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I am using boost spirit and, in order to ease the testing of the multiple parser components, I would like to have a helper function like this one (which does not work)

namespace qi = boost::spirit::qi;
namespace tests {
 template <typename P, typename Attr>
 Attr parse(P const& p, const string& input)
  string::const_iterator f = input.begin();
  string::const_iterator l = input.end();
  Attr parsed;
  qi::phrase_parse(f, l, p, boost::spirit::ascii::space, parsed);
  return parsed;

and later to call it like this

 BOOST_CHECK_EQUAL(parse(qi::int_, "23" ), 23);

compiler error is something like this

 template<class P, class Attr> Attr tests::parse(const P&, const string&)
 template argument deduction/substitution failed:
 couldn't deduce template parameter ‘Attr’

One solution is to change function parse so that it returns the parsed value in a parameter by reference. But I wonder if there are other ways.

Perhaps P and Attr are related and I cannot find it in the documentation (because Attr is the type that the parser P returns) so that this could be a template of only one type?

Could I instead leave the definition as is, and change the call to

 BOOST_CHECK_EQUAL(parse<X,Y>(qi::int_, "23" ), 23);

but then, what is the type X?

share|improve this question
If it helps, the attribute type of any parser can be obtained with typename P::template attribute<Context, Iter>::type. But in your case, you could change parse to template<typename Attr, typename P> and only have to specify Attr, not P: BOOST_CHECK_EQUAL(parse<int>(qi::int_, "23" ), 23);. –  ildjarn Dec 12 '12 at 1:56

2 Answers 2

up vote 2 down vote accepted

You can use Hartmut Kaiser's attribute_of_qi_component metafunction from here. This internally uses what ildjarn suggested for individual parsers, and in addition to that, also works with expressions such as qi::int_ >> qi::lexeme[ qi::as_string[+qi::char_] ] below.

#define BOOST_TEST_MODULE attr_of_qi_parsers

#include <boost/test/included/unit_test.hpp>

#include <boost/spirit/include/qi.hpp>
#include <string>
#include <utility>
#include <boost/fusion/include/adapted.hpp>

namespace qi = boost::spirit::qi;

typedef std::pair<int,int> pair_type;
typedef boost::fusion::vector2<int,std::string> vector_int_string;

struct data
    data(int m1, int m2): member1(m1), member2(m2) {}

    int member1;
    int member2;

std::ostream& operator<<(std::ostream& os, const data& d)
    os << "{ 1st: " << d.member1 << ", 2nd: " << d.member2 << " }";
    return os;

bool operator==(const data& lhs, const data& rhs)
    return lhs.member1 == rhs.member1 && lhs.member2 == rhs.member2;

        (int, member1)
        (int, member2)

//BOOST_CHECK_EQUAL requires that the arguments have defined operator<<
//You can either use in the global namespace 

//or define operator<< in the namespace std. This is technically illegal but it works
//namespace std
//  std::ostream& operator<<(std::ostream& os, const std::pair<int,int>& p)
//  {
//      os << "<" << p.first << "," << p.second << ">";
//      return os;
//  }

namespace tests {

    template <typename Expr, typename Iterator = boost::spirit::unused_type>
    struct attribute_of_qi_component
        typedef typename boost::spirit::result_of::compile<
            qi::domain, Expr
        >::type parser_expression_type;

        typedef typename boost::spirit::traits::attribute_of<
            boost::spirit::unused_type, Iterator
        >::type type;

    template <typename P>
    typename attribute_of_qi_component<P>::type parse(P const& p, const std::string& input)
        std::string::const_iterator f = input.begin();
        std::string::const_iterator l = input.end();
        typename attribute_of_qi_component<P>::type parsed;
        qi::phrase_parse(f, l, p, boost::spirit::ascii::space, parsed);
        return parsed;

BOOST_AUTO_TEST_CASE(int_parser) {
    BOOST_CHECK_EQUAL(parse(qi::int_, "23" ), 23);

BOOST_AUTO_TEST_CASE(int_and_string_parser) {
    BOOST_CHECK_EQUAL(parse(qi::int_ >> qi::lexeme[ qi::as_string[+qi::char_] ], "23 is a number"), vector_int_string(23,"is a number"));

    qi::rule<std::string::const_iterator,pair_type(),boost::spirit::ascii::space_type> pair_rule = qi::int_ >> ',' >> qi::int_;
    BOOST_CHECK_EQUAL(parse(pair_rule,"1, 2"), std::make_pair(1,2));

    qi::rule<std::string::const_iterator,data(),boost::spirit::ascii::space_type> data_rule = qi::int_ >> ',' >> qi::int_;
    BOOST_CHECK_EQUAL(parse(data_rule,"2, 4"), data(2,4));

}//end of tests namespace
share|improve this answer

It's not always possible to compute a compatible attribute type from a parser because "Context" generally depends on the attribute type. You'll face less trouble if you stick to Spirit's continuation-style conventions. For example, see the test-harness in the documentation: http://www.boost.org/doc/libs/1_52_0/libs/spirit/doc/html/spirit/qi/reference/basics.html#spirit.qi.reference.basics.examples

You could integrate boost test like this:

template <typename P, typename F>
void parse(P const& p, const string& input, F f)
  qi::phrase_parse(input.begin(), input.end(), p[f], boost::spirit::ascii::space);

  parse(qi::int_, "23", [] (int x) { BOOST_CHECK_EQUAL( x, 23 ); } );
share|improve this answer

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