boost_1_45_0/libs/spirit/classic/example/fundamental/roman_numerals.cpp - nest-learning-thermostat/5.1.5/boost - Git at Google

 /*=============================================================================
     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)
 =============================================================================*/
 ///////////////////////////////////////////////////////////////////////////////
 //
 //  A Roman Numerals Parser (demonstrating the symbol table). This is
 //  discussed in the "Symbols" chapter in the Spirit User's Guide.
 //
 //  [ JDG 8/22/2002 ]
 //
 ///////////////////////////////////////////////////////////////////////////////
 #include <boost/spirit/include/classic_core.hpp>
 #include <boost/spirit/include/classic_symbols.hpp>
 #include <iostream>
 #include <string>

 ///////////////////////////////////////////////////////////////////////////////
 using namespace std;
 using namespace BOOST_SPIRIT_CLASSIC_NS;

 ///////////////////////////////////////////////////////////////////////////////
 //
 //  Parse roman hundreds (100..900) numerals using the symbol table.
 //  Notice that the data associated with each slot is passed
 //  to attached semantic actions.
 //
 ///////////////////////////////////////////////////////////////////////////////
 struct hundreds : symbols<unsigned>
 {
     hundreds()
     {
         add
             ("C"    , 100)
             ("CC"   , 200)
             ("CCC"  , 300)
             ("CD"   , 400)
             ("D"    , 500)
             ("DC"   , 600)
             ("DCC"  , 700)
             ("DCCC" , 800)
             ("CM"   , 900)
         ;
     }

 } hundreds_p;

 ///////////////////////////////////////////////////////////////////////////////
 //
 //  Parse roman tens (10..90) numerals using the symbol table.
 //
 ///////////////////////////////////////////////////////////////////////////////
 struct tens : symbols<unsigned>
 {
     tens()
     {
         add
             ("X"    , 10)
             ("XX"   , 20)
             ("XXX"  , 30)
             ("XL"   , 40)
             ("L"    , 50)
             ("LX"   , 60)
             ("LXX"  , 70)
             ("LXXX" , 80)
             ("XC"   , 90)
         ;
     }

 } tens_p;

 ///////////////////////////////////////////////////////////////////////////////
 //
 //  Parse roman ones (1..9) numerals using the symbol table.
 //
 ///////////////////////////////////////////////////////////////////////////////
 struct ones : symbols<unsigned>
 {
     ones()
     {
         add
             ("I"    , 1)
             ("II"   , 2)
             ("III"  , 3)
             ("IV"   , 4)
             ("V"    , 5)
             ("VI"   , 6)
             ("VII"  , 7)
             ("VIII" , 8)
             ("IX"   , 9)
         ;
     }

 } ones_p;

 ///////////////////////////////////////////////////////////////////////////////
 //
 //  Semantic actions
 //
 ///////////////////////////////////////////////////////////////////////////////
 struct add_1000
 {
     add_1000(unsigned& r_) : r(r_) {}
     void operator()(char) const { r += 1000; }
     unsigned& r;
 };

 struct add_roman
 {
     add_roman(unsigned& r_) : r(r_) {}
     void operator()(unsigned n) const { r += n; }
     unsigned& r;
 };

 ///////////////////////////////////////////////////////////////////////////////
 //
 //  roman (numerals) grammar
 //
 ///////////////////////////////////////////////////////////////////////////////
 struct roman : public grammar<roman>
 {
     template <typename ScannerT>
     struct definition
     {
         definition(roman const& self)
         {
             first
                 =   +ch_p('M')  [add_1000(self.r)]
                 ||  hundreds_p  [add_roman(self.r)]
                 ||  tens_p      [add_roman(self.r)]
                 ||  ones_p      [add_roman(self.r)];

             //  Note the use of the || operator. The expression
             //  a || b reads match a or b and in sequence. Try
             //  defining the roman numerals grammar in YACC or
             //  PCCTS. Spirit rules! :-)
         }

         rule<ScannerT> first;
         rule<ScannerT> const&
         start() const { return first; }
     };

     roman(unsigned& r_) : r(r_) {}
     unsigned& r;
 };

 ///////////////////////////////////////////////////////////////////////////////
 //
 //  Main driver code
 //
 ///////////////////////////////////////////////////////////////////////////////
 int
 main()
 {
     cout << "/////////////////////////////////////////////////////////\n\n";
     cout << "\t\tRoman Numerals Parser\n\n";
     cout << "/////////////////////////////////////////////////////////\n\n";
     cout << "Type a Roman Numeral ...or [q or Q] to quit\n\n";

     //  Start grammar definition

     string str;
     while (getline(cin, str))
     {
         if (str.empty() || str[0] == 'q' || str[0] == 'Q')
             break;

         unsigned n = 0;
         roman roman_p(n);
         if (parse(str.c_str(), roman_p).full)
         {
             cout << "parsing succeeded\n";
             cout << "result = " << n << "\n\n";
         }
         else
         {
             cout << "parsing failed\n\n";
         }
     }

     cout << "Bye... :-) \n\n";

     return 0;
 }
	/*=============================================================================
	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)
	=============================================================================*/
	///////////////////////////////////////////////////////////////////////////////
	//
	// A Roman Numerals Parser (demonstrating the symbol table). This is
	// discussed in the "Symbols" chapter in the Spirit User's Guide.
	//
	// [ JDG 8/22/2002 ]
	//
	///////////////////////////////////////////////////////////////////////////////
	#include <boost/spirit/include/classic_core.hpp>
	#include <boost/spirit/include/classic_symbols.hpp>
	#include <iostream>
	#include <string>

	///////////////////////////////////////////////////////////////////////////////
	using namespace std;
	using namespace BOOST_SPIRIT_CLASSIC_NS;

	///////////////////////////////////////////////////////////////////////////////
	//
	// Parse roman hundreds (100..900) numerals using the symbol table.
	// Notice that the data associated with each slot is passed
	// to attached semantic actions.
	//
	///////////////////////////////////////////////////////////////////////////////
	struct hundreds : symbols<unsigned>
	{
	hundreds()
	{
	add
	("C" , 100)
	("CC" , 200)
	("CCC" , 300)
	("CD" , 400)
	("D" , 500)
	("DC" , 600)
	("DCC" , 700)
	("DCCC" , 800)
	("CM" , 900)
	;
	}

	} hundreds_p;

	///////////////////////////////////////////////////////////////////////////////
	//
	// Parse roman tens (10..90) numerals using the symbol table.
	//
	///////////////////////////////////////////////////////////////////////////////
	struct tens : symbols<unsigned>
	{
	tens()
	{
	add
	("X" , 10)
	("XX" , 20)
	("XXX" , 30)
	("XL" , 40)
	("L" , 50)
	("LX" , 60)
	("LXX" , 70)
	("LXXX" , 80)
	("XC" , 90)
	;
	}

	} tens_p;

	///////////////////////////////////////////////////////////////////////////////
	//
	// Parse roman ones (1..9) numerals using the symbol table.
	//
	///////////////////////////////////////////////////////////////////////////////
	struct ones : symbols<unsigned>
	{
	ones()
	{
	add
	("I" , 1)
	("II" , 2)
	("III" , 3)
	("IV" , 4)
	("V" , 5)
	("VI" , 6)
	("VII" , 7)
	("VIII" , 8)
	("IX" , 9)
	;
	}

	} ones_p;

	///////////////////////////////////////////////////////////////////////////////
	//
	// Semantic actions
	//
	///////////////////////////////////////////////////////////////////////////////
	struct add_1000
	{
	add_1000(unsigned& r_) : r(r_) {}
	void operator()(char) const { r += 1000; }
	unsigned& r;
	};

	struct add_roman
	{
	add_roman(unsigned& r_) : r(r_) {}
	void operator()(unsigned n) const { r += n; }
	unsigned& r;
	};

	///////////////////////////////////////////////////////////////////////////////
	//
	// roman (numerals) grammar
	//
	///////////////////////////////////////////////////////////////////////////////
	struct roman : public grammar<roman>
	{
	template <typename ScannerT>
	struct definition
	{
	definition(roman const& self)
	{
	first
	= +ch_p('M') [add_1000(self.r)]
	\|\| hundreds_p [add_roman(self.r)]
	\|\| tens_p [add_roman(self.r)]
	\|\| ones_p [add_roman(self.r)];

	// Note the use of the \|\| operator. The expression
	// a \|\| b reads match a or b and in sequence. Try
	// defining the roman numerals grammar in YACC or
	// PCCTS. Spirit rules! :-)
	}

	rule<ScannerT> first;
	rule<ScannerT> const&
	start() const { return first; }
	};

	roman(unsigned& r_) : r(r_) {}
	unsigned& r;
	};

	///////////////////////////////////////////////////////////////////////////////
	//
	// Main driver code
	//
	///////////////////////////////////////////////////////////////////////////////
	int
	main()
	{
	cout << "/////////////////////////////////////////////////////////\n\n";
	cout << "\t\tRoman Numerals Parser\n\n";
	cout << "/////////////////////////////////////////////////////////\n\n";
	cout << "Type a Roman Numeral ...or [q or Q] to quit\n\n";

	// Start grammar definition

	string str;
	while (getline(cin, str))
	{
	if (str.empty() \|\| str[0] == 'q' \|\| str[0] == 'Q')
	break;

	unsigned n = 0;
	roman roman_p(n);
	if (parse(str.c_str(), roman_p).full)
	{
	cout << "parsing succeeded\n";
	cout << "result = " << n << "\n\n";
	}
	else
	{
	cout << "parsing failed\n\n";
	}
	}

	cout << "Bye... :-) \n\n";

	return 0;
	}