зеркало из https://github.com/microsoft/clang.git
273 строки
9.0 KiB
C++
273 строки
9.0 KiB
C++
//===--- ASTDiagnostic.cpp - Diagnostic Printing Hooks for AST Nodes ------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file implements a diagnostic formatting hook for AST elements.
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//
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//===----------------------------------------------------------------------===//
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#include "clang/AST/ASTDiagnostic.h"
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#include "clang/AST/ASTContext.h"
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#include "clang/AST/DeclObjC.h"
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#include "clang/AST/Type.h"
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#include "llvm/Support/raw_ostream.h"
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using namespace clang;
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/// Determines whether we should have an a.k.a. clause when
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/// pretty-printing a type. There are three main criteria:
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///
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/// 1) Some types provide very minimal sugar that doesn't impede the
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/// user's understanding --- for example, elaborated type
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/// specifiers. If this is all the sugar we see, we don't want an
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/// a.k.a. clause.
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/// 2) Some types are technically sugared but are much more familiar
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/// when seen in their sugared form --- for example, va_list,
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/// vector types, and the magic Objective C types. We don't
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/// want to desugar these, even if we do produce an a.k.a. clause.
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/// 3) Some types may have already been desugared previously in this diagnostic.
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/// if this is the case, doing another "aka" would just be clutter.
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///
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static bool ShouldAKA(ASTContext &Context, QualType QT,
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const Diagnostic::ArgumentValue *PrevArgs,
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unsigned NumPrevArgs,
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QualType &DesugaredQT) {
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QualType InputTy = QT;
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bool AKA = false;
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QualifierCollector Qc;
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while (true) {
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const Type *Ty = Qc.strip(QT);
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// Don't aka just because we saw an elaborated type...
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if (isa<ElaboratedType>(Ty)) {
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QT = cast<ElaboratedType>(Ty)->desugar();
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continue;
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}
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// ...or a qualified name type...
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if (isa<QualifiedNameType>(Ty)) {
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QT = cast<QualifiedNameType>(Ty)->desugar();
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continue;
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}
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// ...or an injected class name...
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if (isa<InjectedClassNameType>(Ty)) {
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QT = cast<InjectedClassNameType>(Ty)->desugar();
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continue;
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}
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// ...or a substituted template type parameter.
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if (isa<SubstTemplateTypeParmType>(Ty)) {
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QT = cast<SubstTemplateTypeParmType>(Ty)->desugar();
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continue;
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}
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// Don't desugar template specializations.
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if (isa<TemplateSpecializationType>(Ty))
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break;
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// Don't desugar magic Objective-C types.
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if (QualType(Ty,0) == Context.getObjCIdType() ||
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QualType(Ty,0) == Context.getObjCClassType() ||
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QualType(Ty,0) == Context.getObjCSelType() ||
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QualType(Ty,0) == Context.getObjCProtoType())
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break;
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// Don't desugar va_list.
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if (QualType(Ty,0) == Context.getBuiltinVaListType())
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break;
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// Otherwise, do a single-step desugar.
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QualType Underlying;
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bool IsSugar = false;
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switch (Ty->getTypeClass()) {
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#define ABSTRACT_TYPE(Class, Base)
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#define TYPE(Class, Base) \
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case Type::Class: { \
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const Class##Type *CTy = cast<Class##Type>(Ty); \
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if (CTy->isSugared()) { \
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IsSugar = true; \
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Underlying = CTy->desugar(); \
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} \
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break; \
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}
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#include "clang/AST/TypeNodes.def"
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}
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// If it wasn't sugared, we're done.
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if (!IsSugar)
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break;
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// If the desugared type is a vector type, we don't want to expand
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// it, it will turn into an attribute mess. People want their "vec4".
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if (isa<VectorType>(Underlying))
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break;
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// Don't desugar through the primary typedef of an anonymous type.
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if (isa<TagType>(Underlying) && isa<TypedefType>(QT))
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if (cast<TagType>(Underlying)->getDecl()->getTypedefForAnonDecl() ==
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cast<TypedefType>(QT)->getDecl())
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break;
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// Otherwise, we're tearing through something opaque; note that
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// we'll eventually need an a.k.a. clause and keep going.
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AKA = true;
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QT = Underlying;
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continue;
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}
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// If we never tore through opaque sugar, don't print aka.
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if (!AKA) return false;
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// If we did, check to see if we already desugared this type in this
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// diagnostic. If so, don't do it again.
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for (unsigned i = 0; i != NumPrevArgs; ++i) {
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// TODO: Handle ak_declcontext case.
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if (PrevArgs[i].first == Diagnostic::ak_qualtype) {
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void *Ptr = (void*)PrevArgs[i].second;
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QualType PrevTy(QualType::getFromOpaquePtr(Ptr));
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if (PrevTy == InputTy)
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return false;
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}
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}
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DesugaredQT = Qc.apply(QT);
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return true;
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}
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/// \brief Convert the given type to a string suitable for printing as part of
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/// a diagnostic.
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///
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/// \param Context the context in which the type was allocated
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/// \param Ty the type to print
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static std::string
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ConvertTypeToDiagnosticString(ASTContext &Context, QualType Ty,
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const Diagnostic::ArgumentValue *PrevArgs,
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unsigned NumPrevArgs) {
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// FIXME: Playing with std::string is really slow.
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std::string S = Ty.getAsString(Context.PrintingPolicy);
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// Consider producing an a.k.a. clause if removing all the direct
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// sugar gives us something "significantly different".
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QualType DesugaredTy;
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if (ShouldAKA(Context, Ty, PrevArgs, NumPrevArgs, DesugaredTy)) {
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S = "'"+S+"' (aka '";
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S += DesugaredTy.getAsString(Context.PrintingPolicy);
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S += "')";
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return S;
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}
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S = "'" + S + "'";
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return S;
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}
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void clang::FormatASTNodeDiagnosticArgument(Diagnostic::ArgumentKind Kind,
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intptr_t Val,
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const char *Modifier,
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unsigned ModLen,
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const char *Argument,
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unsigned ArgLen,
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const Diagnostic::ArgumentValue *PrevArgs,
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unsigned NumPrevArgs,
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llvm::SmallVectorImpl<char> &Output,
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void *Cookie) {
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ASTContext &Context = *static_cast<ASTContext*>(Cookie);
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std::string S;
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bool NeedQuotes = true;
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switch (Kind) {
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default: assert(0 && "unknown ArgumentKind");
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case Diagnostic::ak_qualtype: {
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assert(ModLen == 0 && ArgLen == 0 &&
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"Invalid modifier for QualType argument");
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QualType Ty(QualType::getFromOpaquePtr(reinterpret_cast<void*>(Val)));
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S = ConvertTypeToDiagnosticString(Context, Ty, PrevArgs, NumPrevArgs);
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NeedQuotes = false;
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break;
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}
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case Diagnostic::ak_declarationname: {
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DeclarationName N = DeclarationName::getFromOpaqueInteger(Val);
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S = N.getAsString();
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if (ModLen == 9 && !memcmp(Modifier, "objcclass", 9) && ArgLen == 0)
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S = '+' + S;
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else if (ModLen == 12 && !memcmp(Modifier, "objcinstance", 12)
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&& ArgLen==0)
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S = '-' + S;
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else
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assert(ModLen == 0 && ArgLen == 0 &&
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"Invalid modifier for DeclarationName argument");
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break;
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}
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case Diagnostic::ak_nameddecl: {
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bool Qualified;
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if (ModLen == 1 && Modifier[0] == 'q' && ArgLen == 0)
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Qualified = true;
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else {
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assert(ModLen == 0 && ArgLen == 0 &&
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"Invalid modifier for NamedDecl* argument");
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Qualified = false;
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}
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reinterpret_cast<NamedDecl*>(Val)->
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getNameForDiagnostic(S, Context.PrintingPolicy, Qualified);
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break;
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}
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case Diagnostic::ak_nestednamespec: {
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llvm::raw_string_ostream OS(S);
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reinterpret_cast<NestedNameSpecifier*>(Val)->print(OS,
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Context.PrintingPolicy);
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NeedQuotes = false;
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break;
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}
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case Diagnostic::ak_declcontext: {
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DeclContext *DC = reinterpret_cast<DeclContext *> (Val);
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assert(DC && "Should never have a null declaration context");
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if (DC->isTranslationUnit()) {
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// FIXME: Get these strings from some localized place
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if (Context.getLangOptions().CPlusPlus)
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S = "the global namespace";
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else
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S = "the global scope";
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} else if (TypeDecl *Type = dyn_cast<TypeDecl>(DC)) {
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S = ConvertTypeToDiagnosticString(Context,
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Context.getTypeDeclType(Type),
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PrevArgs, NumPrevArgs);
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} else {
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// FIXME: Get these strings from some localized place
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NamedDecl *ND = cast<NamedDecl>(DC);
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if (isa<NamespaceDecl>(ND))
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S += "namespace ";
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else if (isa<ObjCMethodDecl>(ND))
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S += "method ";
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else if (isa<FunctionDecl>(ND))
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S += "function ";
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S += "'";
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ND->getNameForDiagnostic(S, Context.PrintingPolicy, true);
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S += "'";
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}
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NeedQuotes = false;
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break;
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}
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}
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if (NeedQuotes)
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Output.push_back('\'');
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Output.append(S.begin(), S.end());
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if (NeedQuotes)
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Output.push_back('\'');
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}
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