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4d87df5853
is completely defined (C++ [class.mem]p2). Reverse the order in which we process the definitions of member functions specified inline. This way, we'll get diagnostics in the order in which the member functions were declared in the class. llvm-svn: 61103
157 lines
5.9 KiB
C++
157 lines
5.9 KiB
C++
//===--- SemaCXXScopeSpec.cpp - Semantic Analysis for C++ scope specifiers-===//
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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 C++ semantic analysis for scope specifiers.
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//
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//===----------------------------------------------------------------------===//
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#include "Sema.h"
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#include "clang/AST/ASTContext.h"
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#include "clang/Parse/DeclSpec.h"
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#include "clang/Basic/Diagnostic.h"
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#include "llvm/ADT/STLExtras.h"
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using namespace clang;
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namespace {
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Decl *LookupNestedName(DeclContext *LookupCtx, bool LookInParentCtx,
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DeclarationName Name, bool &IdIsUndeclared,
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ASTContext &Context) {
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if (LookupCtx && !LookInParentCtx) {
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IdIsUndeclared = true;
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DeclContext::lookup_const_iterator I, E;
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for (llvm::tie(I, E) = LookupCtx->lookup(Context, Name); I != E; ++I) {
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IdIsUndeclared = false;
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if (((*I)->getIdentifierNamespace() & Decl::IDNS_Tag) ||
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isa<TypedefDecl>(*I))
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return *I;
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}
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return 0;
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}
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// FIXME: Decouple this from the IdentifierResolver so that we can
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// deal with lookups into the semantic parent contexts that aren't
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// lexical parent contexts.
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IdentifierResolver::iterator
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I = IdentifierResolver::begin(Name, LookupCtx, LookInParentCtx),
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E = IdentifierResolver::end();
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if (I == E) {
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IdIsUndeclared = true;
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return 0;
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}
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IdIsUndeclared = false;
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// C++ 3.4.3p1 :
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// During the lookup for a name preceding the :: scope resolution operator,
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// object, function, and enumerator names are ignored. If the name found is
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// not a class-name or namespace-name, the program is ill-formed.
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for (; I != E; ++I) {
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if (isa<TypedefDecl>(*I)) {
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break;
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}
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if (((*I)->getIdentifierNamespace() & Decl::IDNS_Tag))
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break;
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}
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return (I != E ? *I : 0);
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}
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} // anonymous namespace
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/// ActOnCXXGlobalScopeSpecifier - Return the object that represents the
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/// global scope ('::').
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Sema::CXXScopeTy *Sema::ActOnCXXGlobalScopeSpecifier(Scope *S,
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SourceLocation CCLoc) {
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return cast<DeclContext>(Context.getTranslationUnitDecl());
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}
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/// ActOnCXXNestedNameSpecifier - Called during parsing of a
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/// nested-name-specifier. e.g. for "foo::bar::" we parsed "foo::" and now
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/// we want to resolve "bar::". 'SS' is empty or the previously parsed
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/// nested-name part ("foo::"), 'IdLoc' is the source location of 'bar',
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/// 'CCLoc' is the location of '::' and 'II' is the identifier for 'bar'.
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/// Returns a CXXScopeTy* object representing the C++ scope.
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Sema::CXXScopeTy *Sema::ActOnCXXNestedNameSpecifier(Scope *S,
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const CXXScopeSpec &SS,
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SourceLocation IdLoc,
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SourceLocation CCLoc,
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IdentifierInfo &II) {
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DeclContext *DC = static_cast<DeclContext*>(SS.getScopeRep());
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Decl *SD;
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bool IdIsUndeclared;
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if (DC)
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SD = LookupNestedName(DC, false/*LookInParentCtx*/, &II, IdIsUndeclared,
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Context);
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else
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SD = LookupNestedName(CurContext, true/*LookInParent*/, &II,
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IdIsUndeclared, Context);
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if (SD) {
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if (TypedefDecl *TD = dyn_cast<TypedefDecl>(SD)) {
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if (const RecordType* Record = TD->getUnderlyingType()->getAsRecordType())
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return cast<DeclContext>(Record->getDecl());
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} else if (isa<NamespaceDecl>(SD) || isa<RecordDecl>(SD)) {
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return cast<DeclContext>(SD);
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}
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// Fall through to produce an error: we found something that isn't
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// a class or a namespace.
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}
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unsigned DiagID;
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if (!IdIsUndeclared)
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DiagID = diag::err_expected_class_or_namespace;
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else if (DC)
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DiagID = diag::err_typecheck_no_member;
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else
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DiagID = diag::err_undeclared_var_use;
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if (DC)
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Diag(IdLoc, DiagID) << &II << SS.getRange();
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else
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Diag(IdLoc, DiagID) << &II;
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return 0;
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}
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/// ActOnCXXEnterDeclaratorScope - Called when a C++ scope specifier (global
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/// scope or nested-name-specifier) is parsed, part of a declarator-id.
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/// After this method is called, according to [C++ 3.4.3p3], names should be
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/// looked up in the declarator-id's scope, until the declarator is parsed and
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/// ActOnCXXExitDeclaratorScope is called.
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/// The 'SS' should be a non-empty valid CXXScopeSpec.
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void Sema::ActOnCXXEnterDeclaratorScope(Scope *S, const CXXScopeSpec &SS) {
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assert(SS.isSet() && "Parser passed invalid CXXScopeSpec.");
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assert(PreDeclaratorDC == 0 && "Previous declarator context not popped?");
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PreDeclaratorDC = static_cast<DeclContext*>(S->getEntity());
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CurContext = static_cast<DeclContext*>(SS.getScopeRep());
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S->setEntity(CurContext);
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}
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/// ActOnCXXExitDeclaratorScope - Called when a declarator that previously
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/// invoked ActOnCXXEnterDeclaratorScope(), is finished. 'SS' is the same
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/// CXXScopeSpec that was passed to ActOnCXXEnterDeclaratorScope as well.
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/// Used to indicate that names should revert to being looked up in the
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/// defining scope.
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void Sema::ActOnCXXExitDeclaratorScope(Scope *S, const CXXScopeSpec &SS) {
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assert(SS.isSet() && "Parser passed invalid CXXScopeSpec.");
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assert(S->getEntity() == SS.getScopeRep() && "Context imbalance!");
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S->setEntity(PreDeclaratorDC);
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PreDeclaratorDC = 0;
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// Reset CurContext to the nearest enclosing context.
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while (!S->getEntity() && S->getParent())
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S = S->getParent();
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CurContext = static_cast<DeclContext*>(S->getEntity());
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}
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