/*=============================================================================
Copyright (c) 2001-2003 Joel de Guzman
Copyright (c) 2002-2003 Hartmut Kaiser
http://spirit.sourceforge.net/
Use, modification and distribution is subject to 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_PARSER_NAMES_IPP)
#define BOOST_SPIRIT_PARSER_NAMES_IPP
#if defined(BOOST_SPIRIT_DEBUG)
#include <string>
#include <iostream>
#include <map>
#include <boost/config.hpp>
#ifdef BOOST_NO_STRINGSTREAM
#include <strstream>
#define BOOST_SPIRIT_SSTREAM std::strstream
std::string BOOST_SPIRIT_GETSTRING(std::strstream& ss)
{
ss << ends;
std::string rval = ss.str();
ss.freeze(false);
return rval;
}
#else
#include <sstream>
#define BOOST_SPIRIT_GETSTRING(ss) ss.str()
#define BOOST_SPIRIT_SSTREAM std::stringstream
#endif
namespace boost { namespace spirit {
///////////////////////////////////////////////////////////////////////////////
// from actions.hpp
template <typename ParserT, typename ActionT>
inline std::string
parser_name(action<ParserT, ActionT> const& p)
{
return std::string("action")
+ std::string("[")
+ parser_name(p.subject())
+ std::string("]");
}
///////////////////////////////////////////////////////////////////////////////
// from directives.hpp
template <typename ParserT>
inline std::string
parser_name(contiguous<ParserT> const& p)
{
return std::string("contiguous")
+ std::string("[")
+ parser_name(p.subject())
+ std::string("]");
}
template <typename ParserT>
inline std::string
parser_name(inhibit_case<ParserT> const& p)
{
return std::string("inhibit_case")
+ std::string("[")
+ parser_name(p.subject())
+ std::string("]");
}
template <typename A, typename B>
inline std::string
parser_name(longest_alternative<A, B> const& p)
{
return std::string("longest_alternative")
+ std::string("[")
+ parser_name(p.left()) + std::string(", ") + parser_name(p.right())
+ std::string("]");
}
template <typename A, typename B>
inline std::string
parser_name(shortest_alternative<A, B> const& p)
{
return std::string("shortest_alternative")
+ std::string("[")
+ parser_name(p.left()) + std::string(", ") + parser_name(p.right())
+ std::string("]");
}
///////////////////////////////////////////////////////////////////////////////
// from numerics.hpp
template <typename T, int Radix, unsigned MinDigits, int MaxDigits>
inline std::string
parser_name(uint_parser<T, Radix, MinDigits, MaxDigits> const& p)
{
BOOST_SPIRIT_SSTREAM stream;
stream << Radix << ", " << MinDigits << ", " << MaxDigits;
return std::string("uint_parser<")
+ BOOST_SPIRIT_GETSTRING(stream)
+ std::string(">");
}
template <typename T, int Radix, unsigned MinDigits, int MaxDigits>
inline std::string
parser_name(int_parser<T, Radix, MinDigits, MaxDigits> const& p)
{
BOOST_SPIRIT_SSTREAM stream;
stream << Radix << ", " << MinDigits << ", " << MaxDigits;
return std::string("int_parser<")
+ BOOST_SPIRIT_GETSTRING(stream)
+ std::string(">");
}
template <typename T, typename RealPoliciesT>
inline std::string
parser_name(real_parser<T, RealPoliciesT> const& p)
{
return std::string("real_parser");
}
///////////////////////////////////////////////////////////////////////////////
// from operators.hpp
template <typename A, typename B>
inline std::string
parser_name(sequence<A, B> const& p)
{
return std::string("sequence")
+ std::string("[")
+ parser_name(p.left()) + std::string(", ") + parser_name(p.right())
+ std::string("]");
}
template <typename A, typename B>
inline std::string
parser_name(sequential_or<A, B> const& p)
{
return std::string("sequential_or")
+ std::string("[")
+ parser_name(p.left()) + std::string(", ") + parser_name(p.right())
+ std::string("]");
}
template <typename A, typename B>
inline std::string
parser_name(alternative<A, B> const& p)
{
return std::string("alternative")
+ std::string("[")
+ parser_name(p.left()) + std::string(", ") + parser_name(p.right())
+ std::string("]");
}
template <typename A, typename B>
inline std::string
parser_name(intersection<A, B> const& p)
{
return std::string("intersection")
+ std::string("[")
+ parser_name(p.left()) + std::string(", ") + parser_name(p.right())
+ std::string("]");
}
template <typename A, typename B>
inline std::string
parser_name(difference<A, B> const& p)
{
return std::string("difference")
+ std::string("[")
+ parser_name(p.left()) + std::string(", ") + parser_name(p.right())
+ std::string("]");
}
template <typename A, typename B>
inline std::string
parser_name(exclusive_or<A, B> const& p)
{
return std::string("exclusive_or")
+ std::string("[")
+ parser_name(p.left()) + std::string(", ") + parser_name(p.right())
+ std::string("]");
}
template <typename S>
inline std::string
parser_name(optional<S> const& p)
{
return std::string("optional")
+ std::string("[")
+ parser_name(p.subject())
+ std::string("]");
}
template <typename S>
inline std::string
parser_name(kleene_star<S> const& p)
{
return std::string("kleene_star")
+ std::string("[")
+ parser_name(p.subject())
+ std::string("]");
}
template <typename S>
inline std::string
parser_name(positive<S> const& p)
{
return std::string("positive")
+ std::string("[")
+ parser_name(p.subject())
+ std::string("]");
}
///////////////////////////////////////////////////////////////////////////////
// from parser.hpp
template <typename DerivedT>
inline std::string
parser_name(parser<DerivedT> const& p)
{
return std::string("parser");
}
///////////////////////////////////////////////////////////////////////////////
// from primitives.hpp
template <typename DerivedT>
inline std::string
parser_name(char_parser<DerivedT> const &p)
{
return std::string("char_parser");
}
template <typename CharT>
inline std::string
parser_name(chlit<CharT> const &p)
{
return std::string("chlit(\'")
+ std::string(1, p.ch)
+ std::string("\')");
}
template <typename CharT>
inline std::string
parser_name(range<CharT> const &p)
{
return std::string("range(")
+ std::string(1, p.first) + std::string(", ") + std::string(1, p.last)
+ std::string(")");
}
template <typename IteratorT>
inline std::string
parser_name(chseq<IteratorT> const &p)
{
return std::string("chseq(\"")
+ std::string(p.first, p.last)
+ std::string("\")");
}
template <typename IteratorT>
inline std::string
parser_name(strlit<IteratorT> const &p)
{
return std::string("strlit(\"")
+ std::string(p.seq.first, p.seq.last)
+ std::string("\")");
}
inline std::string
parser_name(nothing_parser const&)
{
return std::string("nothing");
}
inline std::string
parser_name(epsilon_parser const&)
{
return std::string("epsilon");
}
inline std::string
parser_name(anychar_parser const&)
{
return std::string("anychar");
}
inline std::string
parser_name(alnum_parser const&)
{
return std::string("alnum");
}
inline std::string
parser_name(alpha_parser const&)
{
return std::string("alpha");
}
inline std::string
parser_name(cntrl_parser const&)
{
return std::string("cntrl");
}
inline std::string
parser_name(digit_parser const&)
{
return std::string("digit");
}
inline std::string
parser_name(graph_parser const&)
{
return std::string("graph");
}
inline std::string
parser_name(lower_parser const&)
{
return std::string("lower");
}
inline std::string
parser_name(print_parser const&)
{
return std::string("print");
}
inline std::string
parser_name(punct_parser const&)
{
return std::string("punct");
}
inline std::string
parser_name(blank_parser const&)
{
return std::string("blank");
}
inline std::string
parser_name(space_parser const&)
{
return std::string("space");
}
inline std::string
parser_name(upper_parser const&)
{
return std::string("upper");
}
inline std::string
parser_name(xdigit_parser const&)
{
return std::string("xdigit");
}
inline std::string
parser_name(eol_parser const&)
{
return std::string("eol");
}
inline std::string
parser_name(end_parser const&)
{
return std::string("end");
}
///////////////////////////////////////////////////////////////////////////////
// from rule.hpp
namespace impl {
struct node_registry
{
typedef std::pair<std::string, bool> rule_info;
typedef std::map<void const *, rule_info> rule_infos;
std::string find_node(void const *r)
{
rule_infos::const_iterator cit = infos.find(r);
if (cit != infos.end())
return (*cit).second.first;
return std::string("<unknown>");
}
bool trace_node(void const *r)
{
rule_infos::const_iterator cit = infos.find(r);
if (cit != infos.end())
return (*cit).second.second;
return BOOST_SPIRIT_DEBUG_TRACENODE;
}
bool register_node(void const *r, char const *name_to_register,
bool trace_node)
{
if (infos.find(r) != infos.end())
return false;
return infos.insert(rule_infos::value_type(r,
rule_info(std::string(name_to_register), trace_node))
).second;
}
bool unregister_node(void const *r)
{
if (infos.find(r) == infos.end())
return false;
return (1 == infos.erase(r));
}
private:
rule_infos infos;
};
inline node_registry &
get_node_registry()
{
static node_registry node_infos;
return node_infos;
}
} // namespace impl
template<
typename DerivedT, typename EmbedT,
typename T0, typename T1, typename T2
>
inline std::string
parser_name(impl::rule_base<DerivedT, EmbedT, T0, T1, T2> const& p)
{
return std::string("rule_base")
+ std::string("(")
+ impl::get_node_registry().find_node(&p)
+ std::string(")");
}
template<typename T0, typename T1, typename T2>
inline std::string
parser_name(rule<T0, T1, T2> const& p)
{
return std::string("rule")
+ std::string("(")
+ impl::get_node_registry().find_node(&p)
+ std::string(")");
}
///////////////////////////////////////////////////////////////////////////////
// from subrule.hpp
template <typename FirstT, typename RestT>
inline std::string
parser_name(subrule_list<FirstT, RestT> const &p)
{
return std::string("subrule_list")
+ std::string("(")
+ impl::get_node_registry().find_node(&p)
+ std::string(")");
}
template <int ID, typename DefT, typename ContextT>
inline std::string
parser_name(subrule_parser<ID, DefT, ContextT> const &p)
{
return std::string("subrule_parser")
+ std::string("(")
+ impl::get_node_registry().find_node(&p)
+ std::string(")");
}
template <int ID, typename ContextT>
inline std::string
parser_name(subrule<ID, ContextT> const &p)
{
BOOST_SPIRIT_SSTREAM stream;
stream << ID;
return std::string("subrule<")
+ BOOST_SPIRIT_GETSTRING(stream)
+ std::string(">(")
+ impl::get_node_registry().find_node(&p)
+ std::string(")");
}
///////////////////////////////////////////////////////////////////////////////
// from grammar.hpp
template <typename DerivedT, typename ContextT>
inline std::string
parser_name(grammar<DerivedT, ContextT> const& p)
{
return std::string("grammar")
+ std::string("(")
+ impl::get_node_registry().find_node(&p)
+ std::string(")");
}
///////////////////////////////////////////////////////////////////////////////
// decide, if a node is to be traced or not
template<
typename DerivedT, typename EmbedT,
typename T0, typename T1, typename T2
>
inline bool
trace_parser(impl::rule_base<DerivedT, EmbedT, T0, T1, T2>
const& p)
{
return impl::get_node_registry().trace_node(&p);
}
template<typename T0, typename T1, typename T2>
inline bool
trace_parser(rule<T0, T1, T2> const& p)
{
return impl::get_node_registry().trace_node(&p);
}
template <typename DerivedT, typename ContextT>
inline bool
trace_parser(grammar<DerivedT, ContextT> const& p)
{
return impl::get_node_registry().trace_node(&p);
}
template <typename DerivedT, int N, typename ContextT>
inline bool
trace_parser(impl::entry_grammar<DerivedT, N, ContextT> const& p)
{
return impl::get_node_registry().trace_node(&p);
}
template <int ID, typename ContextT>
bool
trace_parser(subrule<ID, ContextT> const& p)
{
return impl::get_node_registry().trace_node(&p);
}
template <typename ParserT, typename ActorTupleT>
bool
trace_parser(init_closure_parser<ParserT, ActorTupleT> const& p)
{
return impl::get_node_registry().trace_node(&p);
}
///////////////////////////////////////////////////////////////////////////////
}} // namespace boost::spirit
#undef BOOST_SPIRIT_SSTREAM
#undef BOOST_SPIRIT_GETSTRING
#endif // defined(BOOST_SPIRIT_DEBUG)
#endif // !defined(BOOST_SPIRIT_PARSER_NAMES_IPP)