// Copyright (c) 2001-2011 Hartmut Kaiser // Copyright (c) 2001-2011 Joel de Guzman // Copyright (c) 2010 Bryce Lelbach // // Distributed under 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) #include #include #include #include #include #include #include "test.hpp" inline bool check(boost::spirit::utree const& val, std::string expected) { std::stringstream s; s << val; if (s.str() == expected + " ") return true; std::cerr << "got result: " << s.str() << ", expected: " << expected << std::endl; return false; } int main() { using spirit_test::test_attr; using boost::spirit::utree; using boost::spirit::utree_type; using boost::spirit::utf8_string_range_type; using boost::spirit::utf8_symbol_type; using boost::spirit::utf8_string_type; using boost::spirit::qi::real_parser; using boost::spirit::qi::strict_real_policies; using boost::spirit::qi::digit; using boost::spirit::qi::char_; using boost::spirit::qi::string; using boost::spirit::qi::int_; using boost::spirit::qi::double_; using boost::spirit::qi::space; using boost::spirit::qi::space_type; using boost::spirit::qi::rule; using boost::spirit::qi::as; using boost::spirit::qi::lexeme; // alternatives { typedef real_parser > strict_double_type; strict_double_type const strict_double = strict_double_type(); utree ut; BOOST_TEST(test_attr("10", strict_double | int_, ut) && ut.which() == utree_type::int_type && check(ut, "10")); ut.clear(); BOOST_TEST(test_attr("10.2", strict_double | int_, ut) && ut.which() == utree_type::double_type && check(ut, "10.2")); rule()> r1 = strict_double | int_; ut.clear(); BOOST_TEST(test_attr("10", r1, ut) && ut.which() == utree_type::int_type && check(ut, "10")); ut.clear(); BOOST_TEST(test_attr("10.2", r1, ut) && ut.which() == utree_type::double_type && check(ut, "10.2")); rule r2 = strict_double | int_; ut.clear(); BOOST_TEST(test_attr("10", r2, ut) && ut.which() == utree_type::int_type && check(ut, "10")); ut.clear(); BOOST_TEST(test_attr("10.2", r2, ut) && ut.which() == utree_type::double_type && check(ut, "10.2")); rule r3 = strict_double | int_; ut.clear(); BOOST_TEST(test_attr("10", r3, ut) && ut.which() == utree_type::list_type && check(ut, "( 10 )")); ut.clear(); BOOST_TEST(test_attr("10.2", r3, ut) && ut.which() == utree_type::list_type && check(ut, "( 10.2 )")); } // optionals { utree ut; BOOST_TEST(test_attr("x", -char_, ut)); BOOST_TEST(ut.which() == utree_type::string_type); BOOST_TEST(check(ut, "\"x\"")); ut.clear(); BOOST_TEST(test_attr("", -char_, ut)); BOOST_TEST(ut.which() == utree_type::invalid_type); BOOST_TEST(check(ut, "")); ut.clear(); BOOST_TEST(test_attr("1x", int_ >> -char_, ut)); BOOST_TEST(ut.which() == utree_type::list_type); BOOST_TEST(check(ut, "( 1 \"x\" )")); ut.clear(); BOOST_TEST(test_attr("1", int_ >> -char_, ut)); BOOST_TEST(ut.which() == utree_type::list_type); BOOST_TEST(check(ut, "( 1 )")); ut.clear(); BOOST_TEST(test_attr("1x", -int_ >> char_, ut)); BOOST_TEST(ut.which() == utree_type::list_type); BOOST_TEST(check(ut, "( 1 \"x\" )")); ut.clear(); BOOST_TEST(test_attr("x", -int_ >> char_, ut)); BOOST_TEST(ut.which() == utree_type::list_type); BOOST_TEST(check(ut, "( \"x\" )")); ut.clear(); rule r1 = int_ >> -char_; BOOST_TEST(test_attr("1x", r1, ut)); BOOST_TEST(ut.which() == utree_type::list_type); BOOST_TEST(check(ut, "( 1 \"x\" )")); ut.clear(); BOOST_TEST(test_attr("1", r1, ut)); BOOST_TEST(ut.which() == utree_type::list_type); BOOST_TEST(check(ut, "( 1 )")); ut.clear(); rule r2 = -int_ >> char_; BOOST_TEST(test_attr("1x", r2, ut)); BOOST_TEST(ut.which() == utree_type::list_type); BOOST_TEST(check(ut, "( 1 \"x\" )")); ut.clear(); BOOST_TEST(test_attr("x", r2, ut)); BOOST_TEST(ut.which() == utree_type::list_type); BOOST_TEST(check(ut, "( \"x\" )")); ut.clear(); rule r3 = int_; BOOST_TEST(test_attr("1", -r3, ut)); BOOST_TEST(ut.which() == utree_type::int_type); BOOST_TEST(check(ut, "1")); ut.clear(); BOOST_TEST(test_attr("", -r3, ut)); BOOST_TEST(ut.which() == utree_type::invalid_type); BOOST_TEST(check(ut, "")); ut.clear(); } // as_string { using boost::spirit::qi::as_string; utree ut; BOOST_TEST(test_attr("xy", as_string[char_ >> char_], ut) && ut.which() == utree_type::string_type && check(ut, "\"xy\"")); ut.clear(); BOOST_TEST(test_attr("ab1.2", as_string[*~digit] >> double_, ut) && ut.which() == utree_type::list_type && check(ut, "( \"ab\" 1.2 )")); ut.clear(); BOOST_TEST(test_attr("xy", as_string[*char_], ut) && ut.which() == utree_type::string_type && check(ut, "\"xy\"")); ut.clear(); BOOST_TEST(test_attr("x,y", as_string[char_ >> ',' >> char_], ut) && ut.which() == utree_type::string_type && check(ut, "\"xy\"")); ut.clear(); BOOST_TEST(test_attr("x,y", char_ >> ',' >> char_, ut) && ut.which() == utree_type::list_type && check(ut, "( \"x\" \"y\" )")); ut.clear(); BOOST_TEST(test_attr("a,b1.2", as_string[~digit % ','] >> double_, ut) && ut.which() == utree_type::list_type && check(ut, "( \"ab\" 1.2 )")); ut.clear(); BOOST_TEST(test_attr("a,b1.2", ~digit % ',' >> double_, ut) && ut.which() == utree_type::list_type && check(ut, "( \"a\" \"b\" 1.2 )")); ut.clear(); } return boost::report_errors(); }