//===--- DelayedDiagnostic.h - Delayed declarator diagnostics ---*- 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 the DelayedDiagnostic class, which is used to // record diagnostics that are being conditionally produced during // declarator parsing. Certain kinds of diagnostics --- notably // deprecation and access control --- are suppressed based on // semantic properties of the parsed declaration that aren't known // until it is fully parsed. // // This file also defines AccessedEntity. // //===----------------------------------------------------------------------===// #ifndef LLVM_CLANG_SEMA_DELAYED_DIAGNOSTIC_H #define LLVM_CLANG_SEMA_DELAYED_DIAGNOSTIC_H #include "clang/AST/DeclCXX.h" namespace clang { namespace sema { /// A declaration being accessed, together with information about how /// it was accessed. class AccessedEntity { public: /// A member declaration found through lookup. The target is the /// member. enum MemberNonce { Member }; /// A hierarchy (base-to-derived or derived-to-base) conversion. /// The target is the base class. enum BaseNonce { Base }; bool isMemberAccess() const { return IsMember; } AccessedEntity(ASTContext &Context, MemberNonce _, CXXRecordDecl *NamingClass, DeclAccessPair FoundDecl, QualType BaseObjectType) : Access(FoundDecl.getAccess()), IsMember(true), Target(FoundDecl.getDecl()), NamingClass(NamingClass), BaseObjectType(BaseObjectType), Diag(0, Context.getDiagAllocator()) { } AccessedEntity(ASTContext &Context, BaseNonce _, CXXRecordDecl *BaseClass, CXXRecordDecl *DerivedClass, AccessSpecifier Access) : Access(Access), IsMember(false), Target(BaseClass), NamingClass(DerivedClass), Diag(0, Context.getDiagAllocator()) { } bool isQuiet() const { return Diag.getDiagID() == 0; } AccessSpecifier getAccess() const { return AccessSpecifier(Access); } // These apply to member decls... NamedDecl *getTargetDecl() const { return Target; } CXXRecordDecl *getNamingClass() const { return NamingClass; } // ...and these apply to hierarchy conversions. CXXRecordDecl *getBaseClass() const { assert(!IsMember); return cast(Target); } CXXRecordDecl *getDerivedClass() const { return NamingClass; } /// Retrieves the base object type, important when accessing /// an instance member. QualType getBaseObjectType() const { return BaseObjectType; } /// Sets a diagnostic to be performed. The diagnostic is given /// four (additional) arguments: /// %0 - 0 if the entity was private, 1 if protected /// %1 - the DeclarationName of the entity /// %2 - the TypeDecl type of the naming class /// %3 - the TypeDecl type of the declaring class void setDiag(const PartialDiagnostic &PDiag) { assert(isQuiet() && "partial diagnostic already defined"); Diag = PDiag; } PartialDiagnostic &setDiag(unsigned DiagID) { assert(isQuiet() && "partial diagnostic already defined"); assert(DiagID && "creating null diagnostic"); Diag.Reset(DiagID); return Diag; } const PartialDiagnostic &getDiag() const { return Diag; } private: unsigned Access : 2; unsigned IsMember : 1; NamedDecl *Target; CXXRecordDecl *NamingClass; QualType BaseObjectType; PartialDiagnostic Diag; }; /// A diagnostic message which has been conditionally emitted pending /// the complete parsing of the current declaration. class DelayedDiagnostic { public: enum DDKind { Deprecation, Access, ForbiddenType }; unsigned char Kind; // actually a DDKind bool Triggered; SourceLocation Loc; void Destroy(); static DelayedDiagnostic makeDeprecation(SourceLocation Loc, const NamedDecl *D, llvm::StringRef Msg); static DelayedDiagnostic makeAccess(SourceLocation Loc, const AccessedEntity &Entity) { DelayedDiagnostic DD; DD.Kind = Access; DD.Triggered = false; DD.Loc = Loc; new (&DD.getAccessData()) AccessedEntity(Entity); return DD; } static DelayedDiagnostic makeForbiddenType(SourceLocation loc, unsigned diagnostic, QualType type, unsigned argument) { DelayedDiagnostic DD; DD.Kind = ForbiddenType; DD.Triggered = false; DD.Loc = loc; DD.ForbiddenTypeData.Diagnostic = diagnostic; DD.ForbiddenTypeData.OperandType = type.getAsOpaquePtr(); DD.ForbiddenTypeData.Argument = argument; return DD; } AccessedEntity &getAccessData() { assert(Kind == Access && "Not an access diagnostic."); return *reinterpret_cast(AccessData); } const AccessedEntity &getAccessData() const { assert(Kind == Access && "Not an access diagnostic."); return *reinterpret_cast(AccessData); } const NamedDecl *getDeprecationDecl() const { assert(Kind == Deprecation && "Not a deprecation diagnostic."); return DeprecationData.Decl; } llvm::StringRef getDeprecationMessage() const { assert(Kind == Deprecation && "Not a deprecation diagnostic."); return llvm::StringRef(DeprecationData.Message, DeprecationData.MessageLen); } /// The diagnostic ID to emit. Used like so: /// Diag(diag.Loc, diag.getForbiddenTypeDiagnostic()) /// << diag.getForbiddenTypeOperand() /// << diag.getForbiddenTypeArgument(); unsigned getForbiddenTypeDiagnostic() const { assert(Kind == ForbiddenType && "not a forbidden-type diagnostic"); return ForbiddenTypeData.Diagnostic; } unsigned getForbiddenTypeArgument() const { assert(Kind == ForbiddenType && "not a forbidden-type diagnostic"); return ForbiddenTypeData.Argument; } QualType getForbiddenTypeOperand() const { assert(Kind == ForbiddenType && "not a forbidden-type diagnostic"); return QualType::getFromOpaquePtr(ForbiddenTypeData.OperandType); } private: union { /// Deprecation. struct { const NamedDecl *Decl; const char *Message; size_t MessageLen; } DeprecationData; struct { unsigned Diagnostic; unsigned Argument; void *OperandType; } ForbiddenTypeData; /// Access control. char AccessData[sizeof(AccessedEntity)]; }; }; } } #endif