTContext &Context, bool HasQualifier, bool HasFoundDecl, bool HasTemplateKWAndArgsInfo, unsigned NumTemplateArgs)
Definition: Expr.cpp:1776

clang::NamedDecl
This represents a decl that may have a name.
Definition: Decl.h:249

clang::NestedNameSpecifierLoc
A C++ nested-name-specifier augmented with source location information.
Definition: NestedNameSpecifier.h:243

clang::NoInitExpr
Represents a place-holder for an object not to be initialized by anything.
Definition: Expr.h:5602

clang::NullStmt
NullStmt - This is the null statement ";": C99 6.8.3p3.
Definition: Stmt.h:1569

clang::OMPArrayShapingExpr
An explicit cast in C or a C-style cast in C++, which uses the syntax ([s1][s2]......
Definition: ExprOpenMP.h:24

clang::OMPArrayShapingExpr::CreateEmpty
static OMPArrayShapingExpr * CreateEmpty(const ASTContext &Context, unsigned NumDims)
Definition: Expr.cpp:5181

clang::OMPAssumeDirective
Definition: StmtOpenMP.h:6474

clang::OMPAssumeDirective::CreateEmpty
static OMPAssumeDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, EmptyShell)
Definition: StmtOpenMP.cpp:812

clang::OMPAtomicDirective
This represents '#pragma omp atomic' directive.
Definition: StmtOpenMP.h:2947

clang::OMPAtomicDirective::CreateEmpty
static OMPAtomicDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:988

clang::OMPBarrierDirective
This represents '#pragma omp barrier' directive.
Definition: StmtOpenMP.h:2625

clang::OMPBarrierDirective::CreateEmpty
static OMPBarrierDirective * CreateEmpty(const ASTContext &C, EmptyShell)
Creates an empty directive.
Definition: StmtOpenMP.cpp:840

clang::OMPCancelDirective
This represents '#pragma omp cancel' directive.
Definition: StmtOpenMP.h:3655

clang::OMPCancelDirective::CreateEmpty
static OMPCancelDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, EmptyShell)
Creates an empty directive.
Definition: StmtOpenMP.cpp:900

clang::OMPCancellationPointDirective
This represents '#pragma omp cancellation point' directive.
Definition: StmtOpenMP.h:3597

clang::OMPCancellationPointDirective::CreateEmpty
static OMPCancellationPointDirective * CreateEmpty(const ASTContext &C, EmptyShell)
Creates an empty directive.
Definition: StmtOpenMP.cpp:885

clang::OMPCanonicalLoop
Representation of an OpenMP canonical loop.
Definition: StmtOpenMP.h:142

clang::OMPCanonicalLoop::createEmpty
static OMPCanonicalLoop * createEmpty(const ASTContext &Ctx)
Create an empty OMPCanonicalLoop for deserialization.
Definition: StmtOpenMP.h:176

clang::OMPCriticalDirective
This represents '#pragma omp critical' directive.
Definition: StmtOpenMP.h:2076

clang::OMPCriticalDirective::CreateEmpty
static OMPCriticalDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, EmptyShell)
Creates an empty directive.
Definition: StmtOpenMP.cpp:628

clang::OMPDepobjDirective
This represents '#pragma omp depobj' directive.
Definition: StmtOpenMP.h:2841

clang::OMPDepobjDirective::CreateEmpty
static OMPDepobjDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:930

clang::OMPDispatchDirective
This represents '#pragma omp dispatch' directive.
Definition: StmtOpenMP.h:5948

clang::OMPDispatchDirective::CreateEmpty
static OMPDispatchDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:2360

clang::OMPDistributeDirective
This represents '#pragma omp distribute' directive.
Definition: StmtOpenMP.h:4425

clang::OMPDistributeDirective::CreateEmpty
static OMPDistributeDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:1624

clang::OMPDistributeParallelForDirective
This represents '#pragma omp distribute parallel for' composite directive.
Definition: StmtOpenMP.h:4547

clang::OMPDistributeParallelForDirective::CreateEmpty
static OMPDistributeParallelForDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:1697

clang::OMPDistributeParallelForSimdDirective
This represents '#pragma omp distribute parallel for simd' composite directive.
Definition: StmtOpenMP.h:4643

clang::OMPDistributeParallelForSimdDirective::CreateEmpty
static OMPDistributeParallelForSimdDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:1757

clang::OMPDistributeSimdDirective
This represents '#pragma omp distribute simd' composite directive.
Definition: StmtOpenMP.h:4708

clang::OMPDistributeSimdDirective::CreateEmpty
static OMPDistributeSimdDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:1803

clang::OMPErrorDirective
This represents '#pragma omp error' directive.
Definition: StmtOpenMP.h:6432

clang::OMPErrorDirective::CreateEmpty
static OMPErrorDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, EmptyShell)
Creates an empty directive.
Definition: StmtOpenMP.cpp:828

clang::OMPExecutableDirective
This is a basic class for representing single OpenMP executable directive.
Definition: StmtOpenMP.h:266

clang::OMPFlushDirective
This represents '#pragma omp flush' directive.
Definition: StmtOpenMP.h:2789

clang::OMPFlushDirective::CreateEmpty
static OMPFlushDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:915

clang::OMPForDirective
This represents '#pragma omp for' directive.
Definition: StmtOpenMP.h:1634

clang::OMPForDirective::CreateEmpty
static OMPForDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:398

clang::OMPForSimdDirective
This represents '#pragma omp for simd' directive.
Definition: StmtOpenMP.h:1724

clang::OMPForSimdDirective::CreateEmpty
static OMPForSimdDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:523

clang::OMPGenericLoopDirective
This represents '#pragma omp loop' directive.
Definition: StmtOpenMP.h:6103

clang::OMPGenericLoopDirective::CreateEmpty
static OMPGenericLoopDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with a place for NumClauses clauses.
Definition: StmtOpenMP.cpp:2420

clang::OMPInterchangeDirective
Represents the '#pragma omp interchange' loop transformation directive.
Definition: StmtOpenMP.h:5769

clang::OMPInterchangeDirective::CreateEmpty
static OMPInterchangeDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned NumLoops)
Build an empty '#pragma omp interchange' AST node for deserialization.
Definition: StmtOpenMP.cpp:481

clang::OMPInteropDirective
This represents '#pragma omp interop' directive.
Definition: StmtOpenMP.h:5895

clang::OMPInteropDirective::CreateEmpty
static OMPInteropDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, EmptyShell)
Creates an empty directive.
Definition: StmtOpenMP.cpp:2344

clang::OMPIteratorExpr
OpenMP 5.0 [2.1.6 Iterators] Iterators are identifiers that expand to multiple values in the clause o...
Definition: ExprOpenMP.h:151

clang::OMPIteratorExpr::CreateEmpty
static OMPIteratorExpr * CreateEmpty(const ASTContext &Context, unsigned NumIterators)
Definition: Expr.cpp:5312

clang::OMPLoopBasedDirective
The base class for all loop-based directives, including loop transformation directives.
Definition: StmtOpenMP.h:683

clang::OMPLoopDirective
This is a common base class for loop directives ('omp simd', 'omp for', 'omp for simd' etc....
Definition: StmtOpenMP.h:1004

clang::OMPLoopTransformationDirective
The base class for all loop transformation directives.
Definition: StmtOpenMP.h:960

clang::OMPMaskedDirective
This represents '#pragma omp masked' directive.
Definition: StmtOpenMP.h:6013

clang::OMPMaskedDirective::CreateEmpty
static OMPMaskedDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, EmptyShell)
Creates an empty directive.
Definition: StmtOpenMP.cpp:2378

clang::OMPMaskedTaskLoopDirective
This represents '#pragma omp masked taskloop' directive.
Definition: StmtOpenMP.h:3930

clang::OMPMaskedTaskLoopDirective::CreateEmpty
static OMPMaskedTaskLoopDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:1303

clang::OMPMaskedTaskLoopSimdDirective
This represents '#pragma omp masked taskloop simd' directive.
Definition: StmtOpenMP.h:4071

clang::OMPMaskedTaskLoopSimdDirective::CreateEmpty
static OMPMaskedTaskLoopSimdDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:1391

clang::OMPMasterDirective
This represents '#pragma omp master' directive.
Definition: StmtOpenMP.h:2028

clang::OMPMasterDirective::CreateEmpty
static OMPMasterDirective * CreateEmpty(const ASTContext &C, EmptyShell)
Creates an empty directive.
Definition: StmtOpenMP.cpp:613

clang::OMPMasterTaskLoopDirective
This represents '#pragma omp master taskloop' directive.
Definition: StmtOpenMP.h:3854

clang::OMPMasterTaskLoopDirective::CreateEmpty
static OMPMasterTaskLoopDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:1258

clang::OMPMasterTaskLoopSimdDirective
This represents '#pragma omp master taskloop simd' directive.
Definition: StmtOpenMP.h:4006

clang::OMPMasterTaskLoopSimdDirective::CreateEmpty
static OMPMasterTaskLoopSimdDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:1347

clang::OMPMetaDirective
This represents '#pragma omp metadirective' directive.
Definition: StmtOpenMP.h:6064

clang::OMPMetaDirective::CreateEmpty
static OMPMetaDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, EmptyShell)
Definition: StmtOpenMP.cpp:273

clang::OMPOrderedDirective
This represents '#pragma omp ordered' directive.
Definition: StmtOpenMP.h:2893

clang::OMPOrderedDirective::CreateEmpty
static OMPOrderedDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, bool IsStandalone, EmptyShell)
Creates an empty directive.
Definition: StmtOpenMP.cpp:961

clang::OMPParallelDirective
This represents '#pragma omp parallel' directive.
Definition: StmtOpenMP.h:612

clang::OMPParallelDirective::CreateEmpty
static OMPParallelDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, EmptyShell)
Creates an empty directive with the place for N clauses.
Definition: StmtOpenMP.cpp:292

clang::OMPParallelForDirective
This represents '#pragma omp parallel for' directive.
Definition: StmtOpenMP.h:2147

clang::OMPParallelForDirective::CreateEmpty
static OMPParallelForDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:673

clang::OMPParallelForSimdDirective
This represents '#pragma omp parallel for simd' directive.
Definition: StmtOpenMP.h:2244

clang::OMPParallelForSimdDirective::CreateEmpty
static OMPParallelForSimdDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:716

clang::OMPParallelGenericLoopDirective
This represents '#pragma omp parallel loop' directive.
Definition: StmtOpenMP.h:6305

clang::OMPParallelGenericLoopDirective::CreateEmpty
static OMPParallelGenericLoopDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:2578

clang::OMPParallelMaskedDirective
This represents '#pragma omp parallel masked' directive.
Definition: StmtOpenMP.h:2372

clang::OMPParallelMaskedDirective::CreateEmpty
static OMPParallelMaskedDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:750

clang::OMPParallelMaskedTaskLoopDirective
This represents '#pragma omp parallel masked taskloop' directive.
Definition: StmtOpenMP.h:4215

clang::OMPParallelMaskedTaskLoopDirective::CreateEmpty
static OMPParallelMaskedTaskLoopDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:1483

clang::OMPParallelMaskedTaskLoopSimdDirective
This represents '#pragma omp parallel masked taskloop simd' directive.
Definition: StmtOpenMP.h:4360

clang::OMPParallelMaskedTaskLoopSimdDirective::CreateEmpty
static OMPParallelMaskedTaskLoopSimdDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:1577

clang::OMPParallelMasterDirective
This represents '#pragma omp parallel master' directive.
Definition: StmtOpenMP.h:2309

clang::OMPParallelMasterDirective::CreateEmpty
static OMPParallelMasterDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:734

clang::OMPParallelMasterTaskLoopDirective
This represents '#pragma omp parallel master taskloop' directive.
Definition: StmtOpenMP.h:4137

clang::OMPParallelMasterTaskLoopDirective::CreateEmpty
static OMPParallelMasterTaskLoopDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:1436

clang::OMPParallelMasterTaskLoopSimdDirective
This represents '#pragma omp parallel master taskloop simd' directive.
Definition: StmtOpenMP.h:4293

clang::OMPParallelMasterTaskLoopSimdDirective::CreateEmpty
static OMPParallelMasterTaskLoopSimdDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:1530

clang::OMPParallelSectionsDirective
This represents '#pragma omp parallel sections' directive.
Definition: StmtOpenMP.h:2436

clang::OMPParallelSectionsDirective::CreateEmpty
static OMPParallelSectionsDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:768

clang::OMPReverseDirective
Represents the '#pragma omp reverse' loop transformation directive.
Definition: StmtOpenMP.h:5704

clang::OMPReverseDirective::CreateEmpty
static OMPReverseDirective * CreateEmpty(const ASTContext &C)
Build an empty '#pragma omp reverse' AST node for deserialization.
Definition: StmtOpenMP.cpp:462

clang::OMPScanDirective
This represents '#pragma omp scan' directive.
Definition: StmtOpenMP.h:5842

clang::OMPScanDirective::CreateEmpty
static OMPScanDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:945

clang::OMPScopeDirective
This represents '#pragma omp scope' directive.
Definition: StmtOpenMP.h:1925

clang::OMPScopeDirective::CreateEmpty
static OMPScopeDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, EmptyShell)
Creates an empty directive.
Definition: StmtOpenMP.cpp:580

clang::OMPSectionDirective
This represents '#pragma omp section' directive.
Definition: StmtOpenMP.h:1864

clang::OMPSectionDirective::CreateEmpty
static OMPSectionDirective * CreateEmpty(const ASTContext &C, EmptyShell)
Creates an empty directive.
Definition: StmtOpenMP.cpp:564

clang::OMPSectionsDirective
This represents '#pragma omp sections' directive.
Definition: StmtOpenMP.h:1787

clang::OMPSectionsDirective::CreateEmpty
static OMPSectionsDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:544

clang::OMPSimdDirective
This represents '#pragma omp simd' directive.
Definition: StmtOpenMP.h:1571

clang::OMPSimdDirective::CreateEmpty
static OMPSimdDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:327

clang::OMPSingleDirective
This represents '#pragma omp single' directive.
Definition: StmtOpenMP.h:1977

clang::OMPSingleDirective::CreateEmpty
static OMPSingleDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:597

clang::OMPTargetDataDirective
This represents '#pragma omp target data' directive.
Definition: StmtOpenMP.h:3206

clang::OMPTargetDataDirective::CreateEmpty
static OMPTargetDataDirective * CreateEmpty(const ASTContext &C, unsigned N, EmptyShell)
Creates an empty directive with the place for N clauses.
Definition: StmtOpenMP.cpp:1083

clang::OMPTargetDirective
This represents '#pragma omp target' directive.
Definition: StmtOpenMP.h:3152

clang::OMPTargetDirective::CreateEmpty
static OMPTargetDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:1004

clang::OMPTargetEnterDataDirective
This represents '#pragma omp target enter data' directive.
Definition: StmtOpenMP.h:3260

clang::OMPTargetEnterDataDirective::CreateEmpty
static OMPTargetEnterDataDirective * CreateEmpty(const ASTContext &C, unsigned N, EmptyShell)
Creates an empty directive with the place for N clauses.
Definition: StmtOpenMP.cpp:1098

clang::OMPTargetExitDataDirective
This represents '#pragma omp target exit data' directive.
Definition: StmtOpenMP.h:3315

clang::OMPTargetExitDataDirective::CreateEmpty
static OMPTargetExitDataDirective * CreateEmpty(const ASTContext &C, unsigned N, EmptyShell)
Creates an empty directive with the place for N clauses.
Definition: StmtOpenMP.cpp:1112

clang::OMPTargetParallelDirective
This represents '#pragma omp target parallel' directive.
Definition: StmtOpenMP.h:3369

clang::OMPTargetParallelDirective::CreateEmpty
static OMPTargetParallelDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:1023

clang::OMPTargetParallelForDirective
This represents '#pragma omp target parallel for' directive.
Definition: StmtOpenMP.h:3449

clang::OMPTargetParallelForDirective::CreateEmpty
static OMPTargetParallelForDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:1067

clang::OMPTargetParallelForSimdDirective
This represents '#pragma omp target parallel for simd' directive.
Definition: StmtOpenMP.h:4774

clang::OMPTargetParallelForSimdDirective::CreateEmpty
static OMPTargetParallelForSimdDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:1847

clang::OMPTargetParallelGenericLoopDirective
This represents '#pragma omp target parallel loop' directive.
Definition: StmtOpenMP.h:6370

clang::OMPTargetParallelGenericLoopDirective::CreateEmpty
static OMPTargetParallelGenericLoopDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:2623

clang::OMPTargetSimdDirective
This represents '#pragma omp target simd' directive.
Definition: StmtOpenMP.h:4841

clang::OMPTargetSimdDirective::CreateEmpty
static OMPTargetSimdDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:1886

clang::OMPTargetTeamsDirective
This represents '#pragma omp target teams' directive.
Definition: StmtOpenMP.h:5199

clang::OMPTargetTeamsDirective::CreateEmpty
static OMPTargetTeamsDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:2111

clang::OMPTargetTeamsDistributeDirective
This represents '#pragma omp target teams distribute' combined directive.
Definition: StmtOpenMP.h:5255

clang::OMPTargetTeamsDistributeDirective::CreateEmpty
static OMPTargetTeamsDistributeDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:2153

clang::OMPTargetTeamsDistributeParallelForDirective
This represents '#pragma omp target teams distribute parallel for' combined directive.
Definition: StmtOpenMP.h:5322

clang::OMPTargetTeamsDistributeParallelForDirective::CreateEmpty
static OMPTargetTeamsDistributeParallelForDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:2216

clang::OMPTargetTeamsDistributeParallelForSimdDirective
This represents '#pragma omp target teams distribute parallel for simd' combined directive.
Definition: StmtOpenMP.h:5420

clang::OMPTargetTeamsDistributeParallelForSimdDirective::CreateEmpty
static OMPTargetTeamsDistributeParallelForSimdDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:2278

clang::OMPTargetTeamsDistributeSimdDirective
This represents '#pragma omp target teams distribute simd' combined directive.
Definition: StmtOpenMP.h:5490

clang::OMPTargetTeamsDistributeSimdDirective::CreateEmpty
static OMPTargetTeamsDistributeSimdDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:2325

clang::OMPTargetTeamsGenericLoopDirective
This represents '#pragma omp target teams loop' directive.
Definition: StmtOpenMP.h:6230

clang::OMPTargetTeamsGenericLoopDirective::CreateEmpty
static OMPTargetTeamsGenericLoopDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:2534

clang::OMPTargetUpdateDirective
This represents '#pragma omp target update' directive.
Definition: StmtOpenMP.h:4491

clang::OMPTargetUpdateDirective::CreateEmpty
static OMPTargetUpdateDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:1640

clang::OMPTaskDirective
This represents '#pragma omp task' directive.
Definition: StmtOpenMP.h:2517

clang::OMPTaskDirective::CreateEmpty
static OMPTaskDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:784

clang::OMPTaskLoopDirective
This represents '#pragma omp taskloop' directive.
Definition: StmtOpenMP.h:3715

clang::OMPTaskLoopDirective::CreateEmpty
static OMPTaskLoopDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:1169

clang::OMPTaskLoopSimdDirective
This represents '#pragma omp taskloop simd' directive.
Definition: StmtOpenMP.h:3788

clang::OMPTaskLoopSimdDirective::CreateEmpty
static OMPTaskLoopSimdDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:1214

clang::OMPTaskgroupDirective
This represents '#pragma omp taskgroup' directive.
Definition: StmtOpenMP.h:2722

clang::OMPTaskgroupDirective::CreateEmpty
static OMPTaskgroupDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, EmptyShell)
Creates an empty directive.
Definition: StmtOpenMP.cpp:869

clang::OMPTaskwaitDirective
This represents '#pragma omp taskwait' directive.
Definition: StmtOpenMP.h:2671

clang::OMPTaskwaitDirective::CreateEmpty
static OMPTaskwaitDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, EmptyShell)
Creates an empty directive.
Definition: StmtOpenMP.cpp:854

clang::OMPTaskyieldDirective
This represents '#pragma omp taskyield' directive.
Definition: StmtOpenMP.h:2579

clang::OMPTaskyieldDirective::CreateEmpty
static OMPTaskyieldDirective * CreateEmpty(const ASTContext &C, EmptyShell)
Creates an empty directive.
Definition: StmtOpenMP.cpp:797

clang::OMPTeamsDirective
This represents '#pragma omp teams' directive.
Definition: StmtOpenMP.h:3544

clang::OMPTeamsDirective::CreateEmpty
static OMPTeamsDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:1127

clang::OMPTeamsDistributeDirective
This represents '#pragma omp teams distribute' directive.
Definition: StmtOpenMP.h:4906

clang::OMPTeamsDistributeDirective::CreateEmpty
static OMPTeamsDistributeDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:1929

clang::OMPTeamsDistributeParallelForDirective
This represents '#pragma omp teams distribute parallel for' composite directive.
Definition: StmtOpenMP.h:5106

clang::OMPTeamsDistributeParallelForDirective::CreateEmpty
static OMPTeamsDistributeParallelForDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:2092

clang::OMPTeamsDistributeParallelForSimdDirective
This represents '#pragma omp teams distribute parallel for simd' composite directive.
Definition: StmtOpenMP.h:5040

clang::OMPTeamsDistributeParallelForSimdDirective::CreateEmpty
static OMPTeamsDistributeParallelForSimdDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:2030

clang::OMPTeamsDistributeSimdDirective
This represents '#pragma omp teams distribute simd' combined directive.
Definition: StmtOpenMP.h:4972

clang::OMPTeamsDistributeSimdDirective::CreateEmpty
static OMPTeamsDistributeSimdDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:1972

clang::OMPTeamsGenericLoopDirective
This represents '#pragma omp teams loop' directive.
Definition: StmtOpenMP.h:6165

clang::OMPTeamsGenericLoopDirective::CreateEmpty
static OMPTeamsGenericLoopDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned CollapsedNum, EmptyShell)
Creates an empty directive with the place for NumClauses clauses.
Definition: StmtOpenMP.cpp:2476

clang::OMPTileDirective
This represents the '#pragma omp tile' loop transformation directive.
Definition: StmtOpenMP.h:5548

clang::OMPTileDirective::CreateEmpty
static OMPTileDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses, unsigned NumLoops)
Build an empty '#pragma omp tile' AST node for deserialization.
Definition: StmtOpenMP.cpp:420

clang::OMPUnrollDirective
This represents the '#pragma omp unroll' loop transformation directive.
Definition: StmtOpenMP.h:5630

clang::OMPUnrollDirective::CreateEmpty
static OMPUnrollDirective * CreateEmpty(const ASTContext &C, unsigned NumClauses)
Build an empty '#pragma omp unroll' AST node for deserialization.
Definition: StmtOpenMP.cpp:443

clang::ObjCArrayLiteral
ObjCArrayLiteral - used for objective-c array containers; as in: @["Hello", NSApp,...
Definition: ExprObjC.h:191

clang::ObjCArrayLiteral::CreateEmpty
static ObjCArrayLiteral * CreateEmpty(const ASTContext &C, unsigned NumElements)
Definition: ExprObjC.cpp:47

clang::ObjCAtCatchStmt
Represents Objective-C's @catch statement.
Definition: StmtObjC.h:77

clang::ObjCAtFinallyStmt
Represents Objective-C's @finally statement.
Definition: StmtObjC.h:127

clang::ObjCAtSynchronizedStmt
Represents Objective-C's @synchronized statement.
Definition: StmtObjC.h:303

clang::ObjCAtThrowStmt
Represents Objective-C's @throw statement.
Definition: StmtObjC.h:358

clang::ObjCAtTryStmt
Represents Objective-C's @try ... @catch ... @finally statement.
Definition: StmtObjC.h:167

clang::ObjCAtTryStmt::CreateEmpty
static ObjCAtTryStmt * CreateEmpty(const ASTContext &Context, unsigned NumCatchStmts, bool HasFinally)
Definition: StmtObjC.cpp:56

clang::ObjCAutoreleasePoolStmt
Represents Objective-C's @autoreleasepool Statement.
Definition: StmtObjC.h:394

clang::ObjCAvailabilityCheckExpr
A runtime availability query.
Definition: ExprObjC.h:1696

clang::ObjCBoolLiteralExpr
ObjCBoolLiteralExpr - Objective-C Boolean Literal.
Definition: ExprObjC.h:87

clang::ObjCBoxedExpr
ObjCBoxedExpr - used for generalized expression boxing.
Definition: ExprObjC.h:127

clang::ObjCBridgedCastExpr
An Objective-C "bridged" cast expression, which casts between Objective-C pointers and C pointers,...
Definition: ExprObjC.h:1636

clang::ObjCDictionaryLiteral
ObjCDictionaryLiteral - AST node to represent objective-c dictionary literals; as in:"name" : NSUserN...
Definition: ExprObjC.h:309

clang::ObjCDictionaryLiteral::CreateEmpty
static ObjCDictionaryLiteral * CreateEmpty(const ASTContext &C, unsigned NumElements, bool HasPackExpansions)
Definition: ExprObjC.cpp:88

clang::ObjCEncodeExpr
ObjCEncodeExpr, used for @encode in Objective-C.
Definition: ExprObjC.h:410

clang::ObjCForCollectionStmt
Represents Objective-C's collection statement.
Definition: StmtObjC.h:23

clang::ObjCIndirectCopyRestoreExpr
ObjCIndirectCopyRestoreExpr - Represents the passing of a function argument by indirect copy-restore ...
Definition: ExprObjC.h:1575

clang::ObjCIsaExpr
ObjCIsaExpr - Represent X->isa and X.isa when X is an ObjC 'id' type.
Definition: ExprObjC.h:1491

clang::ObjCIvarRefExpr
ObjCIvarRefExpr - A reference to an ObjC instance variable.
Definition: ExprObjC.h:549

clang::ObjCMessageExpr
An expression that sends a message to the given Objective-C object or class.
Definition: ExprObjC.h:945

clang::ObjCMessageExpr::CreateEmpty
static ObjCMessageExpr * CreateEmpty(const ASTContext &Context, unsigned NumArgs, unsigned NumStoredSelLocs)
Create an empty Objective-C message expression, to be filled in by subsequent calls.
Definition: ExprObjC.cpp:232

clang::ObjCMessageExpr::ReceiverKind
ReceiverKind
The kind of receiver this message is sending to.
Definition: ExprObjC.h:948

clang::ObjCMessageExpr::SuperInstance
@ SuperInstance
The receiver is the instance of the superclass object.
Definition: ExprObjC.h:959

clang::ObjCMessageExpr::Instance
@ Instance
The receiver is an object instance.
Definition: ExprObjC.h:953

clang::ObjCMessageExpr::SuperClass
@ SuperClass
The receiver is a superclass.
Definition: ExprObjC.h:956

clang::ObjCMessageExpr::Class
@ Class
The receiver is a class.
Definition: ExprObjC.h:950

clang::ObjCPropertyRefExpr
ObjCPropertyRefExpr - A dot-syntax expression to access an ObjC property.
Definition: ExprObjC.h:617

clang::ObjCProtocolExpr
ObjCProtocolExpr used for protocol expression in Objective-C.
Definition: ExprObjC.h:505

clang::ObjCSelectorExpr
ObjCSelectorExpr used for @selector in Objective-C.
Definition: ExprObjC.h:455

clang::ObjCStringLiteral
ObjCStringLiteral, used for Objective-C string literals i.e.
Definition: ExprObjC.h:51

clang::ObjCSubscriptRefExpr
ObjCSubscriptRefExpr - used for array and dictionary subscripting.
Definition: ExprObjC.h:844

clang::OffsetOfExpr
OffsetOfExpr - [C99 7.17] - This represents an expression of the form offsetof(record-type,...
Definition: Expr.h:2475

clang::OffsetOfExpr::CreateEmpty
static OffsetOfExpr * CreateEmpty(const ASTContext &C, unsigned NumComps, unsigned NumExprs)
Definition: Expr.cpp:1670

clang::OffsetOfNode
Helper class for OffsetOfExpr.
Definition: Expr.h:2369

clang::OffsetOfNode::Kind
Kind
The kind of offsetof node we have.
Definition: Expr.h:2372

clang::OffsetOfNode::Array
@ Array
An index into an array.
Definition: Expr.h:2374

clang::OffsetOfNode::Identifier
@ Identifier
A field in a dependent type, known only by its name.
Definition: Expr.h:2378

clang::OffsetOfNode::Field
@ Field
A field.
Definition: Expr.h:2376

clang::OffsetOfNode::Base
@ Base
An implicit indirection through a C++ base class, when the field found is in a base class.
Definition: Expr.h:2381

clang::OpaqueValueExpr
OpaqueValueExpr - An expression referring to an opaque object of a fixed type and value class.
Definition: Expr.h:1173

clang::OpenACCAssociatedStmtConstruct
This is a base class for any OpenACC statement-level constructs that have an associated statement.
Definition: StmtOpenACC.h:80

clang::OpenACCComputeConstruct
This class represents a compute construct, representing a 'Kind' of ‘parallel’, 'serial',...
Definition: StmtOpenACC.h:132

clang::OpenACCComputeConstruct::CreateEmpty
static OpenACCComputeConstruct * CreateEmpty(const ASTContext &C, unsigned NumClauses)
Definition: StmtOpenACC.cpp:20

clang::OpenACCConstructStmt
This is the base class for an OpenACC statement-level construct, other construct types are expected t...
Definition: StmtOpenACC.h:25

clang::OpenACCLoopConstruct
This class represents a 'loop' construct.
Definition: StmtOpenACC.h:200

clang::OpenACCLoopConstruct::CreateEmpty
static OpenACCLoopConstruct * CreateEmpty(const ASTContext &C, unsigned NumClauses)
Definition: StmtOpenACC.cpp:105

clang::OverloadExpr
A reference to an overloaded function set, either an UnresolvedLookupExpr or an UnresolvedMemberExpr.
Definition: ExprCXX.h:2982

clang::PackExpansionExpr
Represents a C++11 pack expansion that produces a sequence of expressions.
Definition: ExprCXX.h:4179

clang::PackIndexingExpr
Definition: ExprCXX.h:4373

clang::PackIndexingExpr::CreateDeserialized
static PackIndexingExpr * CreateDeserialized(ASTContext &Context, unsigned NumTransformedExprs)
Definition: ExprCXX.cpp:1746

clang::ParenExpr
ParenExpr - This represents a parenthesized expression, e.g.
Definition: Expr.h:2135

clang::ParenListExpr
Definition: Expr.h:5811

clang::ParenListExpr::CreateEmpty
static ParenListExpr * CreateEmpty(const ASTContext &Ctx, unsigned NumExprs)
Create an empty paren list.
Definition: Expr.cpp:4755

clang::ParmVarDecl
Represents a parameter to a function.
Definition: Decl.h:1722

clang::PredefinedExpr
[C99 6.4.2.2] - A predefined identifier such as func.
Definition: Expr.h:1991

clang::PredefinedExpr::CreateEmpty
static PredefinedExpr * CreateEmpty(const ASTContext &Ctx, bool HasFunctionName)
Create an empty PredefinedExpr.
Definition: Expr.cpp:647

clang::PseudoObjectExpr
PseudoObjectExpr - An expression which accesses a pseudo-object l-value.
Definition: Expr.h:6487

clang::PseudoObjectExpr::Create
static PseudoObjectExpr * Create(const ASTContext &Context, Expr *syntactic, ArrayRef< Expr * > semantic, unsigned resultIndex)
Definition: Expr.cpp:4898

clang::QualType
A (possibly-)qualified type.
Definition: Type.h:941

clang::RecoveryExpr
Frontend produces RecoveryExprs on semantic errors that prevent creating other well-formed expression...
Definition: Expr.h:7091

clang::RecoveryExpr::CreateEmpty
static RecoveryExpr * CreateEmpty(ASTContext &Ctx, unsigned NumSubExprs)
Definition: Expr.cpp:5136

clang::RequiresExprBodyDecl
Represents the body of a requires-expression.
Definition: DeclCXX.h:2033

clang::RequiresExpr
C++2a [expr.prim.req]: A requires-expression provides a concise way to express requirements on templa...
Definition: ExprConcepts.h:510

clang::RequiresExpr::Create
static RequiresExpr * Create(ASTContext &C, SourceLocation RequiresKWLoc, RequiresExprBodyDecl *Body, SourceLocation LParenLoc, ArrayRef< ParmVarDecl * > LocalParameters, SourceLocation RParenLoc, ArrayRef< concepts::Requirement * > Requirements, SourceLocation RBraceLoc)
Definition: ExprConcepts.cpp:173

clang::ReturnStmt
ReturnStmt - This represents a return, optionally of an expression: return; return 4;.
Definition: Stmt.h:3024

clang::ReturnStmt::CreateEmpty
static ReturnStmt * CreateEmpty(const ASTContext &Ctx, bool HasNRVOCandidate)
Create an empty return statement, optionally with storage for an NRVO candidate.
Definition: Stmt.cpp:1212

clang::SEHExceptStmt
Definition: Stmt.h:3591

clang::SEHFinallyStmt
Definition: Stmt.h:3635

clang::SEHLeaveStmt
Represents a __leave statement.
Definition: Stmt.h:3723

clang::SEHTryStmt
Definition: Stmt.h:3670

clang::SYCLUniqueStableNameExpr
Definition: Expr.h:2079

clang::SYCLUniqueStableNameExpr::CreateEmpty
static SYCLUniqueStableNameExpr * CreateEmpty(const ASTContext &Ctx)
Definition: Expr.cpp:587

clang::ShuffleVectorExpr
ShuffleVectorExpr - clang-specific builtin-in function __builtin_shufflevector.
Definition: Expr.h:4455

clang::SizeOfPackExpr
Represents an expression that computes the length of a parameter pack.
Definition: ExprCXX.h:4257

clang::SizeOfPackExpr::CreateDeserialized
static SizeOfPackExpr * CreateDeserialized(ASTContext &Context, unsigned NumPartialArgs)
Definition: ExprCXX.cpp:1706

clang::SourceLocExpr
Represents a function call to one of __builtin_LINE(), __builtin_COLUMN(), __builtin_FUNCTION(),...
Definition: Expr.h:4751

clang::SourceLocation
Encodes a location in the source.
Definition: SourceLocation.h:88

clang::SourceRange
A trivial tuple used to represent a source range.
Definition: SourceLocation.h:213

clang::SourceRange::getEnd
SourceLocation getEnd() const
Definition: SourceLocation.h:223

clang::SourceRange::getBegin
SourceLocation getBegin() const
Definition: SourceLocation.h:222

clang::StmtExpr
StmtExpr - This is the GNU Statement Expression extension: ({int X=4; X;}).
Definition: Expr.h:4407

clang::StmtVisitor
StmtVisitor - This class implements a simple visitor for Stmt subclasses.
Definition: StmtVisitor.h:185

clang::Stmt
Stmt - This represents one statement.
Definition: Stmt.h:84

clang::Stmt::GenericSelectionExprBits
GenericSelectionExprBitfields GenericSelectionExprBits
Definition: Stmt.h:1233

clang::Stmt::LambdaExprBits
LambdaExprBitfields LambdaExprBits
Definition: Stmt.h:1263

clang::Stmt::UnresolvedLookupExprBits
UnresolvedLookupExprBitfields UnresolvedLookupExprBits
Definition: Stmt.h:1259

clang::Stmt::SubstNonTypeTemplateParmExprBits
SubstNonTypeTemplateParmExprBitfields SubstNonTypeTemplateParmExprBits
Definition: Stmt.h:1262

clang::Stmt::CXXNoexceptExprBits
CXXNoexceptExprBitfields CXXNoexceptExprBits
Definition: Stmt.h:1261

clang::Stmt::CXXRewrittenBinaryOperatorBits
CXXRewrittenBinaryOperatorBitfields CXXRewrittenBinaryOperatorBits
Definition: Stmt.h:1242

clang::Stmt::children
child_range children()
Definition: Stmt.cpp:287

clang::Stmt::ExprWithCleanupsBits
ExprWithCleanupsBitfields ExprWithCleanupsBits
Definition: Stmt.h:1255

clang::Stmt::CXXScalarValueInitExprBits
CXXScalarValueInitExprBitfields CXXScalarValueInitExprBits
Definition: Stmt.h:1249

clang::Stmt::CXXConstructExprBits
CXXConstructExprBitfields CXXConstructExprBits
Definition: Stmt.h:1254

clang::Stmt::CXXDependentScopeMemberExprBits
CXXDependentScopeMemberExprBitfields CXXDependentScopeMemberExprBits
Definition: Stmt.h:1257

clang::Stmt::TypeTraitExprBits
TypeTraitExprBitfields TypeTraitExprBits
Definition: Stmt.h:1252

clang::Stmt::CXXNewExprBits
CXXNewExprBitfields CXXNewExprBits
Definition: Stmt.h:1250

clang::Stmt::SourceLocExprBits
SourceLocExprBitfields SourceLocExprBits
Definition: Stmt.h:1235

clang::Stmt::ConstantExprBits
ConstantExprBitfields ConstantExprBits
Definition: Stmt.h:1218

clang::Stmt::RequiresExprBits
RequiresExprBitfields RequiresExprBits
Definition: Stmt.h:1264

clang::Stmt::StmtExprBits
StmtExprBitfields StmtExprBits
Definition: Stmt.h:1238

clang::Stmt::StringLiteralBits
StringLiteralBitfields StringLiteralBits
Definition: Stmt.h:1222

clang::Stmt::OpaqueValueExprBits
OpaqueValueExprBitfields OpaqueValueExprBits
Definition: Stmt.h:1273

clang::Stmt::CXXThrowExprBits
CXXThrowExprBitfields CXXThrowExprBits
Definition: Stmt.h:1246

clang::Stmt::MemberExprBits
MemberExprBitfields MemberExprBits
Definition: Stmt.h:1228

clang::Stmt::DeclRefExprBits
DeclRefExprBitfields DeclRefExprBits
Definition: Stmt.h:1220

clang::Stmt::CXXOperatorCallExprBits
CXXOperatorCallExprBitfields CXXOperatorCallExprBits
Definition: Stmt.h:1241

clang::Stmt::CXXDefaultInitExprBits
CXXDefaultInitExprBitfields CXXDefaultInitExprBits
Definition: Stmt.h:1248

clang::Stmt::PredefinedExprBits
PredefinedExprBitfields PredefinedExprBits
Definition: Stmt.h:1219

clang::Stmt::UnresolvedMemberExprBits
UnresolvedMemberExprBitfields UnresolvedMemberExprBits
Definition: Stmt.h:1260

clang::Stmt::PseudoObjectExprBits
PseudoObjectExprBitfields PseudoObjectExprBits
Definition: Stmt.h:1234

clang::Stmt::CXXDeleteExprBits
CXXDeleteExprBitfields CXXDeleteExprBits
Definition: Stmt.h:1251

clang::Stmt::CXXDefaultArgExprBits
CXXDefaultArgExprBitfields CXXDefaultArgExprBits
Definition: Stmt.h:1247

clang::StringLiteral
StringLiteral - This represents a string literal expression, e.g.
Definition: Expr.h:1778

clang::StringLiteral::CreateEmpty
static StringLiteral * CreateEmpty(const ASTContext &Ctx, unsigned NumConcatenated, unsigned Length, unsigned CharByteWidth)
Construct an empty string literal.
Definition: Expr.cpp:1202

clang::SubstNonTypeTemplateParmExpr
Represents a reference to a non-type template parameter that has been substituted with a template arg...
Definition: ExprCXX.h:4483

clang::SubstNonTypeTemplateParmPackExpr
Represents a reference to a non-type template parameter pack that has been substituted with a non-tem...
Definition: ExprCXX.h:4568

clang::SwitchCase
Definition: Stmt.h:1759

clang::SwitchCase::setNextSwitchCase
void setNextSwitchCase(SwitchCase *SC)
Definition: Stmt.h:1781

clang::SwitchStmt
SwitchStmt - This represents a 'switch' stmt.
Definition: Stmt.h:2393

clang::SwitchStmt::CreateEmpty
static SwitchStmt * CreateEmpty(const ASTContext &Ctx, bool HasInit, bool HasVar)
Create an empty switch statement optionally with storage for an init expression and a condition varia...
Definition: Stmt.cpp:1092

clang::TemplateArgumentListInfo
A convenient class for passing around template argument information.
Definition: TemplateBase.h:632

clang::TemplateArgumentListInfo::setLAngleLoc
void setLAngleLoc(SourceLocation Loc)
Definition: TemplateBase.h:650

clang::TemplateArgumentListInfo::setRAngleLoc
void setRAngleLoc(SourceLocation Loc)
Definition: TemplateBase.h:651

clang::TemplateArgumentListInfo::addArgument
void addArgument(const TemplateArgumentLoc &Loc)
Definition: TemplateBase.h:667

clang::TemplateArgumentLoc
Location wrapper for a TemplateArgument.
Definition: TemplateBase.h:524

clang::TemplateArgument
Represents a template argument.
Definition: TemplateBase.h:61

clang::TemplateArgument::pack_begin
pack_iterator pack_begin() const
Iterator referencing the first argument of a template argument pack.
Definition: TemplateBase.h:418

clang::TemplateArgument::pack_size
unsigned pack_size() const
The number of template arguments in the given template argument pack.
Definition: TemplateBase.h:438

clang::TemplateArgument::Pack
@ Pack
The template argument is actually a parameter pack.
Definition: TemplateBase.h:107

clang::TemplateArgument::getKind
ArgKind getKind() const
Return the kind of stored template argument.
Definition: TemplateBase.h:295

clang::TemplateParameterList
Stores a list of template parameters for a TemplateDecl and its derived classes.
Definition: DeclTemplate.h:73

clang::TypeSourceInfo
A container of type source information.
Definition: Type.h:7721

clang::TypeTraitExpr
A type trait used in the implementation of various C++11 and Library TR1 trait templates.
Definition: ExprCXX.h:2767

clang::TypeTraitExpr::CreateDeserialized
static TypeTraitExpr * CreateDeserialized(const ASTContext &C, unsigned NumArgs)
Definition: ExprCXX.cpp:1887

clang::TypoExpr
TypoExpr - Internal placeholder for expressions where typo correction still needs to be performed and...
Definition: Expr.h:6767

clang::UnaryExprOrTypeTraitExpr
UnaryExprOrTypeTraitExpr - expression with either a type or (unevaluated) expression operand.
Definition: Expr.h:2578

clang::UnaryOperator
UnaryOperator - This represents the unary-expression's (except sizeof and alignof),...
Definition: Expr.h:2188

clang::UnaryOperator::CreateEmpty
static UnaryOperator * CreateEmpty(const ASTContext &C, bool hasFPFeatures)
Definition: Expr.cpp:4840

clang::UnresolvedLookupExpr
A reference to a name which we were able to look up during parsing but could not resolve to a specifi...
Definition: ExprCXX.h:3202

clang::UnresolvedLookupExpr::CreateEmpty
static UnresolvedLookupExpr * CreateEmpty(const ASTContext &Context, unsigned NumResults, bool HasTemplateKWAndArgsInfo, unsigned NumTemplateArgs)
Definition: ExprCXX.cpp:455

clang::UnresolvedMemberExpr
Represents a C++ member access expression for which lookup produced a set of overloaded functions.
Definition: ExprCXX.h:3942

clang::UnresolvedMemberExpr::CreateEmpty
static UnresolvedMemberExpr * CreateEmpty(const ASTContext &Context, unsigned NumResults, bool HasTemplateKWAndArgsInfo, unsigned NumTemplateArgs)
Definition: ExprCXX.cpp:1655

clang::UnresolvedSetImpl::begin
iterator begin()
Definition: UnresolvedSet.h:84

clang::UnresolvedSetImpl::addDecl
void addDecl(NamedDecl *D)
Definition: UnresolvedSet.h:92

clang::UnresolvedSetIterator
The iterator over UnresolvedSets.
Definition: UnresolvedSet.h:35

clang::UnresolvedSet
A set of unresolved declarations.
Definition: UnresolvedSet.h:158

clang::UserDefinedLiteral
A call to a literal operator (C++11 [over.literal]) written as a user-defined literal (C++11 [lit....
Definition: ExprCXX.h:637

clang::UserDefinedLiteral::CreateEmpty
static UserDefinedLiteral * CreateEmpty(const ASTContext &Ctx, unsigned NumArgs, bool HasFPOptions, EmptyShell Empty)
Definition: ExprCXX.cpp:966

clang::VAArgExpr
Represents a call to the builtin function __builtin_va_arg.
Definition: Expr.h:4691

clang::ValueDecl
Represent the declaration of a variable (in which case it is an lvalue) a function (in which case it ...
Definition: Decl.h:667

clang::VarDecl
Represents a variable declaration or definition.
Definition: Decl.h:879

clang::WhileStmt
WhileStmt - This represents a 'while' stmt.
Definition: Stmt.h:2589

clang::WhileStmt::CreateEmpty
static WhileStmt * CreateEmpty(const ASTContext &Ctx, bool HasVar)
Create an empty while statement optionally with storage for a condition variable.
Definition: Stmt.cpp:1154

clang::concepts::ExprRequirement
A requires-expression requirement which queries the validity and properties of an expression ('simple...
Definition: ExprConcepts.h:280

clang::concepts::ExprRequirement::SatisfactionStatus
SatisfactionStatus
Definition: ExprConcepts.h:282

clang::concepts::ExprRequirement::SS_ConstraintsNotSatisfied
@ SS_ConstraintsNotSatisfied
Definition: ExprConcepts.h:287

clang::concepts::ExprRequirement::SS_ExprSubstitutionFailure
@ SS_ExprSubstitutionFailure
Definition: ExprConcepts.h:284

clang::concepts::NestedRequirement
A requires-expression requirement which is satisfied when a general constraint expression is satisfie...
Definition: ExprConcepts.h:429

clang::concepts::Requirement
A static requirement that can be used in a requires-expression to check properties of types and expre...
Definition: ExprConcepts.h:168

clang::concepts::Requirement::RequirementKind
RequirementKind
Definition: ExprConcepts.h:172

clang::concepts::Requirement::RK_Compound
@ RK_Compound
Definition: ExprConcepts.h:172

clang::concepts::Requirement::RK_Nested
@ RK_Nested
Definition: ExprConcepts.h:172

clang::concepts::Requirement::RK_Type
@ RK_Type
Definition: ExprConcepts.h:172

clang::concepts::Requirement::RK_Simple
@ RK_Simple
Definition: ExprConcepts.h:172

clang::concepts::TypeRequirement
A requires-expression requirement which queries the existence of a type name or type template special...
Definition: ExprConcepts.h:225

clang::concepts::TypeRequirement::SatisfactionStatus
SatisfactionStatus
Definition: ExprConcepts.h:227

clang::concepts::TypeRequirement::SS_SubstitutionFailure
@ SS_SubstitutionFailure
Definition: ExprConcepts.h:229

clang::serialization::ModuleFile
Information about a module that has been loaded by the ASTReader.
Definition: ModuleFile.h:124

clang::serialization::ModuleFile::DeclsCursor
llvm::BitstreamCursor DeclsCursor
DeclsCursor - This is a cursor to the start of the DECLTYPES_BLOCK block.
Definition: ModuleFile.h:442

llvm::Expected
Definition: LLVM.h:37

llvm::SmallVector
Definition: LLVM.h:35

clang::serialization::StmtCode
StmtCode
Record codes for each kind of statement or expression.
Definition: ASTBitCodes.h:1506

clang::serialization::DesignatorTypes
DesignatorTypes
The kinds of designators that can occur in a DesignatedInitExpr.
Definition: ASTBitCodes.h:2002

clang::serialization::COK_Block
@ COK_Block
Definition: ASTBitCodes.h:2027

clang::serialization::COK_CompoundLiteral
@ COK_CompoundLiteral
Definition: ASTBitCodes.h:2027

clang::serialization::STMT_OMP_SECTION_DIRECTIVE
@ STMT_OMP_SECTION_DIRECTIVE
Definition: ASTBitCodes.h:1909

clang::serialization::EXPR_DESIGNATED_INIT
@ EXPR_DESIGNATED_INIT
A DesignatedInitExpr record.
Definition: ASTBitCodes.h:1653

clang::serialization::EXPR_CXX_UUIDOF_TYPE
@ EXPR_CXX_UUIDOF_TYPE
Definition: ASTBitCodes.h:1891

clang::serialization::EXPR_COMPOUND_LITERAL
@ EXPR_COMPOUND_LITERAL
A CompoundLiteralExpr record.
Definition: ASTBitCodes.h:1644

clang::serialization::STMT_OMP_ASSUME_DIRECTIVE
@ STMT_OMP_ASSUME_DIRECTIVE
Definition: ASTBitCodes.h:1973

clang::serialization::STMT_OMP_DISTRIBUTE_PARALLEL_FOR_SIMD_DIRECTIVE
@ STMT_OMP_DISTRIBUTE_PARALLEL_FOR_SIMD_DIRECTIVE
Definition: ASTBitCodes.h:1951

clang::serialization::EXPR_OBJC_IVAR_REF_EXPR
@ EXPR_OBJC_IVAR_REF_EXPR
An ObjCIvarRefExpr record.
Definition: ASTBitCodes.h:1731

clang::serialization::EXPR_CXX_TYPEID_TYPE
@ EXPR_CXX_TYPEID_TYPE
Definition: ASTBitCodes.h:1842

clang::serialization::STMT_OMP_SCOPE_DIRECTIVE
@ STMT_OMP_SCOPE_DIRECTIVE
Definition: ASTBitCodes.h:1964

clang::serialization::EXPR_REQUIRES
@ EXPR_REQUIRES
Definition: ASTBitCodes.h:1879

clang::serialization::STMT_OMP_PARALLEL_FOR_SIMD_DIRECTIVE
@ STMT_OMP_PARALLEL_FOR_SIMD_DIRECTIVE
Definition: ASTBitCodes.h:1914

clang::serialization::EXPR_COAWAIT
@ EXPR_COAWAIT
Definition: ASTBitCodes.h:1985

clang::serialization::EXPR_MEMBER
@ EXPR_MEMBER
A MemberExpr record.
Definition: ASTBitCodes.h:1626

clang::serialization::STMT_OMP_TARGET_TEAMS_DIRECTIVE
@ STMT_OMP_TARGET_TEAMS_DIRECTIVE
Definition: ASTBitCodes.h:1959

clang::serialization::EXPR_CXX_TEMPORARY_OBJECT
@ EXPR_CXX_TEMPORARY_OBJECT
A CXXTemporaryObjectExpr record.
Definition: ASTBitCodes.h:1805

clang::serialization::EXPR_CXX_UNRESOLVED_LOOKUP
@ EXPR_CXX_UNRESOLVED_LOOKUP
Definition: ASTBitCodes.h:1860

clang::serialization::STMT_OMP_TARGET_TEAMS_DISTRIBUTE_PARALLEL_FOR_SIMD_DIRECTIVE
@ STMT_OMP_TARGET_TEAMS_DISTRIBUTE_PARALLEL_FOR_SIMD_DIRECTIVE
Definition: ASTBitCodes.h:1962

clang::serialization::EXPR_COMPOUND_ASSIGN_OPERATOR
@ EXPR_COMPOUND_ASSIGN_OPERATOR
A CompoundAssignOperator record.
Definition: ASTBitCodes.h:1632

clang::serialization::EXPR_EXPR_WITH_CLEANUPS
@ EXPR_EXPR_WITH_CLEANUPS
Definition: ASTBitCodes.h:1854

clang::serialization::EXPR_CXX_STATIC_CAST
@ EXPR_CXX_STATIC_CAST
A CXXStaticCastExpr record.
Definition: ASTBitCodes.h:1808

clang::serialization::STMT_OMP_META_DIRECTIVE
@ STMT_OMP_META_DIRECTIVE
Definition: ASTBitCodes.h:1898

clang::serialization::EXPR_OBJC_STRING_LITERAL
@ EXPR_OBJC_STRING_LITERAL
An ObjCStringLiteral record.
Definition: ASTBitCodes.h:1715

clang::serialization::EXPR_CXX_PROPERTY_REF_EXPR
@ EXPR_CXX_PROPERTY_REF_EXPR
Definition: ASTBitCodes.h:1888

clang::serialization::EXPR_SYCL_UNIQUE_STABLE_NAME
@ EXPR_SYCL_UNIQUE_STABLE_NAME
Definition: ASTBitCodes.h:1993

clang::serialization::EXPR_CXX_THIS
@ EXPR_CXX_THIS
Definition: ASTBitCodes.h:1843

clang::serialization::STMT_OMP_TARGET_DATA_DIRECTIVE
@ STMT_OMP_TARGET_DATA_DIRECTIVE
Definition: ASTBitCodes.h:1929

clang::serialization::STMT_OMP_BARRIER_DIRECTIVE
@ STMT_OMP_BARRIER_DIRECTIVE
Definition: ASTBitCodes.h:1921

clang::serialization::EXPR_VA_ARG
@ EXPR_VA_ARG
A VAArgExpr record.
Definition: ASTBitCodes.h:1671

clang::serialization::EXPR_CXX_UUIDOF_EXPR
@ EXPR_CXX_UUIDOF_EXPR
Definition: ASTBitCodes.h:1890

clang::serialization::STMT_OMP_TEAMS_DISTRIBUTE_SIMD_DIRECTIVE
@ STMT_OMP_TEAMS_DISTRIBUTE_SIMD_DIRECTIVE
Definition: ASTBitCodes.h:1956

clang::serialization::EXPR_OBJC_ISA
@ EXPR_OBJC_ISA
An ObjCIsa Expr record.
Definition: ASTBitCodes.h:1746

clang::serialization::STMT_OMP_SINGLE_DIRECTIVE
@ STMT_OMP_SINGLE_DIRECTIVE
Definition: ASTBitCodes.h:1910

clang::serialization::EXPR_CXX_OPERATOR_CALL
@ EXPR_CXX_OPERATOR_CALL
A CXXOperatorCallExpr record.
Definition: ASTBitCodes.h:1790

clang::serialization::STMT_OBJC_AT_TRY
@ STMT_OBJC_AT_TRY
An ObjCAtTryStmt record.
Definition: ASTBitCodes.h:1761

clang::serialization::EXPR_DEPENDENT_COAWAIT
@ EXPR_DEPENDENT_COAWAIT
Definition: ASTBitCodes.h:1987

clang::serialization::STMT_OMP_TARGET_EXIT_DATA_DIRECTIVE
@ STMT_OMP_TARGET_EXIT_DATA_DIRECTIVE
Definition: ASTBitCodes.h:1931

clang::serialization::EXPR_CXX_UNRESOLVED_CONSTRUCT
@ EXPR_CXX_UNRESOLVED_CONSTRUCT
Definition: ASTBitCodes.h:1858

clang::serialization::EXPR_FIXEDPOINT_LITERAL
@ EXPR_FIXEDPOINT_LITERAL
Definition: ASTBitCodes.h:1990

clang::serialization::STMT_DO
@ STMT_DO
A DoStmt record.
Definition: ASTBitCodes.h:1545

clang::serialization::STMT_OBJC_CATCH
@ STMT_OBJC_CATCH
An ObjCAtCatchStmt record.
Definition: ASTBitCodes.h:1755

clang::serialization::STMT_OMP_TARGET_DIRECTIVE
@ STMT_OMP_TARGET_DIRECTIVE
Definition: ASTBitCodes.h:1928

clang::serialization::STMT_IF
@ STMT_IF
An IfStmt record.
Definition: ASTBitCodes.h:1536

clang::serialization::EXPR_CXX_EXPRESSION_TRAIT
@ EXPR_CXX_EXPRESSION_TRAIT
Definition: ASTBitCodes.h:1862

clang::serialization::EXPR_CXX_DEFAULT_INIT
@ EXPR_CXX_DEFAULT_INIT
Definition: ASTBitCodes.h:1846

clang::serialization::EXPR_STRING_LITERAL
@ EXPR_STRING_LITERAL
A StringLiteral record.
Definition: ASTBitCodes.h:1596

clang::serialization::EXPR_OBJC_AVAILABILITY_CHECK
@ EXPR_OBJC_AVAILABILITY_CHECK
An ObjCAvailabilityCheckExpr record.
Definition: ASTBitCodes.h:1776

clang::serialization::STMT_OMP_PARALLEL_MASKED_TASKLOOP_DIRECTIVE
@ STMT_OMP_PARALLEL_MASKED_TASKLOOP_DIRECTIVE
Definition: ASTBitCodes.h:1946

clang::serialization::EXPR_MATRIX_SUBSCRIPT
@ EXPR_MATRIX_SUBSCRIPT
An MatrixSubscriptExpr record.
Definition: ASTBitCodes.h:1620

clang::serialization::EXPR_PSEUDO_OBJECT
@ EXPR_PSEUDO_OBJECT
A PseudoObjectExpr record.
Definition: ASTBitCodes.h:1704

clang::serialization::STMT_OMP_TARGET_TEAMS_DISTRIBUTE_PARALLEL_FOR_DIRECTIVE
@ STMT_OMP_TARGET_TEAMS_DISTRIBUTE_PARALLEL_FOR_DIRECTIVE
Definition: ASTBitCodes.h:1961

clang::serialization::EXPR_IMPLICIT_CAST
@ EXPR_IMPLICIT_CAST
An ImplicitCastExpr record.
Definition: ASTBitCodes.h:1638

clang::serialization::STMT_OMP_FLUSH_DIRECTIVE
@ STMT_OMP_FLUSH_DIRECTIVE
Definition: ASTBitCodes.h:1923

clang::serialization::STMT_CAPTURED
@ STMT_CAPTURED
A CapturedStmt record.
Definition: ASTBitCodes.h:1569

clang::serialization::STMT_OMP_TARGET_PARALLEL_FOR_SIMD_DIRECTIVE
@ STMT_OMP_TARGET_PARALLEL_FOR_SIMD_DIRECTIVE
Definition: ASTBitCodes.h:1953

clang::serialization::STMT_OMP_MASTER_TASKLOOP_DIRECTIVE
@ STMT_OMP_MASTER_TASKLOOP_DIRECTIVE
Definition: ASTBitCodes.h:1940

clang::serialization::STMT_OMP_TILE_DIRECTIVE
@ STMT_OMP_TILE_DIRECTIVE
Definition: ASTBitCodes.h:1902

clang::serialization::STMT_OMP_CANCELLATION_POINT_DIRECTIVE
@ STMT_OMP_CANCELLATION_POINT_DIRECTIVE
Definition: ASTBitCodes.h:1936

clang::serialization::STMT_GCCASM
@ STMT_GCCASM
A GCC-style AsmStmt record.
Definition: ASTBitCodes.h:1572

clang::serialization::EXPR_IMAGINARY_LITERAL
@ EXPR_IMAGINARY_LITERAL
An ImaginaryLiteral record.
Definition: ASTBitCodes.h:1593

clang::serialization::STMT_OMP_INTERCHANGE_DIRECTIVE
@ STMT_OMP_INTERCHANGE_DIRECTIVE
Definition: ASTBitCodes.h:1905

clang::serialization::STMT_WHILE
@ STMT_WHILE
A WhileStmt record.
Definition: ASTBitCodes.h:1542

clang::serialization::EXPR_CONVERT_VECTOR
@ EXPR_CONVERT_VECTOR
A ConvertVectorExpr record.
Definition: ASTBitCodes.h:1695

clang::serialization::EXPR_OBJC_SUBSCRIPT_REF_EXPR
@ EXPR_OBJC_SUBSCRIPT_REF_EXPR
An ObjCSubscriptRefExpr record.
Definition: ASTBitCodes.h:1737

clang::serialization::STMT_OPENACC_COMPUTE_CONSTRUCT
@ STMT_OPENACC_COMPUTE_CONSTRUCT
Definition: ASTBitCodes.h:1996

clang::serialization::EXPR_OMP_ARRAY_SHAPING
@ EXPR_OMP_ARRAY_SHAPING
Definition: ASTBitCodes.h:1975

clang::serialization::STMT_OMP_TASKWAIT_DIRECTIVE
@ STMT_OMP_TASKWAIT_DIRECTIVE
Definition: ASTBitCodes.h:1922

clang::serialization::STMT_OMP_TASKYIELD_DIRECTIVE
@ STMT_OMP_TASKYIELD_DIRECTIVE
Definition: ASTBitCodes.h:1919

clang::serialization::EXPR_STMT
@ EXPR_STMT
A StmtExpr record.
Definition: ASTBitCodes.h:1677

clang::serialization::STMT_OMP_PARALLEL_GENERIC_LOOP_DIRECTIVE
@ STMT_OMP_PARALLEL_GENERIC_LOOP_DIRECTIVE
Definition: ASTBitCodes.h:1971

clang::serialization::EXPR_CXX_REINTERPRET_CAST
@ EXPR_CXX_REINTERPRET_CAST
A CXXReinterpretCastExpr record.
Definition: ASTBitCodes.h:1814

clang::serialization::EXPR_DESIGNATED_INIT_UPDATE
@ EXPR_DESIGNATED_INIT_UPDATE
A DesignatedInitUpdateExpr record.
Definition: ASTBitCodes.h:1656

clang::serialization::STMT_OBJC_AT_SYNCHRONIZED
@ STMT_OBJC_AT_SYNCHRONIZED
An ObjCAtSynchronizedStmt record.
Definition: ASTBitCodes.h:1764

clang::serialization::STMT_OMP_DISTRIBUTE_PARALLEL_FOR_DIRECTIVE
@ STMT_OMP_DISTRIBUTE_PARALLEL_FOR_DIRECTIVE
Definition: ASTBitCodes.h:1950

clang::serialization::STMT_OMP_TASKLOOP_SIMD_DIRECTIVE
@ STMT_OMP_TASKLOOP_SIMD_DIRECTIVE
Definition: ASTBitCodes.h:1939

clang::serialization::STMT_MS_DEPENDENT_EXISTS
@ STMT_MS_DEPENDENT_EXISTS
Definition: ASTBitCodes.h:1981

clang::serialization::EXPR_BUILTIN_BIT_CAST
@ EXPR_BUILTIN_BIT_CAST
A BuiltinBitCastExpr record.
Definition: ASTBitCodes.h:1826

clang::serialization::EXPR_CXX_PROPERTY_SUBSCRIPT_EXPR
@ EXPR_CXX_PROPERTY_SUBSCRIPT_EXPR
Definition: ASTBitCodes.h:1889

clang::serialization::STMT_OMP_TARGET_TEAMS_DISTRIBUTE_SIMD_DIRECTIVE
@ STMT_OMP_TARGET_TEAMS_DISTRIBUTE_SIMD_DIRECTIVE
Definition: ASTBitCodes.h:1963

clang::serialization::EXPR_CXX_PSEUDO_DESTRUCTOR
@ EXPR_CXX_PSEUDO_DESTRUCTOR
Definition: ASTBitCodes.h:1852

clang::serialization::EXPR_PACK_INDEXING
@ EXPR_PACK_INDEXING
Definition: ASTBitCodes.h:1871

clang::serialization::EXPR_CXX_NOEXCEPT
@ EXPR_CXX_NOEXCEPT
Definition: ASTBitCodes.h:1863

clang::serialization::STMT_OMP_MASKED_DIRECTIVE
@ STMT_OMP_MASKED_DIRECTIVE
Definition: ASTBitCodes.h:1967

clang::serialization::STMT_OMP_TARGET_ENTER_DATA_DIRECTIVE
@ STMT_OMP_TARGET_ENTER_DATA_DIRECTIVE
Definition: ASTBitCodes.h:1930

clang::serialization::EXPR_CHARACTER_LITERAL
@ EXPR_CHARACTER_LITERAL
A CharacterLiteral record.
Definition: ASTBitCodes.h:1599

clang::serialization::EXPR_OBJC_ENCODE
@ EXPR_OBJC_ENCODE
An ObjCEncodeExpr record.
Definition: ASTBitCodes.h:1722

clang::serialization::STMT_OMP_PARALLEL_SECTIONS_DIRECTIVE
@ STMT_OMP_PARALLEL_SECTIONS_DIRECTIVE
Definition: ASTBitCodes.h:1917

clang::serialization::STMT_OMP_PARALLEL_FOR_DIRECTIVE
@ STMT_OMP_PARALLEL_FOR_DIRECTIVE
Definition: ASTBitCodes.h:1913

clang::serialization::EXPR_CSTYLE_CAST
@ EXPR_CSTYLE_CAST
A CStyleCastExpr record.
Definition: ASTBitCodes.h:1641

clang::serialization::STMT_OMP_PARALLEL_DIRECTIVE
@ STMT_OMP_PARALLEL_DIRECTIVE
Definition: ASTBitCodes.h:1900

clang::serialization::EXPR_OBJC_BOXED_EXPRESSION
@ EXPR_OBJC_BOXED_EXPRESSION
Definition: ASTBitCodes.h:1717

clang::serialization::EXPR_OBJC_BOOL_LITERAL
@ EXPR_OBJC_BOOL_LITERAL
An ObjCBoolLiteralExpr record.
Definition: ASTBitCodes.h:1773

clang::serialization::EXPR_CXX_FOLD
@ EXPR_CXX_FOLD
Definition: ASTBitCodes.h:1877

clang::serialization::EXPR_CXX_BIND_TEMPORARY
@ EXPR_CXX_BIND_TEMPORARY
Definition: ASTBitCodes.h:1847

clang::serialization::EXPR_ARRAY_SECTION
@ EXPR_ARRAY_SECTION
Definition: ASTBitCodes.h:1974

clang::serialization::STMT_OMP_ATOMIC_DIRECTIVE
@ STMT_OMP_ATOMIC_DIRECTIVE
Definition: ASTBitCodes.h:1927

clang::serialization::STMT_OMP_ORDERED_DIRECTIVE
@ STMT_OMP_ORDERED_DIRECTIVE
Definition: ASTBitCodes.h:1926

clang::serialization::EXPR_OMP_ITERATOR
@ EXPR_OMP_ITERATOR
Definition: ASTBitCodes.h:1976

clang::serialization::EXPR_EXT_VECTOR_ELEMENT
@ EXPR_EXT_VECTOR_ELEMENT
An ExtVectorElementExpr record.
Definition: ASTBitCodes.h:1647

clang::serialization::STMT_OMP_TEAMS_GENERIC_LOOP_DIRECTIVE
@ STMT_OMP_TEAMS_GENERIC_LOOP_DIRECTIVE
Definition: ASTBitCodes.h:1969

clang::serialization::STMT_OMP_CRITICAL_DIRECTIVE
@ STMT_OMP_CRITICAL_DIRECTIVE
Definition: ASTBitCodes.h:1912

clang::serialization::EXPR_ATOMIC
@ EXPR_ATOMIC
An AtomicExpr record.
Definition: ASTBitCodes.h:1707

clang::serialization::STMT_OMP_CANCEL_DIRECTIVE
@ STMT_OMP_CANCEL_DIRECTIVE
Definition: ASTBitCodes.h:1937

clang::serialization::EXPR_OFFSETOF
@ EXPR_OFFSETOF
An OffsetOfExpr record.
Definition: ASTBitCodes.h:1611

clang::serialization::STMT_RETURN
@ STMT_RETURN
A ReturnStmt record.
Definition: ASTBitCodes.h:1563

clang::serialization::STMT_OBJC_FOR_COLLECTION
@ STMT_OBJC_FOR_COLLECTION
An ObjCForCollectionStmt record.
Definition: ASTBitCodes.h:1752

clang::serialization::EXPR_CXX_NEW
@ EXPR_CXX_NEW
Definition: ASTBitCodes.h:1850

clang::serialization::STMT_OMP_TARGET_TEAMS_DISTRIBUTE_DIRECTIVE
@ STMT_OMP_TARGET_TEAMS_DISTRIBUTE_DIRECTIVE
Definition: ASTBitCodes.h:1960

clang::serialization::EXPR_ARRAY_INIT_LOOP
@ EXPR_ARRAY_INIT_LOOP
An ArrayInitLoopExpr record.
Definition: ASTBitCodes.h:1662

clang::serialization::STMT_OMP_PARALLEL_MASTER_TASKLOOP_DIRECTIVE
@ STMT_OMP_PARALLEL_MASTER_TASKLOOP_DIRECTIVE
Definition: ASTBitCodes.h:1942

clang::serialization::EXPR_OPAQUE_VALUE
@ EXPR_OPAQUE_VALUE
Definition: ASTBitCodes.h:1865

clang::serialization::STMT_OMP_PARALLEL_MASKED_TASKLOOP_SIMD_DIRECTIVE
@ STMT_OMP_PARALLEL_MASKED_TASKLOOP_SIMD_DIRECTIVE
Definition: ASTBitCodes.h:1947

clang::serialization::STMT_CONTINUE
@ STMT_CONTINUE
A ContinueStmt record.
Definition: ASTBitCodes.h:1557

clang::serialization::EXPR_PREDEFINED
@ EXPR_PREDEFINED
A PredefinedExpr record.
Definition: ASTBitCodes.h:1581

clang::serialization::STMT_OMP_DEPOBJ_DIRECTIVE
@ STMT_OMP_DEPOBJ_DIRECTIVE
Definition: ASTBitCodes.h:1924

clang::serialization::EXPR_CXX_BOOL_LITERAL
@ EXPR_CXX_BOOL_LITERAL
A CXXBoolLiteralExpr record.
Definition: ASTBitCodes.h:1835

clang::serialization::EXPR_PAREN_LIST
@ EXPR_PAREN_LIST
A ParenListExpr record.
Definition: ASTBitCodes.h:1605

clang::serialization::EXPR_CXX_PAREN_LIST_INIT
@ EXPR_CXX_PAREN_LIST_INIT
A CXXParenListInitExpr record.
Definition: ASTBitCodes.h:1838

clang::serialization::STMT_OMP_DISPATCH_DIRECTIVE
@ STMT_OMP_DISPATCH_DIRECTIVE
Definition: ASTBitCodes.h:1966

clang::serialization::STMT_OMP_MASTER_TASKLOOP_SIMD_DIRECTIVE
@ STMT_OMP_MASTER_TASKLOOP_SIMD_DIRECTIVE
Definition: ASTBitCodes.h:1941

clang::serialization::STMT_OMP_TASKLOOP_DIRECTIVE
@ STMT_OMP_TASKLOOP_DIRECTIVE
Definition: ASTBitCodes.h:1938

clang::serialization::STMT_COMPOUND
@ STMT_COMPOUND
A CompoundStmt record.
Definition: ASTBitCodes.h:1521

clang::serialization::STMT_OMP_CANONICAL_LOOP
@ STMT_OMP_CANONICAL_LOOP
Definition: ASTBitCodes.h:1899

clang::serialization::STMT_FOR
@ STMT_FOR
A ForStmt record.
Definition: ASTBitCodes.h:1548

clang::serialization::STMT_ATTRIBUTED
@ STMT_ATTRIBUTED
An AttributedStmt record.
Definition: ASTBitCodes.h:1533

clang::serialization::STMT_OMP_PARALLEL_MASTER_DIRECTIVE
@ STMT_OMP_PARALLEL_MASTER_DIRECTIVE
Definition: ASTBitCodes.h:1915

clang::serialization::STMT_SEH_LEAVE
@ STMT_SEH_LEAVE
Definition: ASTBitCodes.h:1892

clang::serialization::STMT_OMP_TARGET_TEAMS_GENERIC_LOOP_DIRECTIVE
@ STMT_OMP_TARGET_TEAMS_GENERIC_LOOP_DIRECTIVE
Definition: ASTBitCodes.h:1970

clang::serialization::STMT_OMP_TEAMS_DIRECTIVE
@ STMT_OMP_TEAMS_DIRECTIVE
Definition: ASTBitCodes.h:1934

clang::serialization::STMT_OMP_TARGET_PARALLEL_DIRECTIVE
@ STMT_OMP_TARGET_PARALLEL_DIRECTIVE
Definition: ASTBitCodes.h:1932

clang::serialization::EXPR_CXX_REWRITTEN_BINARY_OPERATOR
@ EXPR_CXX_REWRITTEN_BINARY_OPERATOR
A CXXRewrittenBinaryOperator record.
Definition: ASTBitCodes.h:1796

clang::serialization::STMT_GOTO
@ STMT_GOTO
A GotoStmt record.
Definition: ASTBitCodes.h:1551

clang::serialization::EXPR_NO_INIT
@ EXPR_NO_INIT
An NoInitExpr record.
Definition: ASTBitCodes.h:1659

clang::serialization::EXPR_OBJC_ARRAY_LITERAL
@ EXPR_OBJC_ARRAY_LITERAL
Definition: ASTBitCodes.h:1718

clang::serialization::STMT_OMP_ERROR_DIRECTIVE
@ STMT_OMP_ERROR_DIRECTIVE
Definition: ASTBitCodes.h:1920

clang::serialization::EXPR_OBJC_PROTOCOL_EXPR
@ EXPR_OBJC_PROTOCOL_EXPR
An ObjCProtocolExpr record.
Definition: ASTBitCodes.h:1728

clang::serialization::STMT_OMP_GENERIC_LOOP_DIRECTIVE
@ STMT_OMP_GENERIC_LOOP_DIRECTIVE
Definition: ASTBitCodes.h:1968

clang::serialization::EXPR_ARRAY_INIT_INDEX
@ EXPR_ARRAY_INIT_INDEX
An ArrayInitIndexExpr record.
Definition: ASTBitCodes.h:1665

clang::serialization::STMT_OMP_TASK_DIRECTIVE
@ STMT_OMP_TASK_DIRECTIVE
Definition: ASTBitCodes.h:1918

clang::serialization::EXPR_CXX_CONSTRUCT
@ EXPR_CXX_CONSTRUCT
A CXXConstructExpr record.
Definition: ASTBitCodes.h:1799

clang::serialization::STMT_OMP_PARALLEL_MASKED_DIRECTIVE
@ STMT_OMP_PARALLEL_MASKED_DIRECTIVE
Definition: ASTBitCodes.h:1916

clang::serialization::STMT_OMP_TEAMS_DISTRIBUTE_PARALLEL_FOR_DIRECTIVE
@ STMT_OMP_TEAMS_DISTRIBUTE_PARALLEL_FOR_DIRECTIVE
Definition: ASTBitCodes.h:1958

clang::serialization::STMT_OMP_PARALLEL_MASTER_TASKLOOP_SIMD_DIRECTIVE
@ STMT_OMP_PARALLEL_MASTER_TASKLOOP_SIMD_DIRECTIVE
Definition: ASTBitCodes.h:1943

clang::serialization::EXPR_OBJC_DICTIONARY_LITERAL
@ EXPR_OBJC_DICTIONARY_LITERAL
Definition: ASTBitCodes.h:1719

clang::serialization::STMT_OMP_TEAMS_DISTRIBUTE_PARALLEL_FOR_SIMD_DIRECTIVE
@ STMT_OMP_TEAMS_DISTRIBUTE_PARALLEL_FOR_SIMD_DIRECTIVE
Definition: ASTBitCodes.h:1957

clang::serialization::EXPR_CXX_DYNAMIC_CAST
@ EXPR_CXX_DYNAMIC_CAST
A CXXDynamicCastExpr record.
Definition: ASTBitCodes.h:1811

clang::serialization::STMT_SEH_FINALLY
@ STMT_SEH_FINALLY
Definition: ASTBitCodes.h:1894

clang::serialization::STMT_CXX_TRY
@ STMT_CXX_TRY
A CXXTryStmt record.
Definition: ASTBitCodes.h:1784

clang::serialization::EXPR_GENERIC_SELECTION
@ EXPR_GENERIC_SELECTION
A GenericSelectionExpr record.
Definition: ASTBitCodes.h:1701

clang::serialization::STMT_OMP_TARGET_SIMD_DIRECTIVE
@ STMT_OMP_TARGET_SIMD_DIRECTIVE
Definition: ASTBitCodes.h:1954

clang::serialization::EXPR_LAMBDA
@ EXPR_LAMBDA
Definition: ASTBitCodes.h:1982

clang::serialization::EXPR_OBJC_INDIRECT_COPY_RESTORE
@ EXPR_OBJC_INDIRECT_COPY_RESTORE
An ObjCIndirectCopyRestoreExpr record.
Definition: ASTBitCodes.h:1749

clang::serialization::EXPR_CXX_INHERITED_CTOR_INIT
@ EXPR_CXX_INHERITED_CTOR_INIT
A CXXInheritedCtorInitExpr record.
Definition: ASTBitCodes.h:1802

clang::serialization::EXPR_CALL
@ EXPR_CALL
A CallExpr record.
Definition: ASTBitCodes.h:1623

clang::serialization::EXPR_GNU_NULL
@ EXPR_GNU_NULL
A GNUNullExpr record.
Definition: ASTBitCodes.h:1683

clang::serialization::EXPR_BINARY_CONDITIONAL_OPERATOR
@ EXPR_BINARY_CONDITIONAL_OPERATOR
Definition: ASTBitCodes.h:1866

clang::serialization::EXPR_OBJC_PROPERTY_REF_EXPR
@ EXPR_OBJC_PROPERTY_REF_EXPR
An ObjCPropertyRefExpr record.
Definition: ASTBitCodes.h:1734

clang::serialization::STMT_OMP_TARGET_PARALLEL_FOR_DIRECTIVE
@ STMT_OMP_TARGET_PARALLEL_FOR_DIRECTIVE
Definition: ASTBitCodes.h:1933

clang::serialization::STMT_OMP_FOR_SIMD_DIRECTIVE
@ STMT_OMP_FOR_SIMD_DIRECTIVE
Definition: ASTBitCodes.h:1907

clang::serialization::STMT_OMP_MASKED_TASKLOOP_DIRECTIVE
@ STMT_OMP_MASKED_TASKLOOP_DIRECTIVE
Definition: ASTBitCodes.h:1944

clang::serialization::EXPR_CXX_CONST_CAST
@ EXPR_CXX_CONST_CAST
A CXXConstCastExpr record.
Definition: ASTBitCodes.h:1817

clang::serialization::STMT_OMP_SCAN_DIRECTIVE
@ STMT_OMP_SCAN_DIRECTIVE
Definition: ASTBitCodes.h:1925

clang::serialization::STMT_REF_PTR
@ STMT_REF_PTR
A reference to a previously [de]serialized Stmt record.
Definition: ASTBitCodes.h:1515

clang::serialization::EXPR_OBJC_MESSAGE_EXPR
@ EXPR_OBJC_MESSAGE_EXPR
An ObjCMessageExpr record.
Definition: ASTBitCodes.h:1743

clang::serialization::EXPR_CXX_DEPENDENT_SCOPE_DECL_REF
@ EXPR_CXX_DEPENDENT_SCOPE_DECL_REF
Definition: ASTBitCodes.h:1857

clang::serialization::STMT_OMP_TEAMS_DISTRIBUTE_DIRECTIVE
@ STMT_OMP_TEAMS_DISTRIBUTE_DIRECTIVE
Definition: ASTBitCodes.h:1955

clang::serialization::STMT_CASE
@ STMT_CASE
A CaseStmt record.
Definition: ASTBitCodes.h:1524

clang::serialization::EXPR_CONSTANT
@ EXPR_CONSTANT
A constant expression context.
Definition: ASTBitCodes.h:1578

clang::serialization::EXPR_FUNCTION_PARM_PACK
@ EXPR_FUNCTION_PARM_PACK
Definition: ASTBitCodes.h:1875

clang::serialization::STMT_STOP
@ STMT_STOP
A marker record that indicates that we are at the end of an expression.
Definition: ASTBitCodes.h:1509

clang::serialization::EXPR_CXX_NULL_PTR_LITERAL
@ EXPR_CXX_NULL_PTR_LITERAL
Definition: ASTBitCodes.h:1840

clang::serialization::STMT_OMP_TARGET_UPDATE_DIRECTIVE
@ STMT_OMP_TARGET_UPDATE_DIRECTIVE
Definition: ASTBitCodes.h:1949

clang::serialization::STMT_MSASM
@ STMT_MSASM
A MS-style AsmStmt record.
Definition: ASTBitCodes.h:1575

clang::serialization::STMT_OMP_DISTRIBUTE_DIRECTIVE
@ STMT_OMP_DISTRIBUTE_DIRECTIVE
Definition: ASTBitCodes.h:1948

clang::serialization::EXPR_CONDITIONAL_OPERATOR
@ EXPR_CONDITIONAL_OPERATOR
A ConditionOperator record.
Definition: ASTBitCodes.h:1635

clang::serialization::EXPR_BINARY_OPERATOR
@ EXPR_BINARY_OPERATOR
A BinaryOperator record.
Definition: ASTBitCodes.h:1629

clang::serialization::EXPR_CXX_STD_INITIALIZER_LIST
@ EXPR_CXX_STD_INITIALIZER_LIST
A CXXStdInitializerListExpr record.
Definition: ASTBitCodes.h:1832

clang::serialization::STMT_OMP_TASKGROUP_DIRECTIVE
@ STMT_OMP_TASKGROUP_DIRECTIVE
Definition: ASTBitCodes.h:1935

clang::serialization::STMT_OMP_REVERSE_DIRECTIVE
@ STMT_OMP_REVERSE_DIRECTIVE
Definition: ASTBitCodes.h:1904

clang::serialization::STMT_SEH_EXCEPT
@ STMT_SEH_EXCEPT
Definition: ASTBitCodes.h:1893

clang::serialization::EXPR_SHUFFLE_VECTOR
@ EXPR_SHUFFLE_VECTOR
A ShuffleVectorExpr record.
Definition: ASTBitCodes.h:1692

clang::serialization::STMT_OBJC_FINALLY
@ STMT_OBJC_FINALLY
An ObjCAtFinallyStmt record.
Definition: ASTBitCodes.h:1758

clang::serialization::EXPR_ARRAY_TYPE_TRAIT
@ EXPR_ARRAY_TYPE_TRAIT
Definition: ASTBitCodes.h:1868

clang::serialization::EXPR_OBJC_SELECTOR_EXPR
@ EXPR_OBJC_SELECTOR_EXPR
An ObjCSelectorExpr record.
Definition: ASTBitCodes.h:1725

clang::serialization::EXPR_TYPE_TRAIT
@ EXPR_TYPE_TRAIT
Definition: ASTBitCodes.h:1867

clang::serialization::EXPR_FLOATING_LITERAL
@ EXPR_FLOATING_LITERAL
A FloatingLiteral record.
Definition: ASTBitCodes.h:1590

clang::serialization::STMT_OMP_MASTER_DIRECTIVE
@ STMT_OMP_MASTER_DIRECTIVE
Definition: ASTBitCodes.h:1911

clang::serialization::EXPR_CXX_DEPENDENT_SCOPE_MEMBER
@ EXPR_CXX_DEPENDENT_SCOPE_MEMBER
Definition: ASTBitCodes.h:1856

clang::serialization::STMT_NULL_PTR
@ STMT_NULL_PTR
A NULL expression.
Definition: ASTBitCodes.h:1512

clang::serialization::STMT_DEFAULT
@ STMT_DEFAULT
A DefaultStmt record.
Definition: ASTBitCodes.h:1527

clang::serialization::EXPR_CHOOSE
@ EXPR_CHOOSE
A ChooseExpr record.
Definition: ASTBitCodes.h:1680

clang::serialization::STMT_OMP_UNROLL_DIRECTIVE
@ STMT_OMP_UNROLL_DIRECTIVE
Definition: ASTBitCodes.h:1903

clang::serialization::STMT_NULL
@ STMT_NULL
A NullStmt record.
Definition: ASTBitCodes.h:1518

clang::serialization::STMT_OMP_SIMD_DIRECTIVE
@ STMT_OMP_SIMD_DIRECTIVE
Definition: ASTBitCodes.h:1901

clang::serialization::EXPR_BLOCK
@ EXPR_BLOCK
BlockExpr.
Definition: ASTBitCodes.h:1698

clang::serialization::EXPR_DECL_REF
@ EXPR_DECL_REF
A DeclRefExpr record.
Definition: ASTBitCodes.h:1584

clang::serialization::STMT_OPENACC_LOOP_CONSTRUCT
@ STMT_OPENACC_LOOP_CONSTRUCT
Definition: ASTBitCodes.h:1997

clang::serialization::EXPR_SUBST_NON_TYPE_TEMPLATE_PARM
@ EXPR_SUBST_NON_TYPE_TEMPLATE_PARM
Definition: ASTBitCodes.h:1873

clang::serialization::EXPR_INIT_LIST
@ EXPR_INIT_LIST
An InitListExpr record.
Definition: ASTBitCodes.h:1650

clang::serialization::EXPR_IMPLICIT_VALUE_INIT
@ EXPR_IMPLICIT_VALUE_INIT
An ImplicitValueInitExpr record.
Definition: ASTBitCodes.h:1668

clang::serialization::STMT_OBJC_AUTORELEASE_POOL
@ STMT_OBJC_AUTORELEASE_POOL
An ObjCAutoreleasePoolStmt record.
Definition: ASTBitCodes.h:1770

clang::serialization::EXPR_COYIELD
@ EXPR_COYIELD
Definition: ASTBitCodes.h:1986

clang::serialization::EXPR_RECOVERY
@ EXPR_RECOVERY
A RecoveryExpr record.
Definition: ASTBitCodes.h:1710

clang::serialization::EXPR_PAREN
@ EXPR_PAREN
A ParenExpr record.
Definition: ASTBitCodes.h:1602

clang::serialization::STMT_OMP_TARGET_PARALLEL_GENERIC_LOOP_DIRECTIVE
@ STMT_OMP_TARGET_PARALLEL_GENERIC_LOOP_DIRECTIVE
Definition: ASTBitCodes.h:1972

clang::serialization::STMT_LABEL
@ STMT_LABEL
A LabelStmt record.
Definition: ASTBitCodes.h:1530

clang::serialization::EXPR_CXX_FUNCTIONAL_CAST
@ EXPR_CXX_FUNCTIONAL_CAST
A CXXFunctionalCastExpr record.
Definition: ASTBitCodes.h:1823

clang::serialization::EXPR_USER_DEFINED_LITERAL
@ EXPR_USER_DEFINED_LITERAL
A UserDefinedLiteral record.
Definition: ASTBitCodes.h:1829

clang::serialization::EXPR_INTEGER_LITERAL
@ EXPR_INTEGER_LITERAL
An IntegerLiteral record.
Definition: ASTBitCodes.h:1587

clang::serialization::EXPR_SOURCE_LOC
@ EXPR_SOURCE_LOC
A SourceLocExpr record.
Definition: ASTBitCodes.h:1686

clang::serialization::EXPR_CXX_DELETE
@ EXPR_CXX_DELETE
Definition: ASTBitCodes.h:1851

clang::serialization::EXPR_MATERIALIZE_TEMPORARY
@ EXPR_MATERIALIZE_TEMPORARY
Definition: ASTBitCodes.h:1876

clang::serialization::EXPR_CXX_MEMBER_CALL
@ EXPR_CXX_MEMBER_CALL
A CXXMemberCallExpr record.
Definition: ASTBitCodes.h:1793

clang::serialization::STMT_OMP_INTEROP_DIRECTIVE
@ STMT_OMP_INTEROP_DIRECTIVE
Definition: ASTBitCodes.h:1965

clang::serialization::STMT_SWITCH
@ STMT_SWITCH
A SwitchStmt record.
Definition: ASTBitCodes.h:1539

clang::serialization::STMT_DECL
@ STMT_DECL
A DeclStmt record.
Definition: ASTBitCodes.h:1566

clang::serialization::EXPR_CUDA_KERNEL_CALL
@ EXPR_CUDA_KERNEL_CALL
Definition: ASTBitCodes.h:1882

clang::serialization::EXPR_CXX_UNRESOLVED_MEMBER
@ EXPR_CXX_UNRESOLVED_MEMBER
Definition: ASTBitCodes.h:1859

clang::serialization::EXPR_OBJC_KVC_REF_EXPR
@ EXPR_OBJC_KVC_REF_EXPR
UNUSED.
Definition: ASTBitCodes.h:1740

clang::serialization::STMT_COROUTINE_BODY
@ STMT_COROUTINE_BODY
Definition: ASTBitCodes.h:1983

clang::serialization::STMT_OMP_SECTIONS_DIRECTIVE
@ STMT_OMP_SECTIONS_DIRECTIVE
Definition: ASTBitCodes.h:1908

clang::serialization::EXPR_SUBST_NON_TYPE_TEMPLATE_PARM_PACK
@ EXPR_SUBST_NON_TYPE_TEMPLATE_PARM_PACK
Definition: ASTBitCodes.h:1874

clang::serialization::STMT_OMP_FOR_DIRECTIVE
@ STMT_OMP_FOR_DIRECTIVE
Definition: ASTBitCodes.h:1906

clang::serialization::EXPR_OBJC_BRIDGED_CAST
@ EXPR_OBJC_BRIDGED_CAST
Definition: ASTBitCodes.h:1979

clang::serialization::EXPR_CXX_SCALAR_VALUE_INIT
@ EXPR_CXX_SCALAR_VALUE_INIT
Definition: ASTBitCodes.h:1849

clang::serialization::STMT_SEH_TRY
@ STMT_SEH_TRY
Definition: ASTBitCodes.h:1895

clang::serialization::EXPR_ASTYPE
@ EXPR_ASTYPE
Definition: ASTBitCodes.h:1885

clang::serialization::STMT_OMP_MASKED_TASKLOOP_SIMD_DIRECTIVE
@ STMT_OMP_MASKED_TASKLOOP_SIMD_DIRECTIVE
Definition: ASTBitCodes.h:1945

clang::serialization::STMT_CORETURN
@ STMT_CORETURN
Definition: ASTBitCodes.h:1984

clang::serialization::STMT_OMP_DISTRIBUTE_SIMD_DIRECTIVE
@ STMT_OMP_DISTRIBUTE_SIMD_DIRECTIVE
Definition: ASTBitCodes.h:1952

clang::serialization::EXPR_SIZEOF_ALIGN_OF
@ EXPR_SIZEOF_ALIGN_OF
A SizefAlignOfExpr record.
Definition: ASTBitCodes.h:1614

clang::serialization::STMT_BREAK
@ STMT_BREAK
A BreakStmt record.
Definition: ASTBitCodes.h:1560

clang::serialization::EXPR_CXX_THROW
@ EXPR_CXX_THROW
Definition: ASTBitCodes.h:1844

clang::serialization::STMT_OBJC_AT_THROW
@ STMT_OBJC_AT_THROW
An ObjCAtThrowStmt record.
Definition: ASTBitCodes.h:1767

clang::serialization::EXPR_ADDR_LABEL
@ EXPR_ADDR_LABEL
An AddrLabelExpr record.
Definition: ASTBitCodes.h:1674

clang::serialization::EXPR_PACK_EXPANSION
@ EXPR_PACK_EXPANSION
Definition: ASTBitCodes.h:1870

clang::serialization::STMT_CXX_FOR_RANGE
@ STMT_CXX_FOR_RANGE
A CXXForRangeStmt record.
Definition: ASTBitCodes.h:1787

clang::serialization::EXPR_CXX_ADDRSPACE_CAST
@ EXPR_CXX_ADDRSPACE_CAST
A CXXAddrspaceCastExpr record.
Definition: ASTBitCodes.h:1820

clang::serialization::EXPR_ARRAY_SUBSCRIPT
@ EXPR_ARRAY_SUBSCRIPT
An ArraySubscriptExpr record.
Definition: ASTBitCodes.h:1617

clang::serialization::EXPR_CONCEPT_SPECIALIZATION
@ EXPR_CONCEPT_SPECIALIZATION
Definition: ASTBitCodes.h:1878

clang::serialization::EXPR_UNARY_OPERATOR
@ EXPR_UNARY_OPERATOR
A UnaryOperator record.
Definition: ASTBitCodes.h:1608

clang::serialization::STMT_CXX_CATCH
@ STMT_CXX_CATCH
A CXXCatchStmt record.
Definition: ASTBitCodes.h:1781

clang::serialization::EXPR_BUILTIN_PP_EMBED
@ EXPR_BUILTIN_PP_EMBED
A EmbedExpr record.
Definition: ASTBitCodes.h:1689

clang::serialization::EXPR_CXX_DEFAULT_ARG
@ EXPR_CXX_DEFAULT_ARG
Definition: ASTBitCodes.h:1845

clang::serialization::EXPR_CXX_TYPEID_EXPR
@ EXPR_CXX_TYPEID_EXPR
Definition: ASTBitCodes.h:1841

clang::serialization::STMT_INDIRECT_GOTO
@ STMT_INDIRECT_GOTO
An IndirectGotoStmt record.
Definition: ASTBitCodes.h:1554

clang::serialization::EXPR_SIZEOF_PACK
@ EXPR_SIZEOF_PACK
Definition: ASTBitCodes.h:1872

clang::serialization::DESIG_ARRAY_RANGE
@ DESIG_ARRAY_RANGE
GNU array range designator.
Definition: ASTBitCodes.h:2014

clang::serialization::DESIG_FIELD_NAME
@ DESIG_FIELD_NAME
Field designator where only the field name is known.
Definition: ASTBitCodes.h:2004

clang::serialization::DESIG_FIELD_DECL
@ DESIG_FIELD_DECL
Field designator where the field has been resolved to a declaration.
Definition: ASTBitCodes.h:2008

clang::serialization::DESIG_ARRAY
@ DESIG_ARRAY
Array designator.
Definition: ASTBitCodes.h:2011

clang::CodeGen::CleanupKind
CleanupKind
Definition: EHScopeStack.h:77

clang::ObjCPropertyAttribute::Kind
Kind
Definition: DeclObjCCommon.h:22

clang::index::SymbolKind::Field
@ Field

clang
The JSON file list parser is used to communicate input to InstallAPI.
Definition: CalledOnceCheck.h:17

clang::ConstantResultStorageKind
ConstantResultStorageKind
Describes the kind of result that can be tail-allocated.
Definition: Expr.h:1071

clang::ConstantResultStorageKind::None
@ None

clang::ConstantResultStorageKind::APValue
@ APValue

clang::ConstantResultStorageKind::Int64
@ Int64

clang::EmbedResult::Empty
@ Empty

clang::ArrayTypeTrait
ArrayTypeTrait
Names for the array type traits.
Definition: TypeTraits.h:42

clang::OpenMPDirectiveKind
llvm::omp::Directive OpenMPDirectiveKind
OpenMP directives.
Definition: OpenMPKinds.h:24

clang::LinkageSpecLanguageIDs::C
@ C

clang::IfStatementKind
IfStatementKind
In an if statement, this denotes whether the statement is a constexpr or consteval if statement.
Definition: Specifiers.h:39

clang::ExprObjectKind
ExprObjectKind
A further classification of the kind of object referenced by an l-value or x-value.
Definition: Specifiers.h:149

clang::BinaryOperatorKind
BinaryOperatorKind
Definition: OperationKinds.h:25

clang::CapturedRegionKind
CapturedRegionKind
The different kinds of captured statement.
Definition: CapturedStmt.h:16

clang::UnaryExprOrTypeTrait
UnaryExprOrTypeTrait
Names for the "expression or type" traits.
Definition: TypeTraits.h:51

clang::UnaryOperatorKind
UnaryOperatorKind
Definition: OperationKinds.h:30

clang::OpenACCDirectiveKind
OpenACCDirectiveKind
Definition: OpenACCKinds.h:25

clang::OpenACCDirectiveKind::Data
@ Data

clang::CastKind
CastKind
CastKind - The kind of operation required for a conversion.
Definition: OperationKinds.h:20

clang::ExprValueKind
ExprValueKind
The categorization of expression values, currently following the C++11 scheme.
Definition: Specifiers.h:132

clang::T
const FunctionProtoType * T
Definition: RecursiveASTVisitor.h:1359

clang::ExpressionTrait
ExpressionTrait
Definition: ExpressionTraits.h:21

clang::CheckedConversionKind::Implicit
@ Implicit
An implicit conversion.

clang::CharacterLiteralKind
CharacterLiteralKind
Definition: Expr.h:1589

clang::AccessSpecifier
AccessSpecifier
A C++ access specifier (public, private, protected), plus the special value "none" which means differ...
Definition: Specifiers.h:123

hlsl::uint64_t
unsigned long uint64_t
Definition: hlsl_basic_types.h:42

bool
#define bool
Definition: stdbool.h:24

clang::ASTConstraintSatisfaction::Create
static ASTConstraintSatisfaction * Create(const ASTContext &C, const ConstraintSatisfaction &Satisfaction)
Definition: ASTConcept.cpp:61

clang::ASTTemplateKWAndArgsInfo
Represents an explicit template argument list in C++, e.g., the "<int>" in "sort<int>".
Definition: TemplateBase.h:728

clang::ASTTemplateKWAndArgsInfo::initializeFrom
void initializeFrom(SourceLocation TemplateKWLoc, const TemplateArgumentListInfo &List, TemplateArgumentLoc *OutArgArray)
Definition: TemplateBase.cpp:750

clang::DeclarationNameInfo
DeclarationNameInfo - A collector data type for bundling together a DeclarationName and the correspon...
Definition: DeclarationName.h:768

clang::EmbedDataStorage
Stores data related to a single #embed directive.
Definition: Expr.h:4827

clang::ExprDependenceScope::ExprDependence
ExprDependence
Definition: DependenceFlags.h:17

clang::OMPIteratorHelperData
Helper expressions and declaration for OMPIteratorExpr class for each iteration space.
Definition: ExprOpenMP.h:111

clang::OMPIteratorHelperData::CounterUpdate
Expr * CounterUpdate
Updater for the internal counter: ++CounterVD;.
Definition: ExprOpenMP.h:121

clang::OMPIteratorHelperData::Upper
Expr * Upper
Normalized upper bound.
Definition: ExprOpenMP.h:116

clang::OMPIteratorHelperData::Update
Expr * Update
Update expression for the originally specified iteration variable, calculated as VD = Begin + Counter...
Definition: ExprOpenMP.h:119

clang::OMPIteratorHelperData::CounterVD
VarDecl * CounterVD
Internal normalized counter.
Definition: ExprOpenMP.h:113

clang::ObjCDictionaryLiteral_ExpansionData
Internal struct to describes an element that is a pack expansion, used if any of the elements in the ...
Definition: ExprObjC.h:293

clang::ObjCDictionaryLiteral_KeyValuePair
Internal struct for storing Key/value pair.
Definition: ExprObjC.h:285

clang::Stmt::EmptyShell
A placeholder type used to construct an empty shell of a type, that will be filled in later (e....
Definition: Stmt.h:1298

clang::concepts::Requirement::SubstitutionDiagnostic
Definition: ExprConcepts.h:183