boost_1_45_0/libs/xpressive/test/misc1.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 ///////////////////////////////////////////////////////////////////////////////
 // misc1.hpp
 //
 //  Copyright 2008 Eric Niebler. 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 <iostream>
 #include <boost/xpressive/xpressive.hpp>
 #include <boost/xpressive/traits/cpp_regex_traits.hpp>
 #include <boost/test/unit_test.hpp>

 using namespace boost::unit_test;
 using namespace boost::xpressive;

 void test1()
 {
     // make sure the following compiles:
     sregex a = _;
     sregex b = _;
     sregex c = a >> b;
     c = 'a' >> b;
     c = a >> 'b';
     c = a | b;
     c = 'a' | b;
     c = a | 'b';
     c = !a;
     c = *a;
     c = +a;
 }

 ///////////////////////////////////////////////////////////////////////////////
 // test for basic_regex in a keep
 //
 void test2()
 {
     std::locale loc;
     std::string str("Its a mad Mad mAd maD world");
     sregex word = +_w;
     sregex sentence = imbue(loc)(*(keep(word) >> +_s) >> word);
     smatch what;

     BOOST_REQUIRE(regex_match(str, what, sentence));
     BOOST_REQUIRE(7 == what.nested_results().size());
     smatch::nested_results_type::const_iterator pword = what.nested_results().begin();
     BOOST_CHECK((*pword++)[0] == "Its");
     BOOST_CHECK((*pword++)[0] == "a");
     BOOST_CHECK((*pword++)[0] == "mad");
     BOOST_CHECK((*pword++)[0] == "Mad");
     BOOST_CHECK((*pword++)[0] == "mAd");
     BOOST_CHECK((*pword++)[0] == "maD");
     BOOST_CHECK((*pword++)[0] == "world");
     BOOST_CHECK(pword == what.nested_results().end());
 }

 ///////////////////////////////////////////////////////////////////////////////
 // test for a simple non-recursive grammar
 //
 void test3()
 {
     // test for a simple regex grammar
     std::string buffer =
         "FROGGIE\r\n"
         "Volume = 1\r\n"
         "Other1= 2\r\n"
         "Channel=3\r\n"
         "Other =4\r\n"
         "\r\n"
         "FROGGIE\r\n"
         "Volume = 5\r\n"
         "Other1= 6\r\n"
         "Channel=7\r\n"
         "Other =8\r\n"
         "\r\n"
         "FROGGIE\r\n"
         "Volume = 9\r\n"
         "Other1= 0\r\n"
         "Channel=10\r\n"
         "\r\n";

     mark_tag name(1), value(2);

     sregex name_value_pair_ =
         (name= +alnum) >> *_s >> "=" >> *_s >>
         (value= +_d) >> *_s >> _ln;

     sregex message_ =
         *_s >> "FROGGIE" >> _ln >> +name_value_pair_ >> _ln;

     sregex re_ = +message_;

     smatch::nested_results_type::const_iterator msg, nvp;
     smatch tmpwhat;

     BOOST_REQUIRE(regex_search(buffer, tmpwhat, re_));
     // for giggles, make a deep-copy of the tree of results
     smatch what = tmpwhat;
     BOOST_REQUIRE(3 == what.nested_results().size());

     msg = what.nested_results().begin();
     BOOST_REQUIRE(4 == msg->nested_results().size());

     nvp = msg->nested_results().begin();
     BOOST_REQUIRE(3 == nvp->size());
     BOOST_CHECK("Volume" == (*nvp)[name]);
     BOOST_CHECK("1" == (*nvp)[value]);
     ++nvp;
     BOOST_REQUIRE(3 == nvp->size());
     BOOST_CHECK("Other1" == (*nvp)[name]);
     BOOST_CHECK("2" == (*nvp)[value]);
     ++nvp;
     BOOST_REQUIRE(3 == nvp->size());
     BOOST_CHECK("Channel" == (*nvp)[name]);
     BOOST_CHECK("3" == (*nvp)[value]);
     ++nvp;
     BOOST_REQUIRE(3 == nvp->size());
     BOOST_CHECK("Other" == (*nvp)[name]);
     BOOST_CHECK("4" == (*nvp)[value]);

     ++msg;
     BOOST_REQUIRE(4 == msg->nested_results().size());

     nvp = msg->nested_results().begin();
     BOOST_REQUIRE(3 == nvp->size());
     BOOST_CHECK("Volume" == (*nvp)[name]);
     BOOST_CHECK("5" == (*nvp)[value]);
     ++nvp;
     BOOST_REQUIRE(3 == nvp->size());
     BOOST_CHECK("Other1" == (*nvp)[name]);
     BOOST_CHECK("6" == (*nvp)[value]);
     ++nvp;
     BOOST_REQUIRE(3 == nvp->size());
     BOOST_CHECK("Channel" == (*nvp)[name]);
     BOOST_CHECK("7" == (*nvp)[value]);
     ++nvp;
     BOOST_REQUIRE(3 == nvp->size());
     BOOST_CHECK("Other" == (*nvp)[name]);
     BOOST_CHECK("8" == (*nvp)[value]);

     ++msg;
     BOOST_REQUIRE(3 == msg->nested_results().size());

     nvp = msg->nested_results().begin();
     BOOST_REQUIRE(3 == nvp->size());
     BOOST_CHECK("Volume" == (*nvp)[name]);
     BOOST_CHECK("9" == (*nvp)[value]);
     ++nvp;
     BOOST_REQUIRE(3 == nvp->size());
     BOOST_CHECK("Other1" == (*nvp)[name]);
     BOOST_CHECK("0" == (*nvp)[value]);
     ++nvp;
     BOOST_REQUIRE(3 == nvp->size());
     BOOST_CHECK("Channel" == (*nvp)[name]);
     BOOST_CHECK("10" == (*nvp)[value]);
 }

 ///////////////////////////////////////////////////////////////////////////////
 // test for a self-recursive regex
 //
 void test4()
 {
     sregex parentheses;
     parentheses                          // A balanced set of parentheses ...
         = '('                            // is an opening parenthesis ...
             >>                           // followed by ...
              *(                          // zero or more ...
                 keep( +~(set='(',')') )  // of a bunch of things that are not parentheses ...
               |                          // or ...
                 by_ref(parentheses)      // a balanced set of parentheses
               )                          //   (ooh, recursion!) ...
             >>                           // followed by ...
           ')'                            // a closing parenthesis
         ;

     smatch what;
     smatch::nested_results_type::const_iterator pwhat, pwhat2;
     std::string str( "blah blah( a(b)c (c(e)f (g)h )i (j)6 )blah" );

     BOOST_REQUIRE(regex_search(str, what, parentheses));
     BOOST_REQUIRE(1 == what.size());
     BOOST_CHECK("( a(b)c (c(e)f (g)h )i (j)6 )" == what[0]);

     BOOST_REQUIRE(3 == what.nested_results().size());
     pwhat = what.nested_results().begin();
     BOOST_REQUIRE(1 == pwhat->size());
     BOOST_CHECK("(b)" == (*pwhat)[0]);

     ++pwhat;
     BOOST_REQUIRE(1 == pwhat->size());
     BOOST_CHECK("(c(e)f (g)h )" == (*pwhat)[0]);

     BOOST_REQUIRE(2 == pwhat->nested_results().size());
     pwhat2 = pwhat->nested_results().begin();
     BOOST_REQUIRE(1 == pwhat2->size());
     BOOST_CHECK("(e)" == (*pwhat2)[0]);

     ++pwhat2;
     BOOST_REQUIRE(1 == pwhat2->size());
     BOOST_CHECK("(g)" == (*pwhat2)[0]);

     ++pwhat;
     BOOST_REQUIRE(1 == pwhat->size());
     BOOST_CHECK("(j)" == (*pwhat)[0]);
 }

 ///////////////////////////////////////////////////////////////////////////////
 // test for a sub-match scoping
 //
 void test5()
 {
     sregex inner = sregex::compile( "(.)\\1" );
     sregex outer = (s1= _) >> inner >> s1;
     std::string abba("ABBA");

     BOOST_CHECK(regex_match(abba, outer));
 }

 ///////////////////////////////////////////////////////////////////////////////
 // Ye olde calculator. Test recursive grammar.
 //
 void test6()
 {
     sregex group, factor, term, expression;

     group       = '(' >> by_ref(expression) >> ')';
     factor      = +_d | group;
     term        = factor >> *(('*' >> factor) | ('/' >> factor));
     expression  = term >> *(('+' >> term) | ('-' >> term));

     smatch what;
     std::string str("foo 9*(10+3) bar");

     BOOST_REQUIRE(regex_search(str, what, expression));
     BOOST_CHECK("9*(10+3)" == what[0]);
 }

 ///////////////////////////////////////////////////////////////////////////////
 // init_unit_test_suite
 //
 test_suite* init_unit_test_suite( int argc, char* argv[] )
 {
     test_suite *test = BOOST_TEST_SUITE("miscelaneous tests and examples from the docs");

     test->add(BOOST_TEST_CASE(&test1));
     test->add(BOOST_TEST_CASE(&test2));
     test->add(BOOST_TEST_CASE(&test3));
     test->add(BOOST_TEST_CASE(&test4));
     test->add(BOOST_TEST_CASE(&test5));
     test->add(BOOST_TEST_CASE(&test6));

     return test;
 }
	///////////////////////////////////////////////////////////////////////////////
	// misc1.hpp
	//
	// Copyright 2008 Eric Niebler. 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 <iostream>
	#include <boost/xpressive/xpressive.hpp>
	#include <boost/xpressive/traits/cpp_regex_traits.hpp>
	#include <boost/test/unit_test.hpp>

	using namespace boost::unit_test;
	using namespace boost::xpressive;

	void test1()
	{
	// make sure the following compiles:
	sregex a = _;
	sregex b = _;
	sregex c = a >> b;
	c = 'a' >> b;
	c = a >> 'b';
	c = a \| b;
	c = 'a' \| b;
	c = a \| 'b';
	c = !a;
	c = *a;
	c = +a;
	}

	///////////////////////////////////////////////////////////////////////////////
	// test for basic_regex in a keep
	//
	void test2()
	{
	std::locale loc;
	std::string str("Its a mad Mad mAd maD world");
	sregex word = +_w;
	sregex sentence = imbue(loc)(*(keep(word) >> +_s) >> word);
	smatch what;

	BOOST_REQUIRE(regex_match(str, what, sentence));
	BOOST_REQUIRE(7 == what.nested_results().size());
	smatch::nested_results_type::const_iterator pword = what.nested_results().begin();
	BOOST_CHECK((*pword++)[0] == "Its");
	BOOST_CHECK((*pword++)[0] == "a");
	BOOST_CHECK((*pword++)[0] == "mad");
	BOOST_CHECK((*pword++)[0] == "Mad");
	BOOST_CHECK((*pword++)[0] == "mAd");
	BOOST_CHECK((*pword++)[0] == "maD");
	BOOST_CHECK((*pword++)[0] == "world");
	BOOST_CHECK(pword == what.nested_results().end());
	}

	///////////////////////////////////////////////////////////////////////////////
	// test for a simple non-recursive grammar
	//
	void test3()
	{
	// test for a simple regex grammar
	std::string buffer =
	"FROGGIE\r\n"
	"Volume = 1\r\n"
	"Other1= 2\r\n"
	"Channel=3\r\n"
	"Other =4\r\n"
	"\r\n"
	"FROGGIE\r\n"
	"Volume = 5\r\n"
	"Other1= 6\r\n"
	"Channel=7\r\n"
	"Other =8\r\n"
	"\r\n"
	"FROGGIE\r\n"
	"Volume = 9\r\n"
	"Other1= 0\r\n"
	"Channel=10\r\n"
	"\r\n";

	mark_tag name(1), value(2);

	sregex name_value_pair_ =
	(name= +alnum) >> _s >> "=" >> _s >>
	(value= +_d) >> *_s >> _ln;

	sregex message_ =
	*_s >> "FROGGIE" >> _ln >> +name_value_pair_ >> _ln;

	sregex re_ = +message_;

	smatch::nested_results_type::const_iterator msg, nvp;
	smatch tmpwhat;

	BOOST_REQUIRE(regex_search(buffer, tmpwhat, re_));
	// for giggles, make a deep-copy of the tree of results
	smatch what = tmpwhat;
	BOOST_REQUIRE(3 == what.nested_results().size());

	msg = what.nested_results().begin();
	BOOST_REQUIRE(4 == msg->nested_results().size());

	nvp = msg->nested_results().begin();
	BOOST_REQUIRE(3 == nvp->size());
	BOOST_CHECK("Volume" == (*nvp)[name]);
	BOOST_CHECK("1" == (*nvp)[value]);
	++nvp;
	BOOST_REQUIRE(3 == nvp->size());
	BOOST_CHECK("Other1" == (*nvp)[name]);
	BOOST_CHECK("2" == (*nvp)[value]);
	++nvp;
	BOOST_REQUIRE(3 == nvp->size());
	BOOST_CHECK("Channel" == (*nvp)[name]);
	BOOST_CHECK("3" == (*nvp)[value]);
	++nvp;
	BOOST_REQUIRE(3 == nvp->size());
	BOOST_CHECK("Other" == (*nvp)[name]);
	BOOST_CHECK("4" == (*nvp)[value]);

	++msg;
	BOOST_REQUIRE(4 == msg->nested_results().size());

	nvp = msg->nested_results().begin();
	BOOST_REQUIRE(3 == nvp->size());
	BOOST_CHECK("Volume" == (*nvp)[name]);
	BOOST_CHECK("5" == (*nvp)[value]);
	++nvp;
	BOOST_REQUIRE(3 == nvp->size());
	BOOST_CHECK("Other1" == (*nvp)[name]);
	BOOST_CHECK("6" == (*nvp)[value]);
	++nvp;
	BOOST_REQUIRE(3 == nvp->size());
	BOOST_CHECK("Channel" == (*nvp)[name]);
	BOOST_CHECK("7" == (*nvp)[value]);
	++nvp;
	BOOST_REQUIRE(3 == nvp->size());
	BOOST_CHECK("Other" == (*nvp)[name]);
	BOOST_CHECK("8" == (*nvp)[value]);

	++msg;
	BOOST_REQUIRE(3 == msg->nested_results().size());

	nvp = msg->nested_results().begin();
	BOOST_REQUIRE(3 == nvp->size());
	BOOST_CHECK("Volume" == (*nvp)[name]);
	BOOST_CHECK("9" == (*nvp)[value]);
	++nvp;
	BOOST_REQUIRE(3 == nvp->size());
	BOOST_CHECK("Other1" == (*nvp)[name]);
	BOOST_CHECK("0" == (*nvp)[value]);
	++nvp;
	BOOST_REQUIRE(3 == nvp->size());
	BOOST_CHECK("Channel" == (*nvp)[name]);
	BOOST_CHECK("10" == (*nvp)[value]);
	}

	///////////////////////////////////////////////////////////////////////////////
	// test for a self-recursive regex
	//
	void test4()
	{
	sregex parentheses;
	parentheses // A balanced set of parentheses ...
	= '(' // is an opening parenthesis ...
	>> // followed by ...
	*( // zero or more ...
	keep( +~(set='(',')') ) // of a bunch of things that are not parentheses ...
	\| // or ...
	by_ref(parentheses) // a balanced set of parentheses
	) // (ooh, recursion!) ...
	>> // followed by ...
	')' // a closing parenthesis
	;

	smatch what;
	smatch::nested_results_type::const_iterator pwhat, pwhat2;
	std::string str( "blah blah( a(b)c (c(e)f (g)h )i (j)6 )blah" );

	BOOST_REQUIRE(regex_search(str, what, parentheses));
	BOOST_REQUIRE(1 == what.size());
	BOOST_CHECK("( a(b)c (c(e)f (g)h )i (j)6 )" == what[0]);

	BOOST_REQUIRE(3 == what.nested_results().size());
	pwhat = what.nested_results().begin();
	BOOST_REQUIRE(1 == pwhat->size());
	BOOST_CHECK("(b)" == (*pwhat)[0]);

	++pwhat;
	BOOST_REQUIRE(1 == pwhat->size());
	BOOST_CHECK("(c(e)f (g)h )" == (*pwhat)[0]);

	BOOST_REQUIRE(2 == pwhat->nested_results().size());
	pwhat2 = pwhat->nested_results().begin();
	BOOST_REQUIRE(1 == pwhat2->size());
	BOOST_CHECK("(e)" == (*pwhat2)[0]);

	++pwhat2;
	BOOST_REQUIRE(1 == pwhat2->size());
	BOOST_CHECK("(g)" == (*pwhat2)[0]);

	++pwhat;
	BOOST_REQUIRE(1 == pwhat->size());
	BOOST_CHECK("(j)" == (*pwhat)[0]);
	}

	///////////////////////////////////////////////////////////////////////////////
	// test for a sub-match scoping
	//
	void test5()
	{
	sregex inner = sregex::compile( "(.)\\1" );
	sregex outer = (s1= _) >> inner >> s1;
	std::string abba("ABBA");

	BOOST_CHECK(regex_match(abba, outer));
	}

	///////////////////////////////////////////////////////////////////////////////
	// Ye olde calculator. Test recursive grammar.
	//
	void test6()
	{
	sregex group, factor, term, expression;

	group = '(' >> by_ref(expression) >> ')';
	factor = +_d \| group;
	term = factor >> (('' >> factor) \| ('/' >> factor));
	expression = term >> *(('+' >> term) \| ('-' >> term));

	smatch what;
	std::string str("foo 9*(10+3) bar");

	BOOST_REQUIRE(regex_search(str, what, expression));
	BOOST_CHECK("9*(10+3)" == what[0]);
	}

	///////////////////////////////////////////////////////////////////////////////
	// init_unit_test_suite
	//
	test_suite* init_unit_test_suite( int argc, char* argv[] )
	{
	test_suite *test = BOOST_TEST_SUITE("miscelaneous tests and examples from the docs");

	test->add(BOOST_TEST_CASE(&test1));
	test->add(BOOST_TEST_CASE(&test2));
	test->add(BOOST_TEST_CASE(&test3));
	test->add(BOOST_TEST_CASE(&test4));
	test->add(BOOST_TEST_CASE(&test5));
	test->add(BOOST_TEST_CASE(&test6));

	return test;
	}