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//===--- DeclSerialization.cpp - Serialization of Decls ---------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file defines methods that implement bitcode serialization for Decls.
//
//===----------------------------------------------------------------------===//
#include "clang/AST/ASTContext.h"
#include "clang/AST/Decl.h"
#include "clang/AST/DeclCXX.h"
#include "clang/AST/Expr.h"
#include "llvm/Bitcode/Serialize.h"
#include "llvm/Bitcode/Deserialize.h"
using llvm::Serializer;
using llvm::Deserializer;
using llvm::SerializedPtrID;
using namespace clang;
//===----------------------------------------------------------------------===//
// Decl Serialization: Dispatch code to handle specialized decl types.
//===----------------------------------------------------------------------===//
void Decl::Emit(Serializer& S) const {
S.EmitInt(getKind());
EmitImpl(S);
if (const DeclContext *DC = dyn_cast<const DeclContext>(this))
DC->EmitOutRec(S);
}
Decl* Decl::Create(Deserializer& D, ASTContext& C) {
Decl *Dcl;
Kind k = static_cast<Kind>(D.ReadInt());
switch (k) {
default:
assert (false && "Not implemented.");
case TranslationUnit:
Dcl = TranslationUnitDecl::CreateImpl(D, C);
break;
case Namespace:
Dcl = NamespaceDecl::CreateImpl(D, C);
break;
case Var:
Dcl = VarDecl::CreateImpl(D, C);
break;
case Enum:
Dcl = EnumDecl::CreateImpl(D, C);
break;
case EnumConstant:
Dcl = EnumConstantDecl::CreateImpl(D, C);
break;
case Field:
Dcl = FieldDecl::CreateImpl(D, C);
break;
case ParmVar:
Dcl = ParmVarDecl::CreateImpl(D, C);
break;
case OriginalParmVar:
Dcl = ParmVarWithOriginalTypeDecl::CreateImpl(D, C);
break;
case Function:
Dcl = FunctionDecl::CreateImpl(D, C);
break;
case OverloadedFunction:
Dcl = OverloadedFunctionDecl::CreateImpl(D, C);
break;
case Record:
Dcl = RecordDecl::CreateImpl(D, C);
break;
case Typedef:
Dcl = TypedefDecl::CreateImpl(D, C);
break;
case TemplateTypeParm:
Dcl = TemplateTypeParmDecl::CreateImpl(D, C);
break;
case FileScopeAsm:
Dcl = FileScopeAsmDecl::CreateImpl(D, C);
break;
}
if (DeclContext *DC = dyn_cast<DeclContext>(Dcl))
DC->ReadOutRec(D, C);
return Dcl;
}
//===----------------------------------------------------------------------===//
// Common serialization logic for subclasses of Decl.
//===----------------------------------------------------------------------===//
void Decl::EmitInRec(Serializer& S) const {
S.Emit(getLocation()); // From Decl.
}
void Decl::ReadInRec(Deserializer& D, ASTContext& C) {
Loc = SourceLocation::ReadVal(D); // From Decl.
}
//===----------------------------------------------------------------------===//
// Common serialization logic for subclasses of DeclContext.
//===----------------------------------------------------------------------===//
void DeclContext::EmitOutRec(Serializer& S) const {
S.EmitInt(Decls.size());
for (decl_iterator D = decls_begin(); D != decls_end(); ++D) {
bool Owned = ((*D)->getLexicalDeclContext() == this &&
DeclKind != Decl::TranslationUnit &&
!isFunctionOrMethod());
S.EmitBool(Owned);
if (Owned)
S.EmitOwnedPtr(*D);
else
S.EmitPtr(*D);
}
}
void DeclContext::ReadOutRec(Deserializer& D, ASTContext& C) {
unsigned NumDecls = D.ReadInt();
Decls.resize(NumDecls);
for (unsigned Idx = 0; Idx < NumDecls; ++Idx) {
bool Owned = D.ReadBool();
if (Owned)
Decls[Idx] = cast_or_null<ScopedDecl>(D.ReadOwnedPtr<Decl>(C));
else
D.ReadPtr<ScopedDecl>(Decls[Idx]);
}
}
//===----------------------------------------------------------------------===//
// Common serialization logic for subclasses of NamedDecl.
//===----------------------------------------------------------------------===//
void NamedDecl::EmitInRec(Serializer& S) const {
Decl::EmitInRec(S);
S.EmitInt(Name.getNameKind());
switch (Name.getNameKind()) {
case DeclarationName::Identifier:
S.EmitPtr(Name.getAsIdentifierInfo());
break;
case DeclarationName::ObjCZeroArgSelector:
case DeclarationName::ObjCOneArgSelector:
case DeclarationName::ObjCMultiArgSelector:
Name.getObjCSelector().Emit(S);
break;
case DeclarationName::CXXConstructorName:
case DeclarationName::CXXDestructorName:
case DeclarationName::CXXConversionFunctionName:
Name.getCXXNameType().Emit(S);
break;
case DeclarationName::CXXOperatorName:
S.EmitInt(Name.getCXXOverloadedOperator());
break;
}
}
void NamedDecl::ReadInRec(Deserializer& D, ASTContext& C) {
Decl::ReadInRec(D, C);
DeclarationName::NameKind Kind
= static_cast<DeclarationName::NameKind>(D.ReadInt());
switch (Kind) {
case DeclarationName::Identifier: {
IdentifierInfo *Identifier;
D.ReadPtr(Identifier);
Name = Identifier;
break;
}
case DeclarationName::ObjCZeroArgSelector:
case DeclarationName::ObjCOneArgSelector:
case DeclarationName::ObjCMultiArgSelector:
Name = Selector::ReadVal(D);
break;
case DeclarationName::CXXConstructorName:
Name = C.DeclarationNames.getCXXConstructorName(QualType::ReadVal(D));
break;
case DeclarationName::CXXDestructorName:
Name = C.DeclarationNames.getCXXDestructorName(QualType::ReadVal(D));
break;
case DeclarationName::CXXConversionFunctionName:
Name
= C.DeclarationNames.getCXXConversionFunctionName(QualType::ReadVal(D));
break;
case DeclarationName::CXXOperatorName: {
OverloadedOperatorKind Op
= static_cast<OverloadedOperatorKind>(D.ReadInt());
Name = C.DeclarationNames.getCXXOperatorName(Op);
break;
}
}
}
//===----------------------------------------------------------------------===//
// Common serialization logic for subclasses of ScopedDecl.
//===----------------------------------------------------------------------===//
void ScopedDecl::EmitInRec(Serializer& S) const {
NamedDecl::EmitInRec(S);
S.EmitPtr(cast_or_null<Decl>(getDeclContext())); // From ScopedDecl.
S.EmitPtr(cast_or_null<Decl>(getLexicalDeclContext())); // From ScopedDecl.
}
void ScopedDecl::ReadInRec(Deserializer& D, ASTContext& C) {
NamedDecl::ReadInRec(D, C);
assert(DeclCtx == 0);
const SerializedPtrID &SemaDCPtrID = D.ReadPtrID();
const SerializedPtrID &LexicalDCPtrID = D.ReadPtrID();
if (SemaDCPtrID == LexicalDCPtrID) {
// Allow back-patching. Observe that we register the variable of the
// *object* for back-patching. Its actual value will get filled in later.
D.ReadUIntPtr(DeclCtx, SemaDCPtrID);
}
else {
MultipleDC *MDC = new MultipleDC();
DeclCtx = reinterpret_cast<uintptr_t>(MDC) | 0x1;
// Allow back-patching. Observe that we register the variable of the
// *object* for back-patching. Its actual value will get filled in later.
D.ReadPtr(MDC->SemanticDC, SemaDCPtrID);
D.ReadPtr(MDC->LexicalDC, LexicalDCPtrID);
}
}
//===------------------------------------------------------------===//
// NOTE: Not all subclasses of ScopedDecl will use the "OutRec" //
// methods. This is because owned pointers are usually "batched" //
// together for efficiency. //
//===------------------------------------------------------------===//
void ScopedDecl::EmitOutRec(Serializer& S) const {
S.EmitOwnedPtr(getNextDeclarator()); // From ScopedDecl.
}
void ScopedDecl::ReadOutRec(Deserializer& D, ASTContext& C) {
NextDeclarator =
cast_or_null<ScopedDecl>(D.ReadOwnedPtr<Decl>(C)); // From ScopedDecl.
}
//===----------------------------------------------------------------------===//
// Common serialization logic for subclasses of ValueDecl.
//===----------------------------------------------------------------------===//
void ValueDecl::EmitInRec(Serializer& S) const {
ScopedDecl::EmitInRec(S);
S.Emit(getType()); // From ValueDecl.
}
void ValueDecl::ReadInRec(Deserializer& D, ASTContext& C) {
ScopedDecl::ReadInRec(D, C);
DeclType = QualType::ReadVal(D); // From ValueDecl.
}
//===----------------------------------------------------------------------===//
// Common serialization logic for subclasses of VarDecl.
//===----------------------------------------------------------------------===//
void VarDecl::EmitInRec(Serializer& S) const {
ValueDecl::EmitInRec(S);
S.EmitInt(getStorageClass()); // From VarDecl.
}
void VarDecl::ReadInRec(Deserializer& D, ASTContext& C) {
ValueDecl::ReadInRec(D, C);
SClass = static_cast<StorageClass>(D.ReadInt()); // From VarDecl.
}
//===------------------------------------------------------------===//
// NOTE: VarDecl has its own "OutRec" methods that doesn't use //
// the one define in ScopedDecl. This is to batch emit the //
// owned pointers, which results in a smaller output.
//===------------------------------------------------------------===//
void VarDecl::EmitOutRec(Serializer& S) const {
// Emit these last because they will create records of their own.
S.BatchEmitOwnedPtrs(getInit(), // From VarDecl.
getNextDeclarator()); // From ScopedDecl.
}
void VarDecl::ReadOutRec(Deserializer& D, ASTContext& C) {
Decl* next_declarator;
D.BatchReadOwnedPtrs(Init, // From VarDecl.
next_declarator, // From ScopedDecl.
C);
setNextDeclarator(cast_or_null<ScopedDecl>(next_declarator));
}
void VarDecl::EmitImpl(Serializer& S) const {
VarDecl::EmitInRec(S);
VarDecl::EmitOutRec(S);
}
void VarDecl::ReadImpl(Deserializer& D, ASTContext& C) {
ReadInRec(D, C);
ReadOutRec(D, C);
}
//===----------------------------------------------------------------------===//
// TranslationUnitDecl Serialization.
//===----------------------------------------------------------------------===//
void TranslationUnitDecl::EmitImpl(llvm::Serializer& S) const
{
Decl::EmitInRec(S);
}
TranslationUnitDecl* TranslationUnitDecl::CreateImpl(Deserializer& D,
ASTContext& C) {
void *Mem = C.getAllocator().Allocate<TranslationUnitDecl>();
TranslationUnitDecl* decl = new (Mem) TranslationUnitDecl();
decl->Decl::ReadInRec(D, C);
return decl;
}
//===----------------------------------------------------------------------===//
// NamespaceDecl Serialization.
//===----------------------------------------------------------------------===//
void NamespaceDecl::EmitImpl(llvm::Serializer& S) const
{
ScopedDecl::EmitInRec(S);
S.Emit(getLBracLoc());
S.Emit(getRBracLoc());
ScopedDecl::EmitOutRec(S);
}
NamespaceDecl* NamespaceDecl::CreateImpl(Deserializer& D, ASTContext& C) {
void *Mem = C.getAllocator().Allocate<NamespaceDecl>();
NamespaceDecl* decl = new (Mem) NamespaceDecl(0, SourceLocation(), 0);
decl->ScopedDecl::ReadInRec(D, C);
decl->LBracLoc = SourceLocation::ReadVal(D);
decl->RBracLoc = SourceLocation::ReadVal(D);
decl->ScopedDecl::ReadOutRec(D, C);
return decl;
}
//===----------------------------------------------------------------------===//
// VarDecl Serialization.
//===----------------------------------------------------------------------===//
VarDecl* VarDecl::CreateImpl(Deserializer& D, ASTContext& C) {
void *Mem = C.getAllocator().Allocate<VarDecl>();
VarDecl* decl =
new (Mem) VarDecl(Var, 0, SourceLocation(), NULL, QualType(), None, NULL);
decl->VarDecl::ReadImpl(D, C);
return decl;
}
//===----------------------------------------------------------------------===//
// ParmVarDecl Serialization.
//===----------------------------------------------------------------------===//
void ParmVarDecl::EmitImpl(llvm::Serializer& S) const {
VarDecl::EmitImpl(S);
S.EmitInt(getObjCDeclQualifier()); // From ParmVarDecl.
S.EmitOwnedPtr(getDefaultArg()); // From ParmVarDecl.
}
ParmVarDecl* ParmVarDecl::CreateImpl(Deserializer& D, ASTContext& C) {
void *Mem = C.getAllocator().Allocate<ParmVarDecl>();
ParmVarDecl* decl = new (Mem)
ParmVarDecl(ParmVar,
0, SourceLocation(), NULL, QualType(), None, NULL, NULL);
decl->VarDecl::ReadImpl(D, C);
decl->objcDeclQualifier = static_cast<ObjCDeclQualifier>(D.ReadInt());
decl->DefaultArg = D.ReadOwnedPtr<Expr>(C);
return decl;
}
//===----------------------------------------------------------------------===//
// ParmVarWithOriginalTypeDecl Serialization.
//===----------------------------------------------------------------------===//
void ParmVarWithOriginalTypeDecl::EmitImpl(llvm::Serializer& S) const {
ParmVarDecl::EmitImpl(S);
S.Emit(OriginalType);
}
ParmVarWithOriginalTypeDecl* ParmVarWithOriginalTypeDecl::CreateImpl(
Deserializer& D, ASTContext& C) {
void *Mem = C.getAllocator().Allocate<ParmVarWithOriginalTypeDecl>();
ParmVarWithOriginalTypeDecl* decl = new (Mem)
ParmVarWithOriginalTypeDecl(0, SourceLocation(), NULL, QualType(),
QualType(), None, NULL, NULL);
decl->ParmVarDecl::ReadImpl(D, C);
decl->OriginalType = QualType::ReadVal(D);
return decl;
}
//===----------------------------------------------------------------------===//
// EnumDecl Serialization.
//===----------------------------------------------------------------------===//
void EnumDecl::EmitImpl(Serializer& S) const {
ScopedDecl::EmitInRec(S);
S.EmitBool(isDefinition());
S.Emit(IntegerType);
S.EmitOwnedPtr(getNextDeclarator());
}
EnumDecl* EnumDecl::CreateImpl(Deserializer& D, ASTContext& C) {
void *Mem = C.getAllocator().Allocate<EnumDecl>();
EnumDecl* decl = new (Mem) EnumDecl(0, SourceLocation(), NULL, NULL);
decl->ScopedDecl::ReadInRec(D, C);
decl->setDefinition(D.ReadBool());
decl->IntegerType = QualType::ReadVal(D);
Decl* next_declarator = D.ReadOwnedPtr<Decl>(C);
decl->setNextDeclarator(cast_or_null<ScopedDecl>(next_declarator));
return decl;
}
//===----------------------------------------------------------------------===//
// EnumConstantDecl Serialization.
//===----------------------------------------------------------------------===//
void EnumConstantDecl::EmitImpl(Serializer& S) const {
S.Emit(Val);
ValueDecl::EmitInRec(S);
S.BatchEmitOwnedPtrs(getNextDeclarator(),Init);
}
EnumConstantDecl* EnumConstantDecl::CreateImpl(Deserializer& D, ASTContext& C) {
llvm::APSInt val(1);
D.Read(val);
void *Mem = C.getAllocator().Allocate<EnumConstantDecl>();
EnumConstantDecl* decl = new (Mem)
EnumConstantDecl(0, SourceLocation(), NULL, QualType(), NULL, val, NULL);
decl->ValueDecl::ReadInRec(D, C);
Decl* next_declarator;
D.BatchReadOwnedPtrs(next_declarator, decl->Init, C);
decl->setNextDeclarator(cast_or_null<ScopedDecl>(next_declarator));
return decl;
}
//===----------------------------------------------------------------------===//
// FieldDecl Serialization.
//===----------------------------------------------------------------------===//
void FieldDecl::EmitImpl(Serializer& S) const {
S.EmitBool(Mutable);
S.Emit(getType());
ScopedDecl::EmitInRec(S);
S.EmitOwnedPtr(BitWidth);
}
FieldDecl* FieldDecl::CreateImpl(Deserializer& D, ASTContext& C) {
void *Mem = C.getAllocator().Allocate<FieldDecl>();
FieldDecl* decl = new (Mem) FieldDecl(Field, 0, SourceLocation(), NULL,
QualType(), 0, false, 0);
decl->Mutable = D.ReadBool();
decl->DeclType.ReadBackpatch(D);
decl->ReadInRec(D, C);
decl->BitWidth = D.ReadOwnedPtr<Expr>(C);
return decl;
}
//===----------------------------------------------------------------------===//
// FunctionDecl Serialization.
//===----------------------------------------------------------------------===//
void FunctionDecl::EmitImpl(Serializer& S) const {
S.EmitInt(SClass); // From FunctionDecl.
S.EmitBool(IsInline); // From FunctionDecl.
ValueDecl::EmitInRec(S);
S.EmitPtr(PreviousDeclaration);
// NOTE: We do not need to serialize out the number of parameters, because
// that is encoded in the type (accessed via getNumParams()).
if (ParamInfo != NULL) {
S.EmitBool(true);
S.EmitInt(getNumParams());
S.BatchEmitOwnedPtrs(getNumParams(),&ParamInfo[0], Body,
getNextDeclarator());
}
else {
S.EmitBool(false);
S.BatchEmitOwnedPtrs(Body,getNextDeclarator());
}
}
FunctionDecl* FunctionDecl::CreateImpl(Deserializer& D, ASTContext& C) {
StorageClass SClass = static_cast<StorageClass>(D.ReadInt());
bool IsInline = D.ReadBool();
void *Mem = C.getAllocator().Allocate<FunctionDecl>();
FunctionDecl* decl = new (Mem)
FunctionDecl(Function, 0, SourceLocation(), DeclarationName(),
QualType(), SClass, IsInline, 0);
decl->ValueDecl::ReadInRec(D, C);
D.ReadPtr(decl->PreviousDeclaration);
Decl* next_declarator;
int numParams;
bool hasParamDecls = D.ReadBool();
if (hasParamDecls)
numParams = D.ReadInt();
decl->ParamInfo = hasParamDecls
? new ParmVarDecl*[numParams]
: NULL;
if (hasParamDecls)
D.BatchReadOwnedPtrs(numParams,
reinterpret_cast<Decl**>(&decl->ParamInfo[0]),
decl->Body, next_declarator, C);
else
D.BatchReadOwnedPtrs(decl->Body, next_declarator, C);
decl->setNextDeclarator(cast_or_null<ScopedDecl>(next_declarator));
return decl;
}
void BlockDecl::EmitImpl(Serializer& S) const {
// FIXME: what about arguments?
S.Emit(getCaretLocation());
S.EmitOwnedPtr(Body);
}
BlockDecl* BlockDecl::CreateImpl(Deserializer& D, ASTContext& C) {
QualType Q = QualType::ReadVal(D);
SourceLocation L = SourceLocation::ReadVal(D);
/*CompoundStmt* BodyStmt = cast<CompoundStmt>(*/D.ReadOwnedPtr<Stmt>(C)/*)*/;
assert(0 && "Cannot deserialize BlockBlockExpr yet");
// FIXME: need to handle parameters.
//return new BlockBlockExpr(L, Q, BodyStmt);
return 0;
}
//===----------------------------------------------------------------------===//
// OverloadedFunctionDecl Serialization.
//===----------------------------------------------------------------------===//
void OverloadedFunctionDecl::EmitImpl(Serializer& S) const {
NamedDecl::EmitInRec(S);
S.EmitInt(getNumFunctions());
for (unsigned func = 0; func < getNumFunctions(); ++func)
S.EmitPtr(Functions[func]);
}
OverloadedFunctionDecl *
OverloadedFunctionDecl::CreateImpl(Deserializer& D, ASTContext& C) {
void *Mem = C.getAllocator().Allocate<OverloadedFunctionDecl>();
OverloadedFunctionDecl* decl = new (Mem)
OverloadedFunctionDecl(0, DeclarationName());
decl->NamedDecl::ReadInRec(D, C);
unsigned numFunctions = D.ReadInt();
decl->Functions.reserve(numFunctions);
for (unsigned func = 0; func < numFunctions; ++func)
D.ReadPtr(decl->Functions[func]);
return decl;
}
//===----------------------------------------------------------------------===//
// RecordDecl Serialization.
//===----------------------------------------------------------------------===//
void RecordDecl::EmitImpl(Serializer& S) const {
S.EmitInt(getTagKind());
ScopedDecl::EmitInRec(S);
S.EmitBool(isDefinition());
S.EmitBool(hasFlexibleArrayMember());
ScopedDecl::EmitOutRec(S);
}
RecordDecl* RecordDecl::CreateImpl(Deserializer& D, ASTContext& C) {
TagKind TK = TagKind(D.ReadInt());
void *Mem = C.getAllocator().Allocate<RecordDecl>();
RecordDecl* decl = new (Mem) RecordDecl(Record, TK, 0, SourceLocation(), NULL);
decl->ScopedDecl::ReadInRec(D, C);
decl->setDefinition(D.ReadBool());
decl->setHasFlexibleArrayMember(D.ReadBool());
decl->ScopedDecl::ReadOutRec(D, C);
return decl;
}
//===----------------------------------------------------------------------===//
// TypedefDecl Serialization.
//===----------------------------------------------------------------------===//
void TypedefDecl::EmitImpl(Serializer& S) const {
S.Emit(UnderlyingType);
ScopedDecl::EmitInRec(S);
ScopedDecl::EmitOutRec(S);
}
TypedefDecl* TypedefDecl::CreateImpl(Deserializer& D, ASTContext& C) {
QualType T = QualType::ReadVal(D);
void *Mem = C.getAllocator().Allocate<TypedefDecl>();
TypedefDecl* decl = new (Mem) TypedefDecl(0, SourceLocation(), NULL, T, NULL);
decl->ScopedDecl::ReadInRec(D, C);
decl->ScopedDecl::ReadOutRec(D, C);
return decl;
}
//===----------------------------------------------------------------------===//
// TemplateTypeParmDecl Serialization.
//===----------------------------------------------------------------------===//
void TemplateTypeParmDecl::EmitImpl(Serializer& S) const {
S.EmitBool(Typename);
ScopedDecl::EmitInRec(S);
ScopedDecl::EmitOutRec(S);
}
TemplateTypeParmDecl *
TemplateTypeParmDecl::CreateImpl(Deserializer& D, ASTContext& C) {
bool Typename = D.ReadBool();
void *Mem = C.getAllocator().Allocate<TemplateTypeParmDecl>();
TemplateTypeParmDecl *decl
= new (Mem) TemplateTypeParmDecl(0, SourceLocation(), NULL, Typename);
decl->ScopedDecl::ReadInRec(D, C);
decl->ScopedDecl::ReadOutRec(D, C);
return decl;
}
//===----------------------------------------------------------------------===//
// LinkageSpec Serialization.
//===----------------------------------------------------------------------===//
void LinkageSpecDecl::EmitInRec(Serializer& S) const {
Decl::EmitInRec(S);
S.EmitInt(getLanguage());
S.EmitBool(HadBraces);
if (HadBraces) {
S.EmitInt(NumDecls);
for (decl_const_iterator D = decls_begin(), DEnd = decls_end();
D != DEnd; ++D)
S.EmitPtr(*D);
} else {
S.EmitPtr((Decl*)Decls);
}
}
void LinkageSpecDecl::ReadInRec(Deserializer& D, ASTContext& C) {
Decl::ReadInRec(D, C);
Language = static_cast<LanguageIDs>(D.ReadInt());
HadBraces = D.ReadBool();
if (HadBraces) {
NumDecls = D.ReadInt();
Decl **NewDecls = new Decl*[NumDecls];
Decls = NewDecls;
for (unsigned I = 0; I < NumDecls; ++I)
D.ReadPtr(NewDecls[I]);
} else {
D.ReadPtr(this->Decls);
}
}
//===----------------------------------------------------------------------===//
// FileScopeAsm Serialization.
//===----------------------------------------------------------------------===//
void FileScopeAsmDecl::EmitImpl(llvm::Serializer& S) const
{
Decl::EmitInRec(S);
S.EmitOwnedPtr(AsmString);
}
FileScopeAsmDecl* FileScopeAsmDecl::CreateImpl(Deserializer& D, ASTContext& C) {
void *Mem = C.getAllocator().Allocate<FileScopeAsmDecl>();
FileScopeAsmDecl* decl = new (Mem) FileScopeAsmDecl(SourceLocation(), 0);
decl->Decl::ReadInRec(D, C);
decl->AsmString = cast<StringLiteral>(D.ReadOwnedPtr<Expr>(C));
// D.ReadOwnedPtr(D.ReadOwnedPtr<StringLiteral>())<#T * * Ptr#>, <#bool AutoRegister#>)(decl->AsmString);
return decl;
}