forked from OSchip/llvm-project
433 lines
14 KiB
C++
433 lines
14 KiB
C++
//===--- SemaDeclSpec.cpp - Declaration Specifier Semantic Analysis -------===//
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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 semantic analysis for declaration specifiers.
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//
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//===----------------------------------------------------------------------===//
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#include "clang/Parse/DeclSpec.h"
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#include "clang/Parse/ParseDiagnostic.h"
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#include "clang/Basic/LangOptions.h"
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#include "llvm/ADT/STLExtras.h"
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#include <cstring>
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using namespace clang;
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static DiagnosticBuilder Diag(Diagnostic &D, SourceLocation Loc,
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SourceManager &SrcMgr, unsigned DiagID) {
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return D.Report(FullSourceLoc(Loc, SrcMgr), DiagID);
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}
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/// \brief Double the capacity of this scope specifier.
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void CXXScopeSpec::reallocate() {
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Action::CXXScopeTy **Data = new Action::CXXScopeTy *[Capacity * 2];
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Action::CXXScopeTy **From
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= Capacity == 4? &InlineScopeReps[0] : ManyScopeReps;
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std::memcpy(Data, From, Capacity * sizeof(Action::CXXScopeTy *));
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if (Capacity > 4)
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delete [] ManyScopeReps;
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ManyScopeReps = Data;
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Capacity *= 2;
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}
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CXXScopeSpec::CXXScopeSpec(const CXXScopeSpec &SS)
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: Range(SS.Range), NumScopeReps(SS.NumScopeReps), Capacity(SS.Capacity) {
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if (Capacity > 4) {
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ManyScopeReps = new Action::CXXScopeTy *[Capacity];
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memcpy(ManyScopeReps, SS.ManyScopeReps,
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Capacity * sizeof(Action::CXXScopeTy *));
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} else {
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memcpy(InlineScopeReps, SS.InlineScopeReps,
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Capacity * sizeof(Action::CXXScopeTy *));
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}
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}
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CXXScopeSpec &CXXScopeSpec::operator=(const CXXScopeSpec &SS) {
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// FIXME: Does not provide the strong exception safety guarantee.
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this->~CXXScopeSpec();
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new (this) CXXScopeSpec(SS);
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return *this;
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}
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void *CXXScopeSpec::buildAnnotationData() const {
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uintptr_t *Data = (uintptr_t *)malloc(sizeof(uintptr_t) * (size() + 1));
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Data[0] = size();
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for (unsigned I = 0; I < size(); ++I)
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Data[I + 1] = reinterpret_cast<uintptr_t>(getScopeRep(I));
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return Data;
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}
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void CXXScopeSpec::setFromAnnotationData(void *DataIn) {
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uintptr_t *Data = static_cast<uintptr_t *>(DataIn);
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NumScopeReps = *Data;
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// Allocate enough space for the annotation data.
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if (NumScopeReps > Capacity) {
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if (Capacity > 4)
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delete [] ManyScopeReps;
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Capacity = NumScopeReps;
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ManyScopeReps = new Action::CXXScopeTy *[Capacity];
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}
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if (Capacity > 4)
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std::memcpy(ManyScopeReps, Data + 1, sizeof(uintptr_t) * NumScopeReps);
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else
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std::memcpy(InlineScopeReps, Data + 1, sizeof(uintptr_t) * NumScopeReps);
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}
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/// DeclaratorChunk::getFunction - Return a DeclaratorChunk for a function.
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/// "TheDeclarator" is the declarator that this will be added to.
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DeclaratorChunk DeclaratorChunk::getFunction(bool hasProto, bool isVariadic,
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SourceLocation EllipsisLoc,
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ParamInfo *ArgInfo,
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unsigned NumArgs,
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unsigned TypeQuals,
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SourceLocation Loc,
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Declarator &TheDeclarator) {
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DeclaratorChunk I;
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I.Kind = Function;
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I.Loc = Loc;
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I.Fun.hasPrototype = hasProto;
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I.Fun.isVariadic = isVariadic;
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I.Fun.EllipsisLoc = EllipsisLoc.getRawEncoding();
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I.Fun.DeleteArgInfo = false;
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I.Fun.TypeQuals = TypeQuals;
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I.Fun.NumArgs = NumArgs;
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I.Fun.ArgInfo = 0;
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// new[] an argument array if needed.
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if (NumArgs) {
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// If the 'InlineParams' in Declarator is unused and big enough, put our
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// parameter list there (in an effort to avoid new/delete traffic). If it
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// is already used (consider a function returning a function pointer) or too
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// small (function taking too many arguments), go to the heap.
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if (!TheDeclarator.InlineParamsUsed &&
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NumArgs <= llvm::array_lengthof(TheDeclarator.InlineParams)) {
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I.Fun.ArgInfo = TheDeclarator.InlineParams;
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I.Fun.DeleteArgInfo = false;
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TheDeclarator.InlineParamsUsed = true;
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} else {
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I.Fun.ArgInfo = new DeclaratorChunk::ParamInfo[NumArgs];
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I.Fun.DeleteArgInfo = true;
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}
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memcpy(I.Fun.ArgInfo, ArgInfo, sizeof(ArgInfo[0])*NumArgs);
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}
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return I;
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}
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/// getParsedSpecifiers - Return a bitmask of which flavors of specifiers this
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/// declaration specifier includes.
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///
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unsigned DeclSpec::getParsedSpecifiers() const {
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unsigned Res = 0;
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if (StorageClassSpec != SCS_unspecified ||
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SCS_thread_specified)
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Res |= PQ_StorageClassSpecifier;
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if (TypeQualifiers != TQ_unspecified)
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Res |= PQ_TypeQualifier;
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if (hasTypeSpecifier())
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Res |= PQ_TypeSpecifier;
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if (FS_inline_specified || FS_virtual_specified || FS_explicit_specified)
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Res |= PQ_FunctionSpecifier;
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return Res;
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}
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const char *DeclSpec::getSpecifierName(DeclSpec::SCS S) {
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switch (S) {
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default: assert(0 && "Unknown typespec!");
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case DeclSpec::SCS_unspecified: return "unspecified";
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case DeclSpec::SCS_typedef: return "typedef";
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case DeclSpec::SCS_extern: return "extern";
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case DeclSpec::SCS_static: return "static";
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case DeclSpec::SCS_auto: return "auto";
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case DeclSpec::SCS_register: return "register";
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case DeclSpec::SCS_mutable: return "mutable";
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}
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}
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bool DeclSpec::BadSpecifier(SCS S, const char *&PrevSpec) {
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PrevSpec = getSpecifierName(S);
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return true;
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}
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bool DeclSpec::BadSpecifier(TSW W, const char *&PrevSpec) {
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switch (W) {
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case TSW_unspecified: PrevSpec = "unspecified"; break;
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case TSW_short: PrevSpec = "short"; break;
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case TSW_long: PrevSpec = "long"; break;
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case TSW_longlong: PrevSpec = "long long"; break;
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}
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return true;
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}
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bool DeclSpec::BadSpecifier(TSC C, const char *&PrevSpec) {
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switch (C) {
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case TSC_unspecified: PrevSpec = "unspecified"; break;
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case TSC_imaginary: PrevSpec = "imaginary"; break;
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case TSC_complex: PrevSpec = "complex"; break;
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}
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return true;
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}
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bool DeclSpec::BadSpecifier(TSS S, const char *&PrevSpec) {
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switch (S) {
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case TSS_unspecified: PrevSpec = "unspecified"; break;
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case TSS_signed: PrevSpec = "signed"; break;
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case TSS_unsigned: PrevSpec = "unsigned"; break;
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}
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return true;
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}
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const char *DeclSpec::getSpecifierName(DeclSpec::TST T) {
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switch (T) {
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default: assert(0 && "Unknown typespec!");
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case DeclSpec::TST_unspecified: return "unspecified";
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case DeclSpec::TST_void: return "void";
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case DeclSpec::TST_char: return "char";
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case DeclSpec::TST_wchar: return "wchar_t";
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case DeclSpec::TST_int: return "int";
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case DeclSpec::TST_float: return "float";
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case DeclSpec::TST_double: return "double";
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case DeclSpec::TST_bool: return "_Bool";
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case DeclSpec::TST_decimal32: return "_Decimal32";
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case DeclSpec::TST_decimal64: return "_Decimal64";
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case DeclSpec::TST_decimal128: return "_Decimal128";
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case DeclSpec::TST_enum: return "enum";
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case DeclSpec::TST_class: return "class";
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case DeclSpec::TST_union: return "union";
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case DeclSpec::TST_struct: return "struct";
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case DeclSpec::TST_typename: return "type-name";
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case DeclSpec::TST_typeofType:
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case DeclSpec::TST_typeofExpr: return "typeof";
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}
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}
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bool DeclSpec::BadSpecifier(TST T, const char *&PrevSpec) {
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PrevSpec = getSpecifierName(T);
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return true;
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}
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bool DeclSpec::BadSpecifier(TQ T, const char *&PrevSpec) {
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switch (T) {
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case DeclSpec::TQ_unspecified: PrevSpec = "unspecified"; break;
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case DeclSpec::TQ_const: PrevSpec = "const"; break;
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case DeclSpec::TQ_restrict: PrevSpec = "restrict"; break;
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case DeclSpec::TQ_volatile: PrevSpec = "volatile"; break;
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}
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return true;
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}
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bool DeclSpec::SetStorageClassSpec(SCS S, SourceLocation Loc,
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const char *&PrevSpec) {
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if (StorageClassSpec != SCS_unspecified)
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return BadSpecifier((SCS)StorageClassSpec, PrevSpec);
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StorageClassSpec = S;
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StorageClassSpecLoc = Loc;
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assert((unsigned)S == StorageClassSpec && "SCS constants overflow bitfield");
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return false;
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}
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bool DeclSpec::SetStorageClassSpecThread(SourceLocation Loc,
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const char *&PrevSpec) {
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if (SCS_thread_specified) {
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PrevSpec = "__thread";
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return true;
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}
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SCS_thread_specified = true;
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SCS_threadLoc = Loc;
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return false;
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}
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/// These methods set the specified attribute of the DeclSpec, but return true
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/// and ignore the request if invalid (e.g. "extern" then "auto" is
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/// specified).
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bool DeclSpec::SetTypeSpecWidth(TSW W, SourceLocation Loc,
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const char *&PrevSpec) {
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if (TypeSpecWidth != TSW_unspecified &&
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// Allow turning long -> long long.
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(W != TSW_longlong || TypeSpecWidth != TSW_long))
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return BadSpecifier((TSW)TypeSpecWidth, PrevSpec);
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TypeSpecWidth = W;
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TSWLoc = Loc;
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return false;
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}
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bool DeclSpec::SetTypeSpecComplex(TSC C, SourceLocation Loc,
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const char *&PrevSpec) {
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if (TypeSpecComplex != TSC_unspecified)
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return BadSpecifier((TSC)TypeSpecComplex, PrevSpec);
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TypeSpecComplex = C;
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TSCLoc = Loc;
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return false;
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}
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bool DeclSpec::SetTypeSpecSign(TSS S, SourceLocation Loc,
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const char *&PrevSpec) {
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if (TypeSpecSign != TSS_unspecified)
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return BadSpecifier((TSS)TypeSpecSign, PrevSpec);
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TypeSpecSign = S;
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TSSLoc = Loc;
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return false;
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}
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bool DeclSpec::SetTypeSpecType(TST T, SourceLocation Loc,
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const char *&PrevSpec, Action::TypeTy *Rep) {
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if (TypeSpecType != TST_unspecified)
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return BadSpecifier((TST)TypeSpecType, PrevSpec);
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TypeSpecType = T;
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TypeRep = Rep;
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TSTLoc = Loc;
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return false;
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}
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bool DeclSpec::SetTypeSpecError() {
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TypeSpecType = TST_error;
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TypeRep = 0;
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TSTLoc = SourceLocation();
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return false;
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}
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bool DeclSpec::SetTypeQual(TQ T, SourceLocation Loc, const char *&PrevSpec,
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const LangOptions &Lang) {
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// Duplicates turn into warnings pre-C99.
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if ((TypeQualifiers & T) && !Lang.C99)
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return BadSpecifier(T, PrevSpec);
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TypeQualifiers |= T;
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switch (T) {
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default: assert(0 && "Unknown type qualifier!");
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case TQ_const: TQ_constLoc = Loc; break;
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case TQ_restrict: TQ_restrictLoc = Loc; break;
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case TQ_volatile: TQ_volatileLoc = Loc; break;
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}
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return false;
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}
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bool DeclSpec::SetFunctionSpecInline(SourceLocation Loc, const char *&PrevSpec){
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// 'inline inline' is ok.
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FS_inline_specified = true;
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FS_inlineLoc = Loc;
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return false;
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}
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bool DeclSpec::SetFunctionSpecVirtual(SourceLocation Loc, const char *&PrevSpec){
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// 'virtual virtual' is ok.
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FS_virtual_specified = true;
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FS_virtualLoc = Loc;
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return false;
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}
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bool DeclSpec::SetFunctionSpecExplicit(SourceLocation Loc, const char *&PrevSpec){
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// 'explicit explicit' is ok.
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FS_explicit_specified = true;
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FS_explicitLoc = Loc;
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return false;
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}
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/// Finish - This does final analysis of the declspec, rejecting things like
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/// "_Imaginary" (lacking an FP type). This returns a diagnostic to issue or
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/// diag::NUM_DIAGNOSTICS if there is no error. After calling this method,
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/// DeclSpec is guaranteed self-consistent, even if an error occurred.
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void DeclSpec::Finish(Diagnostic &D, SourceManager& SrcMgr,
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const LangOptions &Lang) {
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// Check the type specifier components first.
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// signed/unsigned are only valid with int/char/wchar_t.
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if (TypeSpecSign != TSS_unspecified) {
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if (TypeSpecType == TST_unspecified)
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TypeSpecType = TST_int; // unsigned -> unsigned int, signed -> signed int.
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else if (TypeSpecType != TST_int &&
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TypeSpecType != TST_char && TypeSpecType != TST_wchar) {
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Diag(D, TSSLoc, SrcMgr, diag::err_invalid_sign_spec)
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<< getSpecifierName((TST)TypeSpecType);
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// signed double -> double.
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TypeSpecSign = TSS_unspecified;
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}
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}
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// Validate the width of the type.
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switch (TypeSpecWidth) {
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case TSW_unspecified: break;
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case TSW_short: // short int
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case TSW_longlong: // long long int
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if (TypeSpecType == TST_unspecified)
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TypeSpecType = TST_int; // short -> short int, long long -> long long int.
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else if (TypeSpecType != TST_int) {
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Diag(D, TSWLoc, SrcMgr,
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TypeSpecWidth == TSW_short ? diag::err_invalid_short_spec
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: diag::err_invalid_longlong_spec)
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<< getSpecifierName((TST)TypeSpecType);
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TypeSpecType = TST_int;
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}
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break;
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case TSW_long: // long double, long int
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if (TypeSpecType == TST_unspecified)
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TypeSpecType = TST_int; // long -> long int.
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else if (TypeSpecType != TST_int && TypeSpecType != TST_double) {
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Diag(D, TSWLoc, SrcMgr, diag::err_invalid_long_spec)
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<< getSpecifierName((TST)TypeSpecType);
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TypeSpecType = TST_int;
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}
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break;
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}
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// TODO: if the implementation does not implement _Complex or _Imaginary,
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// disallow their use. Need information about the backend.
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if (TypeSpecComplex != TSC_unspecified) {
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if (TypeSpecType == TST_unspecified) {
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Diag(D, TSCLoc, SrcMgr, diag::ext_plain_complex);
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TypeSpecType = TST_double; // _Complex -> _Complex double.
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} else if (TypeSpecType == TST_int || TypeSpecType == TST_char) {
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// Note that this intentionally doesn't include _Complex _Bool.
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Diag(D, TSTLoc, SrcMgr, diag::ext_integer_complex);
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} else if (TypeSpecType != TST_float && TypeSpecType != TST_double) {
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Diag(D, TSCLoc, SrcMgr, diag::err_invalid_complex_spec)
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<< getSpecifierName((TST)TypeSpecType);
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TypeSpecComplex = TSC_unspecified;
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}
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}
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// Verify __thread.
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if (SCS_thread_specified) {
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if (StorageClassSpec == SCS_unspecified) {
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StorageClassSpec = SCS_extern; // '__thread int' -> 'extern __thread int'
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} else if (StorageClassSpec != SCS_extern &&
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StorageClassSpec != SCS_static) {
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Diag(D, getStorageClassSpecLoc(), SrcMgr, diag::err_invalid_thread_spec)
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<< getSpecifierName((SCS)StorageClassSpec);
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SCS_thread_specified = false;
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}
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}
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// Okay, now we can infer the real type.
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// TODO: return "auto function" and other bad things based on the real type.
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// 'data definition has no type or storage class'?
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}
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bool DeclSpec::isMissingDeclaratorOk() {
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TST tst = getTypeSpecType();
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return (tst == TST_union
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|| tst == TST_struct
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|| tst == TST_class
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|| tst == TST_enum
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) && getTypeRep() != 0 && StorageClassSpec != DeclSpec::SCS_typedef;
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}
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