ANTLR_BEGIN_NAMESPACE() template< class ImplTraits > Parser::Parser( ANTLR_UINT32 sizeHint, RecognizerSharedStateType* state ) :RecognizerType( sizeHint, state ) { m_tstream = NULL; } template< class ImplTraits > Parser::Parser( ANTLR_UINT32 sizeHint, TokenStreamType* tstream, RecognizerSharedStateType* state ) :RecognizerType( sizeHint, state ) { this->setTokenStream( tstream ); } template< class ImplTraits > Parser::Parser( ANTLR_UINT32 sizeHint, TokenStreamType* tstream, DebugEventListenerType* dbg, RecognizerSharedStateType* state ) :RecognizerType( sizeHint, state ) { this->setTokenStream( tstream ); this->setDebugListener( dbg ); } template< class ImplTraits > ANTLR_INLINE typename Parser::TokenStreamType* Parser::get_tstream() const { return m_tstream; } template< class ImplTraits > ANTLR_INLINE typename Parser::IntStreamType* Parser::get_istream() const { return m_tstream; } template< class ImplTraits > ANTLR_INLINE typename Parser::IntStreamType* Parser::get_parser_istream() const { return m_tstream; } template< class ImplTraits > ANTLR_INLINE typename Parser::TokenStreamType* Parser::get_input() const { return m_tstream; } template< class ImplTraits > void Parser::fillExceptionData( ExceptionBaseType* ex ) { ex->set_token( m_tstream->_LT(1) ); /* Current input token */ ex->set_line( ex->get_token()->get_line() ); ex->set_charPositionInLine( ex->get_token()->get_charPositionInLine() ); ex->set_index( this->get_istream()->index() ); if( ex->get_token()->get_type() == CommonTokenType::TOKEN_EOF) { ex->set_streamName(""); } else { ex->set_streamName( ex->get_token()->get_input()->get_fileName() ); } ex->set_message("Unexpected token"); } template< class ImplTraits > void Parser::displayRecognitionError( ANTLR_UINT8** tokenNames, ExceptionBaseType* ex ) { typename ImplTraits::StringStreamType errtext; // See if there is a 'filename' we can use // if( ex->get_streamName().empty() ) { if(ex->get_token()->get_type() == CommonTokenType::TOKEN_EOF) { errtext << "-end of input-("; } else { errtext << "-unknown source-("; } } else { errtext << ex->get_streamName() << "("; } // Next comes the line number // errtext << this->get_rec()->get_state()->get_exception()->get_line() << ") "; errtext << " : error " << this->get_rec()->get_state()->get_exception()->getType() << " : " << this->get_rec()->get_state()->get_exception()->get_message(); // Prepare the knowledge we know we have // const CommonTokenType* theToken = this->get_rec()->get_state()->get_exception()->get_token(); StringType ttext = theToken->toString(); errtext << ", at offset , " << this->get_rec()->get_state()->get_exception()->get_charPositionInLine(); if (theToken != NULL) { if (theToken->get_type() == CommonTokenType::TOKEN_EOF) { errtext << ", at "; } else { // Guard against null text in a token // errtext << "\n near " << ( ttext.empty() ? "" : ttext ) << "\n"; } } ex->displayRecognitionError( tokenNames, errtext ); ImplTraits::displayRecognitionError( errtext.str() ); } template< class ImplTraits > Parser::~Parser() { if (this->get_rec() != NULL) { // This may have ben a delegate or delegator parser, in which case the // state may already have been freed (and set to NULL therefore) // so we ignore the state if we don't have it. // RecognizerSharedStateType* state = this->get_rec()->get_state(); if (state != NULL) { state->get_following().clear(); } } } template< class ImplTraits > void Parser::setDebugListener(DebugEventListenerType* dbg) { // Set the debug listener. There are no methods to override // because currently the only ones that notify the debugger // are error reporting and recovery. Hence we can afford to // check and see if the debugger interface is null or not // there. If there is ever an occasion for a performance // sensitive function to use the debugger interface, then // a replacement function for debug mode should be supplied // and installed here. // this->get_rec()->set_debugger(dbg); // If there was a tokenstream installed already // then we need to tell it about the debug interface // if (this->get_tstream() != NULL) { this->get_tstream()->setDebugListener(dbg); } } template< class ImplTraits > ANTLR_INLINE void Parser::setTokenStream(TokenStreamType* tstream) { m_tstream = tstream; this->get_rec()->reset(); } template< class ImplTraits > ANTLR_INLINE typename Parser::TokenStreamType* Parser::getTokenStream() { return m_tstream; } template< class ImplTraits > ANTLR_INLINE typename Parser::RecognizerType* Parser::get_rec() { return this; } template< class ImplTraits > ANTLR_INLINE void Parser::exConstruct() { new ANTLR_Exception( this->get_rec(), "" ); } template< class ImplTraits > typename Parser::TokenType* Parser::getMissingSymbol( IntStreamType* istream, ExceptionBaseType*, ANTLR_UINT32 expectedTokenType, BitsetListType* ) { TokenStreamType* cts; CommonTokenType* token; const CommonTokenType* current; StringType text; // Dereference the standard pointers // cts = static_cast(istream); // Work out what to use as the current symbol to make a line and offset etc // If we are at EOF, we use the token before EOF // current = cts->_LT(1); if (current->get_type() == CommonTokenType::TOKEN_EOF) { current = cts->_LT(-1); } token = new CommonTokenType; // Set some of the token properties based on the current token // token->set_line(current->get_line()); token->set_charPositionInLine( current->get_charPositionInLine()); token->set_channel( TOKEN_DEFAULT_CHANNEL ); token->set_type(expectedTokenType); token->set_lineStart( current->get_lineStart() ); // Create the token text that shows it has been inserted // token->setText("getText(); if (!text.empty()) { text.append((const char *) this->get_rec()->get_state()->get_tokenName(expectedTokenType) ); text.append(">"); } // Finally return the pointer to our new token // return token; } template< class ImplTraits > void Parser::mismatch(ANTLR_UINT32 ttype, BitsetListType* follow) { // Install a mismatched token exception in the exception stack // new ANTLR_Exception(this, ""); //With the statement below, only the parsers are allowed to compile fine IntStreamType* is = this->get_istream(); if (this->mismatchIsUnwantedToken(is, ttype)) { // Now update it to indicate this is an unwanted token exception // new ANTLR_Exception(this, ""); return; } if ( this->mismatchIsMissingToken(is, follow)) { // Now update it to indicate this is an unwanted token exception // new ANTLR_Exception(this, ""); return; } // Just a mismatched token is all we can dtermine // new ANTLR_Exception(this, ""); return; } template< class ImplTraits> ANTLR_INLINE const typename Parser::RecognizerType* Parser::get_recognizer() const { return this; } template< class ImplTraits> ANTLR_INLINE typename Parser::RecognizerSharedStateType* Parser::get_psrstate() const { return this->get_recognizer()->get_state(); } template< class ImplTraits> ANTLR_INLINE void Parser::set_psrstate(RecognizerSharedStateType* state) { this->get_rec()->set_state( state ); } template< class ImplTraits> ANTLR_INLINE bool Parser::haveParsedRule(ANTLR_MARKER ruleIndex) { return this->get_rec()->alreadyParsedRule(ruleIndex); } template< class ImplTraits> ANTLR_INLINE void Parser::memoize(ANTLR_MARKER ruleIndex, ANTLR_MARKER ruleParseStart) { return this->get_rec()->memoize( ruleIndex, ruleParseStart ); } template< class ImplTraits> ANTLR_INLINE ANTLR_MARKER Parser::index() const { return this->get_istream()->index(); } template< class ImplTraits> ANTLR_INLINE bool Parser::hasException() const { return this->get_psrstate()->get_error(); } template< class ImplTraits> ANTLR_INLINE typename Parser::ExceptionBaseType* Parser::get_exception() const { return this->get_psrstate()->get_exception(); } template< class ImplTraits> ANTLR_INLINE const typename Parser::CommonTokenType* Parser::matchToken( ANTLR_UINT32 ttype, BitsetListType* follow ) { return this->get_rec()->match( ttype, follow ); } template< class ImplTraits> ANTLR_INLINE void Parser::matchAnyToken() { return this->get_rec()->matchAny(); } template< class ImplTraits> ANTLR_INLINE const typename Parser::FollowingType& Parser::get_follow_stack() const { return this->get_psrstate()->get_following(); } template< class ImplTraits> ANTLR_INLINE void Parser::followPush(const BitsetListType& follow) { #ifndef SKIP_FOLLOW_SETS this->get_rec()->get_state()->get_following().push(follow); #endif } template< class ImplTraits> ANTLR_INLINE void Parser::followPop() { #ifndef SKIP_FOLLOW_SETS this->get_rec()->get_state()->get_following().pop(); #endif } template< class ImplTraits> ANTLR_INLINE void Parser::precover() { return this->get_rec()->recover(); } template< class ImplTraits> ANTLR_INLINE void Parser::preporterror() { return this->get_rec()->reportError(); } template< class ImplTraits> ANTLR_INLINE ANTLR_UINT32 Parser::LA(ANTLR_INT32 i) { return this->get_istream()->_LA(i); } template< class ImplTraits> ANTLR_INLINE const typename Parser::CommonTokenType* Parser::LT(ANTLR_INT32 k) { return this->get_input()->_LT(k); } template< class ImplTraits> ANTLR_INLINE void Parser::constructEx() { this->get_rec()->constructEx(); } template< class ImplTraits> ANTLR_INLINE void Parser::consume() { this->get_istream()->consume(); } template< class ImplTraits> ANTLR_INLINE ANTLR_MARKER Parser::mark() { return this->get_istream()->mark(); } template< class ImplTraits> ANTLR_INLINE void Parser::rewind(ANTLR_MARKER marker) { this->get_istream()->rewind(marker); } template< class ImplTraits> ANTLR_INLINE void Parser::rewindLast() { this->get_istream()->rewindLast(); } template< class ImplTraits> ANTLR_INLINE void Parser::seek(ANTLR_MARKER index) { this->get_istream()->seek(index); } template< class ImplTraits> ANTLR_INLINE bool Parser::get_perror_recovery() const { return this->get_psrstate()->get_errorRecovery(); } template< class ImplTraits> ANTLR_INLINE void Parser::set_perror_recovery( bool val ) { this->get_psrstate()->set_errorRecovery(val); } template< class ImplTraits> ANTLR_INLINE bool Parser::hasFailed() const { return this->get_psrstate()->get_failed(); } template< class ImplTraits> ANTLR_INLINE bool Parser::get_failedflag() const { return this->get_psrstate()->get_failed(); } template< class ImplTraits> ANTLR_INLINE void Parser::set_failedflag( bool failed ) { this->get_psrstate()->set_failed(failed); } template< class ImplTraits> ANTLR_INLINE ANTLR_INT32 Parser::get_backtracking() const { return this->get_psrstate()->get_backtracking(); } template< class ImplTraits> ANTLR_INLINE void Parser::inc_backtracking() { this->get_psrstate()->inc_backtracking(); } template< class ImplTraits> ANTLR_INLINE void Parser::dec_backtracking() { this->get_psrstate()->dec_backtracking(); } template< class ImplTraits> ANTLR_INLINE typename Parser::CommonTokenType* Parser::recoverFromMismatchedSet(BitsetListType* follow) { return this->get_rec()->recoverFromMismatchedSet(follow); } template< class ImplTraits> ANTLR_INLINE bool Parser::recoverFromMismatchedElement(BitsetListType* follow) { return this->get_rec()->recoverFromMismatchedElement(follow); } template< class ImplTraits> ANTLR_INLINE typename Parser::RuleMemoType* Parser::getRuleMemo() const { return this->get_psrstate()->get_ruleMemo(); } template< class ImplTraits> ANTLR_INLINE void Parser::setRuleMemo(RuleMemoType* rulememo) { this->get_psrstate()->set_ruleMemo(rulememo); } template< class ImplTraits> ANTLR_INLINE typename Parser::DebuggerType* Parser::get_debugger() const { return this->get_rec()->get_debugger(); } template< class ImplTraits> ANTLR_INLINE typename Parser::TokenStreamType* Parser::get_strstream() const { return this->get_tstream(); } template< class ImplTraits> ANTLR_INLINE RuleReturnValue::RuleReturnValue(BaseParserType* psr) { parser = psr; start = NULL; stop = NULL; } template< class ImplTraits> ANTLR_INLINE RuleReturnValue::RuleReturnValue( const RuleReturnValue& val ) { parser = val.parser; start = val.start; stop = val.stop; } template< class ImplTraits> ANTLR_INLINE RuleReturnValue& RuleReturnValue::operator=( const RuleReturnValue& val ) { parser = val.parser; start = val.start; stop = val.stop; return *this; } template< class ImplTraits> ANTLR_INLINE RuleReturnValue::~RuleReturnValue() { } template< class ImplTraits> ANTLR_INLINE void RuleReturnValue::call_start_placeholder() { start = parser->LT(1); stop = start; } template< class ImplTraits> ANTLR_INLINE void RuleReturnValue::call_stop_placeholder() { stop = parser->LT(-1); } template< class ImplTraits> ANTLR_INLINE RuleReturnValue_1::RuleReturnValue_1() { } template< class ImplTraits> RuleReturnValue_1::RuleReturnValue_1( BaseParserType* psr ) :RuleReturnValue_1::BaseType(psr) { BaseType::start = psr->LT(1); BaseType::stop = BaseType::start; } template< class ImplTraits> RuleReturnValue_1::RuleReturnValue_1( const RuleReturnValue_1& val ) :BaseType(val) { } template< class ImplTraits> void RuleReturnValue_1::call_start_placeholder() { } template< class ImplTraits> RuleReturnValue_1::~RuleReturnValue_1() { if( BaseType::parser && ( BaseType::parser->get_backtracking() == 0 ) ) { if( BaseType::stop == NULL ) BaseType::stop = BaseType::parser->LT(-1); if( BaseType::stop != NULL ) { ANTLR_MARKER start_token_idx = BaseType::start->get_index() + 1; ANTLR_MARKER stop_token_idx = BaseType::stop->get_index() - 1; if( start_token_idx > stop_token_idx ) return; BaseType::parser->getTokenStream()->discardTokens( start_token_idx, stop_token_idx); } } } ANTLR_END_NAMESPACE()