//===--- RAIIObjectsForParser.h - RAII helpers for the parser ---*- 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 and implements the some simple RAII objects that are used // by the parser to manage bits in recursion. // //===----------------------------------------------------------------------===// #ifndef LLVM_CLANG_PARSE_RAII_OBJECTS_FOR_PARSER_H #define LLVM_CLANG_PARSE_RAII_OBJECTS_FOR_PARSER_H #include "clang/Parse/ParseDiagnostic.h" #include "clang/Parse/Parser.h" #include "clang/Sema/DelayedDiagnostic.h" #include "clang/Sema/Sema.h" namespace clang { // TODO: move ParsingClassDefinition here. // TODO: move TentativeParsingAction here. /// \brief A RAII object used to temporarily suppress access-like /// checking. Access-like checks are those associated with /// controlling the use of a declaration, like C++ access control /// errors and deprecation warnings. They are contextually /// dependent, in that they can only be resolved with full /// information about what's being declared. They are also /// suppressed in certain contexts, like the template arguments of /// an explicit instantiation. However, those suppression contexts /// cannot necessarily be fully determined in advance; for /// example, something starting like this: /// template <> class std::vector /// might be the entirety of an explicit instantiation: /// template <> class std::vector; /// or just an elaborated type specifier: /// template <> class std::vector make_vector<>(); /// Therefore this class collects all the diagnostics and permits /// them to be re-delayed in a new context. class SuppressAccessChecks { Sema &S; sema::DelayedDiagnosticPool DiagnosticPool; Sema::ParsingDeclState State; bool Active; public: /// Begin suppressing access-like checks SuppressAccessChecks(Parser &P, bool activate = true) : S(P.getActions()), DiagnosticPool(NULL) { if (activate) { State = S.PushParsingDeclaration(DiagnosticPool); Active = true; } else { Active = false; } } void done() { assert(Active && "trying to end an inactive suppression"); S.PopParsingDeclaration(State, NULL); Active = false; } void redelay() { assert(!Active && "redelaying without having ended first"); if (!DiagnosticPool.pool_empty()) S.redelayDiagnostics(DiagnosticPool); assert(DiagnosticPool.pool_empty()); } ~SuppressAccessChecks() { if (Active) done(); } }; /// \brief RAII object used to inform the actions that we're /// currently parsing a declaration. This is active when parsing a /// variable's initializer, but not when parsing the body of a /// class or function definition. class ParsingDeclRAIIObject { Sema &Actions; sema::DelayedDiagnosticPool DiagnosticPool; Sema::ParsingDeclState State; bool Popped; ParsingDeclRAIIObject(const ParsingDeclRAIIObject &) LLVM_DELETED_FUNCTION; void operator=(const ParsingDeclRAIIObject &) LLVM_DELETED_FUNCTION; public: enum NoParent_t { NoParent }; ParsingDeclRAIIObject(Parser &P, NoParent_t _) : Actions(P.getActions()), DiagnosticPool(NULL) { push(); } /// Creates a RAII object whose pool is optionally parented by another. ParsingDeclRAIIObject(Parser &P, const sema::DelayedDiagnosticPool *parentPool) : Actions(P.getActions()), DiagnosticPool(parentPool) { push(); } /// Creates a RAII object and, optionally, initialize its /// diagnostics pool by stealing the diagnostics from another /// RAII object (which is assumed to be the current top pool). ParsingDeclRAIIObject(Parser &P, ParsingDeclRAIIObject *other) : Actions(P.getActions()), DiagnosticPool(other ? other->DiagnosticPool.getParent() : NULL) { if (other) { DiagnosticPool.steal(other->DiagnosticPool); other->abort(); } push(); } ~ParsingDeclRAIIObject() { abort(); } sema::DelayedDiagnosticPool &getDelayedDiagnosticPool() { return DiagnosticPool; } const sema::DelayedDiagnosticPool &getDelayedDiagnosticPool() const { return DiagnosticPool; } /// Resets the RAII object for a new declaration. void reset() { abort(); push(); } /// Signals that the context was completed without an appropriate /// declaration being parsed. void abort() { pop(0); } void complete(Decl *D) { assert(!Popped && "ParsingDeclaration has already been popped!"); pop(D); } /// Unregister this object from Sema, but remember all the /// diagnostics that were emitted into it. void abortAndRemember() { pop(0); } private: void push() { State = Actions.PushParsingDeclaration(DiagnosticPool); Popped = false; } void pop(Decl *D) { if (!Popped) { Actions.PopParsingDeclaration(State, D); Popped = true; } } }; /// A class for parsing a DeclSpec. class ParsingDeclSpec : public DeclSpec { ParsingDeclRAIIObject ParsingRAII; public: ParsingDeclSpec(Parser &P) : DeclSpec(P.getAttrFactory()), ParsingRAII(P, ParsingDeclRAIIObject::NoParent) {} ParsingDeclSpec(Parser &P, ParsingDeclRAIIObject *RAII) : DeclSpec(P.getAttrFactory()), ParsingRAII(P, RAII) {} const sema::DelayedDiagnosticPool &getDelayedDiagnosticPool() const { return ParsingRAII.getDelayedDiagnosticPool(); } void complete(Decl *D) { ParsingRAII.complete(D); } void abort() { ParsingRAII.abort(); } }; /// A class for parsing a declarator. class ParsingDeclarator : public Declarator { ParsingDeclRAIIObject ParsingRAII; public: ParsingDeclarator(Parser &P, const ParsingDeclSpec &DS, TheContext C) : Declarator(DS, C), ParsingRAII(P, &DS.getDelayedDiagnosticPool()) { } const ParsingDeclSpec &getDeclSpec() const { return static_cast(Declarator::getDeclSpec()); } ParsingDeclSpec &getMutableDeclSpec() const { return const_cast(getDeclSpec()); } void clear() { Declarator::clear(); ParsingRAII.reset(); } void complete(Decl *D) { ParsingRAII.complete(D); } }; /// A class for parsing a field declarator. class ParsingFieldDeclarator : public FieldDeclarator { ParsingDeclRAIIObject ParsingRAII; public: ParsingFieldDeclarator(Parser &P, const ParsingDeclSpec &DS) : FieldDeclarator(DS), ParsingRAII(P, &DS.getDelayedDiagnosticPool()) { } const ParsingDeclSpec &getDeclSpec() const { return static_cast(D.getDeclSpec()); } ParsingDeclSpec &getMutableDeclSpec() const { return const_cast(getDeclSpec()); } void complete(Decl *D) { ParsingRAII.complete(D); } }; /// ExtensionRAIIObject - This saves the state of extension warnings when /// constructed and disables them. When destructed, it restores them back to /// the way they used to be. This is used to handle __extension__ in the /// parser. class ExtensionRAIIObject { ExtensionRAIIObject(const ExtensionRAIIObject &) LLVM_DELETED_FUNCTION; void operator=(const ExtensionRAIIObject &) LLVM_DELETED_FUNCTION; DiagnosticsEngine &Diags; public: ExtensionRAIIObject(DiagnosticsEngine &diags) : Diags(diags) { Diags.IncrementAllExtensionsSilenced(); } ~ExtensionRAIIObject() { Diags.DecrementAllExtensionsSilenced(); } }; /// ColonProtectionRAIIObject - This sets the Parser::ColonIsSacred bool and /// restores it when destroyed. This says that "foo:" should not be /// considered a possible typo for "foo::" for error recovery purposes. class ColonProtectionRAIIObject { Parser &P; bool OldVal; public: ColonProtectionRAIIObject(Parser &p, bool Value = true) : P(p), OldVal(P.ColonIsSacred) { P.ColonIsSacred = Value; } /// restore - This can be used to restore the state early, before the dtor /// is run. void restore() { P.ColonIsSacred = OldVal; } ~ColonProtectionRAIIObject() { restore(); } }; /// \brief RAII object that makes '>' behave either as an operator /// or as the closing angle bracket for a template argument list. class GreaterThanIsOperatorScope { bool &GreaterThanIsOperator; bool OldGreaterThanIsOperator; public: GreaterThanIsOperatorScope(bool >IO, bool Val) : GreaterThanIsOperator(GTIO), OldGreaterThanIsOperator(GTIO) { GreaterThanIsOperator = Val; } ~GreaterThanIsOperatorScope() { GreaterThanIsOperator = OldGreaterThanIsOperator; } }; class InMessageExpressionRAIIObject { bool &InMessageExpression; bool OldValue; public: InMessageExpressionRAIIObject(Parser &P, bool Value) : InMessageExpression(P.InMessageExpression), OldValue(P.InMessageExpression) { InMessageExpression = Value; } ~InMessageExpressionRAIIObject() { InMessageExpression = OldValue; } }; /// \brief RAII object that makes sure paren/bracket/brace count is correct /// after declaration/statement parsing, even when there's a parsing error. class ParenBraceBracketBalancer { Parser &P; unsigned short ParenCount, BracketCount, BraceCount; public: ParenBraceBracketBalancer(Parser &p) : P(p), ParenCount(p.ParenCount), BracketCount(p.BracketCount), BraceCount(p.BraceCount) { } ~ParenBraceBracketBalancer() { P.ParenCount = ParenCount; P.BracketCount = BracketCount; P.BraceCount = BraceCount; } }; class PoisonSEHIdentifiersRAIIObject { PoisonIdentifierRAIIObject Ident_AbnormalTermination; PoisonIdentifierRAIIObject Ident_GetExceptionCode; PoisonIdentifierRAIIObject Ident_GetExceptionInfo; PoisonIdentifierRAIIObject Ident__abnormal_termination; PoisonIdentifierRAIIObject Ident__exception_code; PoisonIdentifierRAIIObject Ident__exception_info; PoisonIdentifierRAIIObject Ident___abnormal_termination; PoisonIdentifierRAIIObject Ident___exception_code; PoisonIdentifierRAIIObject Ident___exception_info; public: PoisonSEHIdentifiersRAIIObject(Parser &Self, bool NewValue) : Ident_AbnormalTermination(Self.Ident_AbnormalTermination, NewValue), Ident_GetExceptionCode(Self.Ident_GetExceptionCode, NewValue), Ident_GetExceptionInfo(Self.Ident_GetExceptionInfo, NewValue), Ident__abnormal_termination(Self.Ident__abnormal_termination, NewValue), Ident__exception_code(Self.Ident__exception_code, NewValue), Ident__exception_info(Self.Ident__exception_info, NewValue), Ident___abnormal_termination(Self.Ident___abnormal_termination, NewValue), Ident___exception_code(Self.Ident___exception_code, NewValue), Ident___exception_info(Self.Ident___exception_info, NewValue) { } }; /// \brief RAII class that helps handle the parsing of an open/close delimiter /// pair, such as braces { ... } or parentheses ( ... ). class BalancedDelimiterTracker : public GreaterThanIsOperatorScope { Parser& P; tok::TokenKind Kind, Close, FinalToken; SourceLocation (Parser::*Consumer)(); SourceLocation LOpen, LClose; unsigned short &getDepth() { switch (Kind) { case tok::l_brace: return P.BraceCount; case tok::l_square: return P.BracketCount; case tok::l_paren: return P.ParenCount; default: llvm_unreachable("Wrong token kind"); } } enum { MaxDepth = 256 }; bool diagnoseOverflow(); bool diagnoseMissingClose(); public: BalancedDelimiterTracker(Parser& p, tok::TokenKind k, tok::TokenKind FinalToken = tok::semi) : GreaterThanIsOperatorScope(p.GreaterThanIsOperator, true), P(p), Kind(k), FinalToken(FinalToken) { switch (Kind) { default: llvm_unreachable("Unexpected balanced token"); case tok::l_brace: Close = tok::r_brace; Consumer = &Parser::ConsumeBrace; break; case tok::l_paren: Close = tok::r_paren; Consumer = &Parser::ConsumeParen; break; case tok::l_square: Close = tok::r_square; Consumer = &Parser::ConsumeBracket; break; } } SourceLocation getOpenLocation() const { return LOpen; } SourceLocation getCloseLocation() const { return LClose; } SourceRange getRange() const { return SourceRange(LOpen, LClose); } bool consumeOpen() { if (!P.Tok.is(Kind)) return true; if (getDepth() < P.getLangOpts().BracketDepth) { LOpen = (P.*Consumer)(); return false; } return diagnoseOverflow(); } bool expectAndConsume(unsigned DiagID, const char *Msg = "", tok::TokenKind SkipToTok = tok::unknown); bool consumeClose() { if (P.Tok.is(Close)) { LClose = (P.*Consumer)(); return false; } return diagnoseMissingClose(); } void skipToEnd(); }; } // end namespace clang #endif