Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Sorry if this is a newbie question, but I need to know which token definition produced a certain token. When I print the token ID, I just get an integer. I need to know which regex generated this token.

Edit:

Here's how I define my tokens:

   template <typename LexerT>
   class Tokens: public lex::lexer<LexerT>
   {
      public:
         Tokens(const std::string& input):
            lineNo_(1)
         {
            using boost::spirit::lex::_start;
            using boost::spirit::lex::_end;
            using boost::spirit::lex::_pass;
            using boost::phoenix::ref;
            using boost::phoenix::construct;

            // macros
            this->self.add_pattern
               ("EXP",     "(e|E)(\\+|-)?\\d+")
               ("SUFFIX",  "[yzafpnumkKMGTPEZY]")
               ("INTEGER", "-?\\d+")
               ("FLOAT",    "-?(((\\d+)|(\\d*\\.\\d+)|(\\d+\\.\\d*))({EXP}|{SUFFIX})?)")
               ("SYMBOL",  "[a-zA-Z_?@](\\w|\\?|@)*")
               ("STRING",  "\\\"([^\\\"]|\\\\\\\")*\\\"");

            // whitespaces and comments
            whitespaces_ = "\\s+";
            comments_    = "(;[^\\n]*\\n)|(\\/\\*[^*]*\\*+([^/*][^*]*\\*+)*\\/)";

            // literals
            integer_ = "{INTEGER}";
            float_   = "{FLOAT}";
            symbol_  = "{SYMBOL}";
            string_  = "{STRING}";

            // operators
            quote_         = "'";
            backquote_     = '`';

            // ... other tokens

            // whitespace and comment rules
            this->self += whitespaces_ [ref(lineNo_) += count(_start, _end, '\n'), _pass = lex::pass_flags::pass_ignore];
            this->self += comments_    [ref(lineNo_) += count(_start, _end, '\n'), _pass = lex::pass_flags::pass_ignore];

            // literal rules
            this->self += integer_ | float_ | string_ | symbol_;
            // this->self += ... other tokens
         }

         ~Tokens() {}

         size_t lineNo() { return lineNo_; }


      private:
         // ignored tokens
         lex::token_def<lex::omit> whitespaces_, comments_;

         // literal tokens
         lex::token_def<int>          integer_;
         lex::token_def<std::string>  float_, symbol_, string_;

         // operator tokens
         lex::token_def<> quote_, backquote_;
         // ... other token definitions of type lex::token_def<>

         // current line number
         size_t lineNo_;
   };

Thanks, Haitham

share|improve this question
    
Simply look up the enum which your tokens are declared in. Or fire up GDB, set a breakpoint in your function expecting the token, and print the token by GDB; it will print its proper enum name. –  user529758 Jun 19 '12 at 18:06
    
Hi H2CO3, I'm not using an enum to define my tokens. Most of my tokens are kept on the template arguments default values (i.e. token_def<>). The default Idtype in my version of spirit is std::size_t. Do you mean to change Idtype in my token definitions to use some enum rather than the default? –  Haitham Gad Jun 19 '12 at 18:33
    
If you don't use enums, how are they defined? You should show some code in your question. –  user529758 Jun 19 '12 at 18:44
    
I added my code for token definitions. –  Haitham Gad Jun 19 '12 at 19:06
    
Thank. I suspect token ID = index of pattern; so 0 = EXP, 2 = integer, etc. –  user529758 Jun 19 '12 at 19:09
show 1 more comment

1 Answer

up vote 2 down vote accepted

From the docs http://www.boost.org/doc/libs/1_49_0/libs/spirit/doc/html/spirit/lex/tutorials/lexer_quickstart2.html:

To ensure every token gets assigned a id the Spirit.Lex library internally assigns unique numbers to the token definitions, starting with the constant defined by boost::spirit::lex::min_token_id

So you can in fact get the token id incrementally assigned. However, to make things a little bit more friendly/robust, I'd suggest makeing a helper function to determine the name of the token, so you can do something like this:

while (iter != end && token_is_valid(*iter))
{
    std::cout << "Token: " << 
       (iter->id() - lex::min_token_id) << ": " << 
       toklexer.nameof(iter) << " ('" << iter->value() << "')\n";
    ++iter;
}
if (iter == end) { std::cout << "lineNo: " << toklexer.lineNo() << "\n"; }

Which, for input like:

const std::string str = "symbol \"string\" \n"
    "this /* is a comment */\n"
    "31415926E-7 123";

Would print:

Token: 5: symbol_ ('symbol')
Token: 4: string_ ('"string"')
Token: 5: symbol_ ('this')
Token: 3: float_ ('31415926E-7')
Token: 2: integer_ ('123')
lineNo: 3

Notes

  • I don't think it is possible to identify down to the pattern expression, since the information is not exposed and no longer available once the token is returned by the lexer
  • I think I remember seeing tokens with debug info (similar to qi::rule<>::name()?) but I can't currently find the documentation for it. The implementation of the Tokens::nameof(It) function would be greatly simplified if you could reuse the debug-name.

CODE

Fully working demo code (slightly adapted to Boost 1_49, GCC -std=c++0x):

#define BOOST_RESULT_OF_USE_DECLTYPE
#define BOOST_SPIRIT_USE_PHOENIX_V3
#include <boost/spirit/include/qi.hpp>
#include <boost/spirit/include/phoenix.hpp>
#include <boost/spirit/include/lex_lexertl.hpp>
#include <boost/phoenix/function/adapt_callable.hpp>

namespace qi  = boost::spirit::qi;
namespace lex = boost::spirit::lex;
namespace phx = boost::phoenix;

///////////////////////////////////////////////////////////////////////////
// irrelevant for question: needed this locally to make it work with my boost
// version
namespace detail {
    struct count {
        template<class It1, class It2, class T> struct result { typedef ptrdiff_t type; };
        template<class It1, class It2, class T>
            typename result<It1, It2, T>::type operator()(It1 f, It2 l, T const& x) const {
                return std::count(f, l, x);
            }
    };
}

BOOST_PHOENIX_ADAPT_CALLABLE(count, detail::count, 3);
///////////////////////////////////////////////////////////////////////////

template <typename LexerT>
   class Tokens: public lex::lexer<LexerT>
   {

      public:
         Tokens():
            lineNo_(1)
         {
            using lex::_start;
            using lex::_end;
            using lex::_pass;
            using phx::ref;

            // macros
            this->self.add_pattern
               ("EXP",     "(e|E)(\\+|-)?\\d+")
               ("SUFFIX",  "[yzafpnumkKMGTPEZY]")
               ("INTEGER", "-?\\d+")
               ("FLOAT",    "-?(((\\d+)|(\\d*\\.\\d+)|(\\d+\\.\\d*))({EXP}|{SUFFIX})?)")
               ("SYMBOL",  "[a-zA-Z_?@](\\w|\\?|@)*")
               ("STRING",  "\\\"([^\\\"]|\\\\\\\")*\\\"");

            // whitespaces and comments
            whitespaces_ = "\\s+";
            comments_    = "(;[^\\n]*\\n)|(\\/\\*[^*]*\\*+([^/*][^*]*\\*+)*\\/)";

            // literals
            integer_ = "{INTEGER}";
            float_   = "{FLOAT}";
            symbol_  = "{SYMBOL}";
            string_  = "{STRING}";

            // operators
            quote_         = "'";
            backquote_     = '`';

            // ... other tokens

            // whitespace and comment rules
            //this->self.add(whitespaces_, 1001)
                          //(comments_,    1002);
            this->self = whitespaces_ [phx::ref(lineNo_) += count(_start, _end, '\n'), _pass = lex::pass_flags::pass_ignore]
                       | comments_    [phx::ref(lineNo_) += count(_start, _end, '\n'), _pass = lex::pass_flags::pass_ignore];

            // literal rules
            this->self += integer_ | float_ | string_ | symbol_;
            // this->self += ... other tokens
         }

         template <typename TokIter>
         std::string nameof(TokIter it)
         {
             if (it->id() == whitespaces_.id()) return "whitespaces_";
             if (it->id() == comments_.id())    return "comments_";
             if (it->id() == integer_.id())     return "integer_";
             if (it->id() == float_.id())       return "float_";
             if (it->id() == symbol_.id())      return "symbol_";
             if (it->id() == string_.id())      return "string_";

             if (it->id() == quote_.id())       return "quote_";
             if (it->id() == backquote_.id())   return "backquote_";
             return "other";
         }

         ~Tokens() {}

         size_t lineNo() { return lineNo_; }


      private:
         // ignored tokens
         lex::token_def</*lex::omit*/> whitespaces_, comments_;

         // literal tokens
         lex::token_def<int>          integer_;
         lex::token_def<std::string>  float_, symbol_, string_;

         // operator tokens
         lex::token_def<> quote_, backquote_;
         // ... other token definitions of type lex::token_def<>

         // current line number
         size_t lineNo_;
   };

int main()
{
    const std::string str = "symbol \"string\" \n"
        "this /* is a comment */\n"
        "31415926E-7 123";

    typedef lex::lexertl::token<char const*> token_type;
    typedef lex::lexertl::actor_lexer<token_type> lexer_type;

    Tokens<lexer_type> toklexer;

    char const* first = str.c_str();
    char const* last = &first[str.size()];

    lexer_type::iterator_type iter = toklexer.begin(first, last);
    lexer_type::iterator_type end = toklexer.end();

    while (iter != end && token_is_valid(*iter))
    {
        std::cout << "Token: " << 
           (iter->id() - lex::min_token_id) << ": " << 
           toklexer.nameof(iter) << " ('" << iter->value() << "')\n";
        ++iter;
    }

    if (iter == end) { std::cout << "lineNo: " << toklexer.lineNo() << "\n"; }
    else {
        std::string rest(first, last);
        std::cout << "Lexical analysis failed\n" << "stopped at: \""
            << rest << "\"\n";
    }
    return 0;
}
share|improve this answer
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.