/*============================================================================= Copyright (c) 2001-2011 Joel de Guzman 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 #include #include #include #include #include #include #include "test.hpp" int main() { using namespace boost::spirit::ascii; using boost::spirit::qi::lit; using boost::spirit::qi::unused; using boost::spirit::qi::int_; using boost::spirit::qi::double_; using boost::spirit::qi::what; using boost::spirit::qi::rule; using boost::spirit::qi::_1; using boost::spirit::qi::_2; using boost::fusion::vector; using boost::fusion::at_c; using spirit_test::test; using spirit_test::test_attr; using spirit_test::print_info; { BOOST_TEST((test("aa", char_ >> char_))); BOOST_TEST((test("aaa", char_ >> char_ >> char_('a')))); BOOST_TEST((test("xi", char_('x') >> char_('i')))); BOOST_TEST((!test("xi", char_('x') >> char_('o')))); BOOST_TEST((test("xin", char_('x') >> char_('i') >> char_('n')))); } { BOOST_TEST((test(" a a", char_ >> char_, space))); BOOST_TEST((test(" x i", char_('x') >> char_('i'), space))); BOOST_TEST((!test(" x i", char_('x') >> char_('o'), space))); } { BOOST_TEST((test(" Hello, World", lit("Hello") >> ',' >> "World", space))); } { vector attr; BOOST_TEST((test_attr("abcdefg", char_ >> char_ >> "cdefg", attr))); BOOST_TEST((at_c<0>(attr) == 'a')); BOOST_TEST((at_c<1>(attr) == 'b')); } { vector attr; BOOST_TEST((test_attr(" a\n b\n c", char_ >> char_ >> char_, attr, space))); BOOST_TEST((at_c<0>(attr) == 'a')); BOOST_TEST((at_c<1>(attr) == 'b')); BOOST_TEST((at_c<2>(attr) == 'c')); } { // unused_type means we don't care about the attribute vector attr; BOOST_TEST((test_attr("abc", char_ >> 'b' >> char_, attr))); BOOST_TEST((at_c<0>(attr) == 'a')); BOOST_TEST((at_c<1>(attr) == 'c')); } { // unused_type means we don't care about the attribute, even at the end vector attr; BOOST_TEST((test_attr("acb", char_ >> char_ >> 'b', attr))); BOOST_TEST((at_c<0>(attr) == 'a')); BOOST_TEST((at_c<1>(attr) == 'c')); } { // "hello" has an unused_type. unused attributes are not part of the sequence vector attr; BOOST_TEST((test_attr("a hello c", char_ >> "hello" >> char_, attr, space))); BOOST_TEST((at_c<0>(attr) == 'a')); BOOST_TEST((at_c<1>(attr) == 'c')); } { // a single element char attr; BOOST_TEST((test_attr("ab", char_ >> 'b', attr))); BOOST_TEST((attr == 'a')); } { // a single element fusion sequence vector attr; BOOST_TEST((test_attr("ab", char_ >> 'b', attr))); BOOST_TEST((at_c<0>(attr) == 'a')); } { // make sure single element tuples get passed through if the rhs // has a single element tuple as its attribute vector fv; rule()> r; r %= double_ >> ',' >> int_; BOOST_TEST((test_attr("test:2.0,1", "test:" >> r, fv) && fv == vector(2.0, 1))); } { // unused means we don't care about the attribute BOOST_TEST((test_attr("abc", char_ >> 'b' >> char_, unused))); } { BOOST_TEST((test("aA", no_case[char_('a') >> 'a']))); BOOST_TEST((test("BEGIN END", no_case[lit("begin") >> "end"], space))); BOOST_TEST((!test("BEGIN END", no_case[lit("begin") >> "nend"], space))); } { #ifdef SPIRIT_NO_COMPILE_CHECK char_ >> char_ = char_ >> char_; // disallow this! #endif } { // alternative forms of attributes. Allow sequences to take in // stl containers. std::vector v; BOOST_TEST(test_attr("abc", char_ >> char_ >> char_, v)); BOOST_TEST(v.size() == 3); BOOST_TEST(v[0] == 'a'); BOOST_TEST(v[1] == 'b'); BOOST_TEST(v[2] == 'c'); } { // alternative forms of attributes. Allow sequences to take in // stl containers. std::vector v; BOOST_TEST(test_attr("a,b,c", char_ >> *(',' >> char_), v)); BOOST_TEST(v.size() == 3); BOOST_TEST(v[0] == 'a'); BOOST_TEST(v[1] == 'b'); BOOST_TEST(v[2] == 'c'); } { // alternative forms of attributes. Allow sequences to take in // stl containers. std::vector v; BOOST_TEST(test_attr("abc", char_ >> *char_, v)); BOOST_TEST(v.size() == 3); BOOST_TEST(v[0] == 'a'); BOOST_TEST(v[1] == 'b'); BOOST_TEST(v[2] == 'c'); } { // alternative forms of attributes. Allow sequences to take in // stl containers. using boost::spirit::qi::hold; std::vector v; BOOST_TEST(test_attr("abc", char_ >> *(char_ >> char_), v)); BOOST_TEST(v.size() == 3); BOOST_TEST(v[0] == 'a'); BOOST_TEST(v[1] == 'b'); BOOST_TEST(v[2] == 'c'); v.clear(); BOOST_TEST(!test_attr("abcd", char_ >> *(char_ >> char_), v)); v.clear(); BOOST_TEST(test_attr("abcdef", char_ >> *hold[char_ >> char_] >> char_, v)); BOOST_TEST(v.size() == 6); BOOST_TEST(v[0] == 'a'); BOOST_TEST(v[1] == 'b'); BOOST_TEST(v[2] == 'c'); BOOST_TEST(v[3] == 'd'); BOOST_TEST(v[4] == 'e'); BOOST_TEST(v[5] == 'f'); v.clear(); BOOST_TEST(test_attr("abc", char_ >> +(char_ >> char_), v)); BOOST_TEST(v.size() == 3); BOOST_TEST(v[0] == 'a'); BOOST_TEST(v[1] == 'b'); BOOST_TEST(v[2] == 'c'); } { // alternative forms of attributes. Allow sequences to take in // stl containers. std::vector v; BOOST_TEST(test_attr("abc", char_ >> -(+char_), v)); BOOST_TEST(v.size() == 3); BOOST_TEST(v[0] == 'a'); BOOST_TEST(v[1] == 'b'); BOOST_TEST(v[2] == 'c'); } { // alternative forms of attributes. Allow sequences to take in // stl containers. std::string s; BOOST_TEST(test_attr("foobar", string("foo") >> string("bar"), s)); BOOST_TEST(s == "foobar"); s.clear(); using boost::spirit::qi::hold; rule word = +char_("abc"); BOOST_TEST(test_attr("ab.bc.ca", *hold[word >> string(".")] >> word, s)); BOOST_TEST(s == "ab.bc.ca"); } // alternative forms of attributes. Allow sequences to take in // stl containers of stl containers. { std::vector v; BOOST_TEST(test_attr("abc1,abc2", *~char_(',') >> *(',' >> *~char_(',')), v)); BOOST_TEST(v.size() == 2 && v[0] == "abc1" && v[1] == "abc2"); } { std::vector v; rule e = *~char_(','); rule()> l = e >> *(',' >> e); BOOST_TEST(test_attr("abc1,abc2,abc3", l, v)); BOOST_TEST(v.size() == 3); BOOST_TEST(v[0] == "abc1"); BOOST_TEST(v[1] == "abc2"); BOOST_TEST(v[2] == "abc3"); } // do the same with a plain string object { std::string s; BOOST_TEST(test_attr("abc1,abc2", *~char_(',') >> *(',' >> *~char_(',')), s)); BOOST_TEST(s == "abc1abc2"); } { std::string s; rule e = *~char_(','); rule l = e >> *(',' >> e); BOOST_TEST(test_attr("abc1,abc2,abc3", l, s)); BOOST_TEST(s == "abc1abc2abc3"); } { std::vector v; BOOST_TEST(test_attr("ab", char_ >> -char_, v)); BOOST_TEST(v.size() == 2 && v[0] == 'a' && v[1] == 'b'); v.clear(); BOOST_TEST(test_attr("a", char_ >> -char_, v)); BOOST_TEST(v.size() == 1 && v[0] == 'a'); v.clear(); BOOST_TEST(test_attr("a", char_, v)); BOOST_TEST(v.size() == 1 && v[0] == 'a'); } { std::vector > v; BOOST_TEST(test_attr("ab", char_ >> -char_, v)); BOOST_TEST(v.size() == 2 && v[0] == 'a' && v[1] == 'b'); v.clear(); BOOST_TEST(test_attr("a", char_ >> -char_, v)); BOOST_TEST(v.size() == 2 && v[0] == 'a' && !v[1]); v.clear(); BOOST_TEST(test_attr("a", char_, v)); BOOST_TEST(v.size() == 1 && v[0] == 'a'); } { // test action using boost::phoenix::ref; char c = 0; int n = 0; BOOST_TEST(test("x123\"a string\"", (char_ >> int_ >> "\"a string\"") [ref(c) = _1, ref(n) = _2])); BOOST_TEST(c == 'x'); BOOST_TEST(n == 123); } { // test action using boost::phoenix::ref; char c = 0; int n = 0; BOOST_TEST(test("x 123 \"a string\"", (char_ >> int_ >> "\"a string\"") [ref(c) = _1, ref(n) = _2], space)); BOOST_TEST(c == 'x'); BOOST_TEST(n == 123); } { // testing "what" print_info(what(alpha | char_('x') >> lit("hello") >> int_)); } // { // compile check only // using boost::spirit::qi::rule; // typedef boost::fusion::vector tuple_type; // typedef std::vector > attr_type; // // rule r = int_ >> ',' >> double_; // rule r2 = r >> *(',' >> r); // //~ rule r2 = r % ','; // } return boost::report_errors(); }