/////////////////////////////////////////////////////////////////////////////// // sequence.hpp // // Copyright 2007 Eric Niebler. Distributed under the Boost // Software License, Version 1.0. (See accompanying file // LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) #ifndef BOOST_XPRESSIVE_DETAIL_DYNAMIC_SEQUENCE_HPP_EAN_04_10_2006 #define BOOST_XPRESSIVE_DETAIL_DYNAMIC_SEQUENCE_HPP_EAN_04_10_2006 // MS compatible compilers support #pragma once #if defined(_MSC_VER) && (_MSC_VER >= 1020) # pragma once #endif #include #include #include #include namespace boost { namespace xpressive { namespace detail { /////////////////////////////////////////////////////////////////////////////// // sequence template struct sequence { sequence() : pure_(true) , width_(0) , quant_(quant_none) , head_() , tail_(0) , alt_end_xpr_() , alternates_(0) { } template sequence(intrusive_ptr > const &xpr) : pure_(Matcher::pure) , width_(xpr->Matcher::get_width()) , quant_(static_cast(Matcher::quant)) , head_(xpr) , tail_(&xpr->next_) , alt_end_xpr_() , alternates_(0) { } template sequence(intrusive_ptr, Traits>, BidiIter> > const &xpr) : pure_(true) , width_(0) , quant_(quant_none) , head_(xpr) , tail_(&xpr->next_) , alt_end_xpr_() , alternates_(&xpr->alternates_) { } bool empty() const { return !this->head_; } sequence &operator +=(sequence const &that) { if(this->empty()) { *this = that; } else if(!that.empty()) { *this->tail_ = that.head_; this->tail_ = that.tail_; // keep track of sequence width and purity this->width_ += that.width_; this->pure_ = this->pure_ && that.pure_; this->set_quant_(); } return *this; } sequence &operator |=(sequence that) { BOOST_ASSERT(!this->empty()); BOOST_ASSERT(0 != this->alternates_); // Keep track of width and purity if(this->alternates_->empty()) { this->width_ = that.width_; this->pure_ = that.pure_; } else { this->width_ |= that.width_; this->pure_ = this->pure_ && that.pure_; } // through the wonders of reference counting, all alternates_ can share an end_alternate if(!this->alt_end_xpr_) { this->alt_end_xpr_ = new alt_end_xpr_type; } // terminate each alternate with an alternate_end_matcher that += sequence(this->alt_end_xpr_); this->alternates_->push_back(that.head_); this->set_quant_(); return *this; } void repeat(quant_spec const &spec) { this->xpr().matchable()->repeat(spec, *this); } shared_matchable const &xpr() const { return this->head_; } detail::width width() const { return this->width_; } bool pure() const { return this->pure_; } quant_enum quant() const { return this->quant_; } private: typedef dynamic_xpression alt_end_xpr_type; void set_quant_() { this->quant_ = (!is_unknown(this->width_) && this->pure_) ? (!this->width_ ? quant_none : quant_fixed_width) : quant_variable_width; } bool pure_; detail::width width_; quant_enum quant_; shared_matchable head_; shared_matchable *tail_; intrusive_ptr alt_end_xpr_; alternates_vector *alternates_; }; template inline sequence operator +(sequence left, sequence const &right) { return left += right; } template inline sequence operator |(sequence left, sequence const &right) { return left |= right; } }}} // namespace boost::xpressive::detail #endif