libs/spirit/classic/example/fundamental/calc_plain.cpp
/*=============================================================================
Copyright (c) 2002-2003 Joel de Guzman
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)
=============================================================================*/
////////////////////////////////////////////////////////////////////////////
//
// Plain calculator example demostrating the grammar and semantic actions.
// This is discussed in the "Grammar" and "Semantic Actions" chapters in
// the Spirit User's Guide.
//
// [ JDG 5/10/2002 ]
//
////////////////////////////////////////////////////////////////////////////
#include <boost/spirit/include/classic_core.hpp>
#include <iostream>
#include <string>
////////////////////////////////////////////////////////////////////////////
using namespace std;
using namespace BOOST_SPIRIT_CLASSIC_NS;
////////////////////////////////////////////////////////////////////////////
//
// Semantic actions
//
////////////////////////////////////////////////////////////////////////////
namespace
{
void do_int(char const* str, char const* end)
{
string s(str, end);
cout << "PUSH(" << s << ')' << endl;
}
void do_add(char const*, char const*) { cout << "ADD\n"; }
void do_subt(char const*, char const*) { cout << "SUBTRACT\n"; }
void do_mult(char const*, char const*) { cout << "MULTIPLY\n"; }
void do_div(char const*, char const*) { cout << "DIVIDE\n"; }
void do_neg(char const*, char const*) { cout << "NEGATE\n"; }
}
////////////////////////////////////////////////////////////////////////////
//
// Our calculator grammar
//
////////////////////////////////////////////////////////////////////////////
struct calculator : public grammar<calculator>
{
template <typename ScannerT>
struct definition
{
definition(calculator const& /*self*/)
{
expression
= term
>> *( ('+' >> term)[&do_add]
| ('-' >> term)[&do_subt]
)
;
term
= factor
>> *( ('*' >> factor)[&do_mult]
| ('/' >> factor)[&do_div]
)
;
factor
= lexeme_d[(+digit_p)[&do_int]]
| '(' >> expression >> ')'
| ('-' >> factor)[&do_neg]
| ('+' >> factor)
;
}
rule<ScannerT> expression, term, factor;
rule<ScannerT> const&
start() const { return expression; }
};
};
////////////////////////////////////////////////////////////////////////////
//
// Main program
//
////////////////////////////////////////////////////////////////////////////
int
main()
{
cout << "/////////////////////////////////////////////////////////\n\n";
cout << "\t\tExpression parser...\n\n";
cout << "/////////////////////////////////////////////////////////\n\n";
cout << "Type an expression...or [q or Q] to quit\n\n";
calculator calc; // Our parser
string str;
while (getline(cin, str))
{
if (str.empty() || str[0] == 'q' || str[0] == 'Q')
break;
parse_info<> info = parse(str.c_str(), calc, space_p);
if (info.full)
{
cout << "-------------------------\n";
cout << "Parsing succeeded\n";
cout << "-------------------------\n";
}
else
{
cout << "-------------------------\n";
cout << "Parsing failed\n";
cout << "stopped at: \": " << info.stop << "\"\n";
cout << "-------------------------\n";
}
}
cout << "Bye... :-) \n\n";
return 0;
}
