// input.hpp // Copyright (c) 2008-2009 Ben Hanson (http://www.benhanson.net/) // // Distributed under the Boost Software License, Version 1.0. (See accompanying // file licence_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) #ifndef BOOST_LEXER_INPUT #define BOOST_LEXER_INPUT #include "char_traits.hpp" #include #include "size_t.hpp" #include "state_machine.hpp" namespace boost { namespace lexer { template::value_type> > class basic_input { public: class iterator { public: #if defined _MSC_VER && _MSC_VER <= 1200 friend basic_input; #else friend class basic_input; #endif struct data { std::size_t id; std::size_t unique_id; FwdIter start; FwdIter end; bool bol; std::size_t state; // Construct in end() state. data () : id (0), unique_id (npos), bol (false), state (npos) { } bool operator == (const data &rhs_) const { return id == rhs_.id && unique_id == rhs_.unique_id && start == rhs_.start && end == rhs_.end && bol == rhs_.bol && state == rhs_.state; } }; iterator () : _input (0) { } bool operator == (const iterator &rhs_) const { return _data == rhs_._data; } bool operator != (const iterator &rhs_) const { return !(*this == rhs_); } data &operator * () { return _data; } data *operator -> () { return &_data; } // Let compiler generate operator = (). // prefix version iterator &operator ++ () { next_token (); return *this; } // postfix version iterator operator ++ (int) { iterator iter_ = *this; next_token (); return iter_; } private: // Not owner (obviously!) const basic_input *_input; data _data; void next_token () { const detail::internals &internals_ = _input->_state_machine->data (); _data.start = _data.end; if (internals_._dfa->size () == 1) { if (internals_._seen_BOL_assertion || internals_._seen_EOL_assertion) { _data.id = next (&internals_._lookup->front ()->front (), internals_._dfa_alphabet.front (), &internals_._dfa->front ()->front (), _data.bol, _data.end, _input->_end, _data.unique_id); } else { _data.id = next (&internals_._lookup->front ()->front (), internals_._dfa_alphabet.front (), &internals_. _dfa->front ()->front (), _data.end, _input->_end, _data.unique_id); } } else { if (internals_._seen_BOL_assertion || internals_._seen_EOL_assertion) { _data.id = next (internals_, _data.state, _data.bol, _data.end, _input->_end, _data.unique_id); } else { _data.id = next (internals_, _data.state, _data.end, _input->_end, _data.unique_id); } } if (_data.end == _input->_end && _data.start == _data.end) { // Ensure current state matches that returned by end(). _data.state = npos; } } std::size_t next (const detail::internals &internals_, std::size_t &start_state_, bool bol_, FwdIter &start_token_, const FwdIter &end_, std::size_t &unique_id_) { if (start_token_ == end_) { unique_id_ = npos; return 0; } again: const std::size_t * lookup_ = &internals_._lookup[start_state_]-> front (); std::size_t dfa_alphabet_ = internals_._dfa_alphabet[start_state_]; const std::size_t *dfa_ = &internals_._dfa[start_state_]->front (); const std::size_t *ptr_ = dfa_ + dfa_alphabet_; FwdIter curr_ = start_token_; bool end_state_ = *ptr_ != 0; std::size_t id_ = *(ptr_ + id_index); std::size_t uid_ = *(ptr_ + unique_id_index); std::size_t end_start_state_ = start_state_; bool end_bol_ = bol_; FwdIter end_token_ = start_token_; while (curr_ != end_) { const std::size_t BOL_state_ = ptr_[bol_index]; const std::size_t EOL_state_ = ptr_[eol_index]; if (BOL_state_ && bol_) { ptr_ = &dfa_[BOL_state_ * dfa_alphabet_]; } else if (EOL_state_ && *curr_ == '\n') { ptr_ = &dfa_[EOL_state_ * dfa_alphabet_]; } else { typename Traits::char_type prev_char_ = *curr_++; bol_ = prev_char_ == '\n'; const std::size_t state_ = ptr_[lookup_[static_cast (prev_char_)]]; if (state_ == 0) { break; } ptr_ = &dfa_[state_ * dfa_alphabet_]; } if (*ptr_) { end_state_ = true; id_ = *(ptr_ + id_index); uid_ = *(ptr_ + unique_id_index); end_start_state_ = *(ptr_ + state_index); end_bol_ = bol_; end_token_ = curr_; } } const std::size_t EOL_state_ = ptr_[eol_index]; if (EOL_state_ && curr_ == end_) { ptr_ = &dfa_[EOL_state_ * dfa_alphabet_]; if (*ptr_) { end_state_ = true; id_ = *(ptr_ + id_index); uid_ = *(ptr_ + unique_id_index); end_start_state_ = *(ptr_ + state_index); end_bol_ = bol_; end_token_ = curr_; } } if (end_state_) { // return longest match start_state_ = end_start_state_; start_token_ = end_token_; if (id_ == 0) { bol_ = end_bol_; goto again; } else { _data.bol = end_bol_; } } else { // No match causes char to be skipped _data.bol = *start_token_ == '\n'; ++start_token_; id_ = npos; uid_ = npos; } unique_id_ = uid_; return id_; } std::size_t next (const detail::internals &internals_, std::size_t &start_state_, FwdIter &start_token_, FwdIter const &end_, std::size_t &unique_id_) { if (start_token_ == end_) { unique_id_ = npos; return 0; } again: const std::size_t * lookup_ = &internals_._lookup[start_state_]-> front (); std::size_t dfa_alphabet_ = internals_._dfa_alphabet[start_state_]; const std::size_t *dfa_ = &internals_._dfa[start_state_]->front (); const std::size_t *ptr_ = dfa_ + dfa_alphabet_; FwdIter curr_ = start_token_; bool end_state_ = *ptr_ != 0; std::size_t id_ = *(ptr_ + id_index); std::size_t uid_ = *(ptr_ + unique_id_index); std::size_t end_start_state_ = start_state_; FwdIter end_token_ = start_token_; while (curr_ != end_) { const std::size_t state_ = ptr_[lookup_[static_cast (*curr_++)]]; if (state_ == 0) { break; } ptr_ = &dfa_[state_ * dfa_alphabet_]; if (*ptr_) { end_state_ = true; id_ = *(ptr_ + id_index); uid_ = *(ptr_ + unique_id_index); end_start_state_ = *(ptr_ + state_index); end_token_ = curr_; } } if (end_state_) { // return longest match start_state_ = end_start_state_; start_token_ = end_token_; if (id_ == 0) goto again; } else { // No match causes char to be skipped ++start_token_; id_ = npos; uid_ = npos; } unique_id_ = uid_; return id_; } std::size_t next (const std::size_t * const lookup_, const std::size_t dfa_alphabet_, const std::size_t * const dfa_, bool bol_, FwdIter &start_token_, FwdIter const &end_, std::size_t &unique_id_) { if (start_token_ == end_) { unique_id_ = npos; return 0; } const std::size_t *ptr_ = dfa_ + dfa_alphabet_; FwdIter curr_ = start_token_; bool end_state_ = *ptr_ != 0; std::size_t id_ = *(ptr_ + id_index); std::size_t uid_ = *(ptr_ + unique_id_index); bool end_bol_ = bol_; FwdIter end_token_ = start_token_; while (curr_ != end_) { const std::size_t BOL_state_ = ptr_[bol_index]; const std::size_t EOL_state_ = ptr_[eol_index]; if (BOL_state_ && bol_) { ptr_ = &dfa_[BOL_state_ * dfa_alphabet_]; } else if (EOL_state_ && *curr_ == '\n') { ptr_ = &dfa_[EOL_state_ * dfa_alphabet_]; } else { typename Traits::char_type prev_char_ = *curr_++; bol_ = prev_char_ == '\n'; const std::size_t state_ = ptr_[lookup_[static_cast (prev_char_)]]; if (state_ == 0) { break; } ptr_ = &dfa_[state_ * dfa_alphabet_]; } if (*ptr_) { end_state_ = true; id_ = *(ptr_ + id_index); uid_ = *(ptr_ + unique_id_index); end_bol_ = bol_; end_token_ = curr_; } } const std::size_t EOL_state_ = ptr_[eol_index]; if (EOL_state_ && curr_ == end_) { ptr_ = &dfa_[EOL_state_ * dfa_alphabet_]; if (*ptr_) { end_state_ = true; id_ = *(ptr_ + id_index); uid_ = *(ptr_ + unique_id_index); end_bol_ = bol_; end_token_ = curr_; } } if (end_state_) { // return longest match _data.bol = end_bol_; start_token_ = end_token_; } else { // No match causes char to be skipped _data.bol = *start_token_ == '\n'; ++start_token_; id_ = npos; uid_ = npos; } unique_id_ = uid_; return id_; } std::size_t next (const std::size_t * const lookup_, const std::size_t dfa_alphabet_, const std::size_t * const dfa_, FwdIter &start_token_, FwdIter const &end_, std::size_t &unique_id_) { if (start_token_ == end_) { unique_id_ = npos; return 0; } const std::size_t *ptr_ = dfa_ + dfa_alphabet_; FwdIter curr_ = start_token_; bool end_state_ = *ptr_ != 0; std::size_t id_ = *(ptr_ + id_index); std::size_t uid_ = *(ptr_ + unique_id_index); FwdIter end_token_ = start_token_; while (curr_ != end_) { const std::size_t state_ = ptr_[lookup_[static_cast (*curr_++)]]; if (state_ == 0) { break; } ptr_ = &dfa_[state_ * dfa_alphabet_]; if (*ptr_) { end_state_ = true; id_ = *(ptr_ + id_index); uid_ = *(ptr_ + unique_id_index); end_token_ = curr_; } } if (end_state_) { // return longest match start_token_ = end_token_; } else { // No match causes char to be skipped ++start_token_; id_ = npos; uid_ = npos; } unique_id_ = uid_; return id_; } }; #if defined _MSC_VER && _MSC_VER <= 1200 friend iterator; #else friend class iterator; #endif // Make it explict that we are NOT taking a copy of state_machine_! basic_input (const basic_state_machine *state_machine_, const FwdIter &begin_, const FwdIter &end_) : _state_machine (state_machine_), _begin (begin_), _end (end_) { } iterator begin () const { iterator iter_; iter_._input = this; // Over-ride default of 0 (EOI) iter_._data.id = npos; iter_._data.start = _begin; iter_._data.end = _begin; iter_._data.bol = _state_machine->data ()._seen_BOL_assertion; iter_._data.state = 0; ++iter_; return iter_; } iterator end () const { iterator iter_; iter_._input = this; iter_._data.start = _end; iter_._data.end = _end; return iter_; } private: const basic_state_machine *_state_machine; FwdIter _begin; FwdIter _end; }; typedef basic_input iter_input; typedef basic_input::iterator> iter_winput; typedef basic_input ptr_input; typedef basic_input ptr_winput; } } #endif