6

I'm trying to parse a sequence of the syntax: < direction > < type > < name >. For example:

in float foo

where the direction can be either in, out, or in_out. I've succeeded in parsing correct text by using a qi::symbols class to convert the direction keywords to an enum.

However, the problem shows when I don't have correct text. Take the example:

int foo

The symbol table parser will except the 'in' part of the 'int' type and so the results will be:

direction: in
type: t
name: foo

And the error is not detected. What's the best way to be able to parse the in, out and in_out reserved words and ensure that they are followed by a non-identifier character so that the 'int' part of the previous text fails?

Thanks

5

In addition to the "manual" approach suggested by Mike you can

  1. use a convenience wrapper rule
  2. use the distinct parser direetive from the Spirit Repository

1. Use a convenience wrapper

I just remembered, I once came up with this quick and dirty helper:

static const qi::rule<It, qi::unused_type(const char*)> kw 
      = qi::lit(qi::_r1) >> !qi::alnum;

Which you could use like (using +"lit" to decay the array-ref into const char*):

stmt = 
         kw(+"if") >> '(' >> expr >> ')' >> block
     >> -(kw(+"else") >> block)
     ;

You can make it considerably more convenient

template <std::size_t N>
static auto kw(char const (&keyword)[N]) -> qi::rule<Iterator> {
    // qi::lit has problems with char arrays, use pointer instead.
    return qi::lit(+keyword) >> !qi::alnum;
}

So you can

kw_if   = kw("if");
kw_then = kw("then");
kw_else = kw("else");
kw_and  = kw("and");
kw_or   = kw("or");
kw_not  = kw("not");

2. Use the distinct directive from the Spirit Repository

In addition to the "manual" approach suggested by Mike you can use the distinct parser directive from the Spirit Repository:

int main()
{
    using namespace spirit_test;
    using namespace boost::spirit;

    {
        using namespace boost::spirit::ascii;

        qi::rule<char const*, space_type> r;
        r = distinct::keyword["description"] >> -lit(':') >> distinct::keyword["ident"];

        BOOST_TEST(test("description ident", r, space));
        BOOST_TEST(test("description:ident", r, space));
        BOOST_TEST(test("description: ident", r, space));
        BOOST_TEST(!test("descriptionident", r, space));
    }

    return boost::report_errors();
}
  • But I would rather use a symbol table to map the keywords to values (which I store as an enum in an AST). This method would require me to write action semantics on every check? Could I wrap distinct::keyword around a symbol table parser? – Cthutu Nov 22 '13 at 18:23
  • Of course! Have you, like, tried it? coliru.stacked-crooked.com/a/6956a8e9c18553d2 – sehe Nov 22 '13 at 20:53
  • And, just for fun, here's the kw() approach to the symbols parser: coliru.stacked-crooked.com/a/c949b4cd44f3c20e – sehe Nov 22 '13 at 21:21
  • Thanks for the comments - I'm busy with other stuff right now but I will test it out and get back to you! – Cthutu Nov 27 '13 at 19:54
3

You can use the and predicate or the not predicate parser, depending on what you would like to express. The predicate parsers just check the next symbols but don't consume them.

This says, you expect a blank (space or tab) afterwards:

rule = symbol_parser >> &qi::blank;

This says, you don't want to have a letter, number or underscore afterwards:

rule = symbol_parser >> !(qi::alnum | qi::lit("_"));
  • +1 and there are ways (in the Spirit code base) to automate that – sehe Nov 21 '13 at 22:16
  • Thanks for the reply! – Cthutu Nov 22 '13 at 18:20

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