/*============================================================================= Copyright (c) 2001-2011 Joel de Guzman 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) ==============================================================================*/ #if !defined(BOOST_SPIRIT_SYMBOLS_MARCH_11_2007_1055AM) #define BOOST_SPIRIT_SYMBOLS_MARCH_11_2007_1055AM #if defined(_MSC_VER) #pragma once #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #if defined(BOOST_MSVC) # pragma warning(push) # pragma warning(disable: 4355) // 'this' : used in base member initializer list warning #endif namespace boost { namespace spirit { namespace qi { template < typename Char = char , typename T = unused_type , typename Lookup = tst , typename Filter = tst_pass_through> struct symbols : proto::extends< typename proto::terminal< reference > >::type , symbols > , primitive_parser > { typedef Char char_type; // the character type typedef T value_type; // the value associated with each entry typedef symbols this_type; typedef reference reference_; typedef typename proto::terminal::type terminal; typedef proto::extends base_type; template struct attribute { typedef value_type type; }; symbols(std::string const& name = "symbols") : base_type(terminal::make(reference_(*this))) , add(*this) , remove(*this) , lookup(new Lookup()) , name_(name) { } symbols(symbols const& syms) : base_type(terminal::make(reference_(*this))) , add(*this) , remove(*this) , lookup(syms.lookup) , name_(syms.name_) { } template symbols(symbols const& syms) : base_type(terminal::make(reference_(*this))) , add(*this) , remove(*this) , lookup(syms.lookup) , name_(syms.name_) { } template symbols(Symbols const& syms, std::string const& name = "symbols") : base_type(terminal::make(reference_(*this))) , add(*this) , remove(*this) , lookup(new Lookup()) , name_(name) { typename range_const_iterator::type si = boost::begin(syms); while (si != boost::end(syms)) add(*si++); } template symbols(Symbols const& syms, Data const& data , std::string const& name = "symbols") : base_type(terminal::make(reference_(*this))) , add(*this) , remove(*this) , lookup(new Lookup()) , name_(name) { typename range_const_iterator::type si = boost::begin(syms); typename range_const_iterator::type di = boost::begin(data); while (si != boost::end(syms)) add(*si++, *di++); } symbols& operator=(symbols const& rhs) { name_ = rhs.name_; *lookup = *rhs.lookup; return *this; } template symbols& operator=(symbols const& rhs) { name_ = rhs.name_; *lookup = *rhs.lookup; return *this; } void clear() { lookup->clear(); } struct adder; struct remover; template adder const& operator=(Str const& str) { lookup->clear(); return add(str); } template friend adder const& operator+=(symbols& sym, Str const& str) { return sym.add(str); } template friend remover const& operator-=(symbols& sym, Str const& str) { return sym.remove(str); } #if defined(BOOST_NO_RVALUE_REFERENCES) // non-const version needed to suppress proto's += kicking in template friend adder const& operator+=(symbols& sym, Str& str) { return sym.add(str); } // non-const version needed to suppress proto's -= kicking in template friend remover const& operator-=(symbols& sym, Str& str) { return sym.remove(str); } #else // for rvalue references template friend adder const& operator+=(symbols& sym, Str&& str) { return sym.add(str); } // for rvalue references template friend remover const& operator-=(symbols& sym, Str&& str) { return sym.remove(str); } #endif template void for_each(F f) const { lookup->for_each(f); } template value_type& at(Str const& str) { return *lookup->add(traits::get_begin(str) , traits::get_end(str), T()); } template value_type* prefix_find(Iterator& first, Iterator const& last) { return lookup->find(first, last, Filter()); } template value_type const* prefix_find(Iterator& first, Iterator const& last) const { return lookup->find(first, last, Filter()); } template value_type* find(Str const& str) { return find_impl(traits::get_begin(str) , traits::get_end(str)); } template value_type const* find(Str const& str) const { return find_impl(traits::get_begin(str) , traits::get_end(str)); } private: template value_type* find_impl(Iterator begin, Iterator end) { value_type* r = lookup->find(begin, end, Filter()); return begin == end ? r : 0; } template value_type const* find_impl(Iterator begin, Iterator end) const { value_type const* r = lookup->find(begin, end, Filter()); return begin == end ? r : 0; } public: template bool parse(Iterator& first, Iterator const& last , Context& /*context*/, Skipper const& skipper, Attribute& attr) const { qi::skip_over(first, last, skipper); if (value_type* val_ptr = lookup->find(first, last, Filter())) { spirit::traits::assign_to(*val_ptr, attr); return true; } return false; } template info what(Context& /*context*/) const { return info(name_); } void name(std::string const &str) { name_ = str; } std::string const &name() const { return name_; } struct adder { template struct result { typedef adder const& type; }; adder(symbols& sym) : sym(sym) { } template adder const& operator()(Iterator const& first, Iterator const& last, T const& val) const { sym.lookup->add(first, last, val); return *this; } template adder const& operator()(Str const& s, T const& val = T()) const { sym.lookup->add(traits::get_begin(s) , traits::get_end(s), val); return *this; } template adder const& operator,(Str const& s) const { sym.lookup->add(traits::get_begin(s) , traits::get_end(s), T()); return *this; } symbols& sym; private: // silence MSVC warning C4512: assignment operator could not be generated adder& operator= (adder const&); }; struct remover { template struct result { typedef remover const& type; }; remover(symbols& sym) : sym(sym) { } template remover const& operator()(Iterator const& first, Iterator const& last) const { sym.lookup->remove(first, last); return *this; } template remover const& operator()(Str const& s) const { sym.lookup->remove(traits::get_begin(s) , traits::get_end(s)); return *this; } template remover const& operator,(Str const& s) const { sym.lookup->remove(traits::get_begin(s) , traits::get_end(s)); return *this; } symbols& sym; private: // silence MSVC warning C4512: assignment operator could not be generated remover& operator= (remover const&); }; adder add; remover remove; shared_ptr lookup; std::string name_; }; /////////////////////////////////////////////////////////////////////////// // Parser generators: make_xxx function (objects) /////////////////////////////////////////////////////////////////////////// template struct make_primitive >, Modifiers> { template struct no_case_filter { Char operator()(Char ch) const { return static_cast(CharEncoding::tolower(ch)); } }; typedef has_modifier > no_case; typedef reference > reference_; typedef no_case_filter< typename spirit::detail::get_encoding_with_case< Modifiers , char_encoding::standard , no_case::value>::type> nc_filter; typedef typename mpl::if_< no_case , symbols , reference_>::type result_type; result_type operator()(reference_ ref, unused_type) const { return result_type(ref.ref.get()); } }; }}} namespace boost { namespace spirit { namespace traits { /////////////////////////////////////////////////////////////////////////// template struct handles_container, Attr, Context, Iterator> : traits::is_container {}; }}} #if defined(BOOST_MSVC) # pragma warning(pop) #endif #endif