I am writing a simple scripting language. One of my language's commands, 'echo', should have the following syntax:

echo("Hello, world!);



In the first is a string literal. In the second is a named variable (it might represent some integer). From a boost::spirit programming perspective, they could both be considered std::string(s).

My spirit grammar looks a bit like this:

template <typename Iterator>
struct CommandParser : qi::grammar<Iterator, Function(), ascii::space_type>
    CommandParser() : CommandParser::base_type(start)
        using ascii::char_;
        using qi::lexeme;
        doubleQuotedString  %= lexeme['\"' >> +(char_ - '\"') >> '\"'];
        genericString       %= lexeme[+(char_("a-zA-Z_"))];

        // How to distinguish between quoted vs. unquoted strings?
        // Both a doubleQuotedString and a genericString will
        // be parsed and stored in a std::string
        echo %= string("echo")
             >> '(' 
             >> (doubleQuotedString | genericString)
             >> ')' >> ';';

        // Other stuff omitted for brevity
    qi::rule<Iterator, Function(), ascii::space_type> echo;

I am using boost fusion to adapt a struct named 'Function' containing a single std::string and a set of boost::any(s). I shan't give the struct but the way it is adapted should give an idea of its structure:

typedef boost::any Value;
(std::string, name)
(Value, paramA)
(Value, paramB)
(Value, paramC)
(Value, paramD)
(Value, paramE)
(Value, paramF)
(Value, paramG)

Therefore during parsing, the name 'echo' will be stored in the std::string 'name'. And the first boost::any value (i.e., paramA), will be interpreted as the type being parsed. Above, both 'doubleQuotedString' and 'genericString' are interpreted as strings so paramA becomes std::string("Hello, World!") for the quoted string and std::string("someVar") for the unquoted generic string.

So the crux of my quandary is: How can I distinguish between these two subtley different types? In the former, yes, I do definitely want a string. But in the latter 'someVar', which represents a variable, is subtly different.

  • 2
    I think you should wrap both strings in different types (which encapsulate a string) one will be a "symbol" and one will be a "literal string" – Giulio Franco Mar 11 '15 at 9:37
  • Thanks, but how do I then programmatically determine which std::string is a "literal string" and which one is a "symbol"? – Ben J Mar 11 '15 at 9:41
  • you replace (std::string, name) with (literal_string, literalName), (symbol, symbolName) – Giulio Franco Mar 11 '15 at 10:28
  • Yes but then at runtime, how does the parser know that one should be a 'literal_string' string and one should be a 'symbol' string. In the above code fragment, both doubleQuotedString and genericString are interpreted as string literals. – Ben J Mar 11 '15 at 10:31
  • Alright, so I managed to figure out what I was doing wrong and have fixed it and it now works. Thanks Giulio! – Ben J Mar 11 '15 at 11:01

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