boost_1_45_0/libs/assign/test/list_of.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 // Boost.Assign library
 //
 //  Copyright Thorsten Ottosen 2003-2004. Use, modification and
 //  distribution is subject to 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)
 //
 // For more information, see http://www.boost.org/libs/assign/
 //


 #include <boost/detail/workaround.hpp>

 #if BOOST_WORKAROUND(__BORLANDC__, BOOST_TESTED_AT(0x564))
 #  pragma warn -8091 // supress warning in Boost.Test
 #  pragma warn -8057 // unused argument argc/argv in Boost.Test
 #endif

 #include <boost/assign/list_of.hpp>
 #include <boost/test/test_tools.hpp>
 #include <boost/array.hpp>
 #include <algorithm>
 #include <vector>
 #include <list>
 #include <deque>
 #include <set>
 #include <map>
 #include <stack>
 #include <string>
 #include <cstdlib>
 #include <complex>

 struct nothing
 {
     template< class T >
     void operator()( T )
     { }

 };

 template< class Range >
 void for_each( const Range& r )
 {
     std::for_each( r.begin(), r.end(), nothing() );
 }

 namespace ba = boost::assign;

 template< class C >
 void test_sequence_list_of_string()
 {
 #if BOOST_WORKAROUND(BOOST_MSVC, <=1300)
     const C c = ba::list_of( "foo" )( "bar" ).to_container( c );
 #else
     const C c = ba::list_of( "foo" )( "bar" );
 #endif
     BOOST_CHECK_EQUAL( c.size(), 2u );
 }

 struct parameter_list
 {
     int val;

     template< class T >
     parameter_list( T )
     : val(0)
     { }

     template< class T >
     parameter_list( const T&, int )
     : val(1)
     { }
 };

 template< class C >
 void test_sequence_list_of_int()
 {
     using namespace std;
 #if BOOST_WORKAROUND(BOOST_MSVC, <=1300)

     const C c = ba::list_of<int>(1)(2)(3)(4).to_container( c );
     const C c2 = ba::list_of(1)(2)(3)(4).to_container( c2 );
     BOOST_CHECK_EQUAL( c.size(), 4u );
     BOOST_CHECK_EQUAL( c2.size(), 4u );
     C c3 = ba::list_of(1).repeat( 1, 2 )(3).to_container( c3 );
     BOOST_CHECK_EQUAL( c3.size(), 3u );

     c3 = ba::list_of(1).repeat_fun( 10, &rand )(2)(3).to_container( c3 );
     BOOST_CHECK_EQUAL( c3.size(), 13u );

 #else

     const C c = ba::list_of<int>(1)(2)(3)(4);
     const C c2 = ba::list_of(1)(2)(3)(4);
     BOOST_CHECK_EQUAL( c.size(), 4u );
     BOOST_CHECK_EQUAL( c2.size(), 4u );
     C c3 = ba::list_of(1).repeat( 1, 2 )(3);
     BOOST_CHECK_EQUAL( c3.size(), 3u );

 #if BOOST_WORKAROUND(__BORLANDC__, BOOST_TESTED_AT(0x564))
     // BCB fails to use operator=() directly,
     // it must be worked around using e.g. auxiliary variable
     C aux = ba::list_of(1).repeat_fun( 10, &rand )(2)(3);
     BOOST_CHECK_EQUAL( aux.size(), 13u );
     c3 = aux;
     BOOST_CHECK_EQUAL( c3.size(), 13u );
 #else
     c3 = ba::list_of(1).repeat_fun( 10, &rand )(2)(3);
     BOOST_CHECK_EQUAL( c3.size(), 13u );
 #endif

 #endif

     parameter_list p( ba::list_of(1)(2), 3u );
     BOOST_CHECK_EQUAL( p.val, 1 );

 }

 template< class C >
 void test_map_list_of()
 {
     const C c  = ba::list_of< std::pair<std::string,int> >( "foo", 1 )( "bar", 2 )( "buh", 3 )( "bah", 4 );
     BOOST_CHECK_EQUAL( c.size(), 4u );
     const C c2  = ba::map_list_of( "foo", 1 )( "bar", 2 )( "buh", 3 )( "bah", 4 );
     BOOST_CHECK_EQUAL( c2.size(), 4u );
 }

 void test_vector_matrix()
 {
     using namespace boost;
     using namespace boost::assign;
     using namespace std;

 #if BOOST_WORKAROUND(BOOST_DINKUMWARE_STDLIB, == 1)  || BOOST_WORKAROUND(BOOST_MSVC, <=1300)
 #else

     const int              sz = 3;
     typedef array<int,sz>   row3;
     typedef array<row3,sz>  matrix3x3;


     matrix3x3 m = list_of( list_of(1)(2)(3) )
                          ( list_of(4)(5)(6) )
                          ( list_of(7)(8)(9) );

     for( int i = 0; i != sz; ++i )
         for( int j = 0; j != sz; ++j )
             BOOST_CHECK_EQUAL( m[i][j], i*sz + j + 1 );

     typedef vector<int>  row;
     typedef vector<row>  matrix;

     //
     // note: some libraries need a little help
     //       with the conversion, hence the 'row' template parameter.
     //
     matrix m2 = list_of< row >( list_of(1)(2)(3) )
                               ( list_of(4)(5) )
                               ( list_of(6) );

     for( int i = 0; i != sz; ++i )
         for( int j = 0; j != sz - i; ++j )
             BOOST_CHECK_EQUAL( m[i][j], i*sz + j + 1 );

 #endif

 }

 void test_map_list_of()
 {
 /*
     maybe in the future...

     using namespace std;
     using namespace boost::assign;

     typedef vector<int>                   score_type;
     typedef map<string,score_type>        team_score_map;

     team_score_map team_score = map_list_of
                         ( "Team Foo",    list_of(1)(1)(0) )
                         ( "Team Bar",    list_of(0)(0)(0) )
                         ( "Team FooBar", list_of(0)(0)(1) );
     BOOST_CHECK_EQUAL( team_score.size(), 3 );
     BOOST_CHECK_EQUAL( team_score[ "Team Foo" ][1], 1 );
     BOOST_CHECK_EQUAL( team_score[ "Team Bar" ][0], 0 );
 */

 }

 /*
 void test_complex_list_of()
 {
     typedef std::complex<float> complex_t;
     std::vector<complex_t> v;
     v = ba::list_of<complex_t>(1,2)(2,3)(4,5)(0).
           repeat_from_to( complex_t(0,0), complex_t(10,10), complex_t(1,1) );
 }
 */

 struct five
 {
     five( int, int, int, int, int )
     {
     }
 };

 void test_list_of()
 {
     ba::list_of< five >(1,2,3,4,5)(6,7,8,9,10);

 /* Maybe this could be usefull in a later version?

     // an anonymous lists, fulfills Range concept
     for_each( ba::list_of( T() )( T() )( T() ) );

     // non-anonymous lists
     ba::generic_list<T> list_1 = ba::list_of( T() );
     BOOST_CHECK_EQUAL( list_1.size(), 1 );
     ba::generic_list<T> list_2 = list_1 + ba::list_of( T() )( T() ) + list_1;
     BOOST_CHECK_EQUAL( list_2.size(), 4 );
     list_1 += list_2;
     BOOST_CHECK_EQUAL( list_1.size(), 5 );
 */
 }

 //
 // @remark: ADL is required here, but it is a bit wierd to
 //          open up namespace std. Perhaps Boost.Test needs a
 //          better configuration option.
 //
 namespace std
 {
     template< class T, class Elem, class Traits >
     inline std::basic_ostream<Elem,Traits>&
     operator<<( std::basic_ostream<Elem, Traits>& Os,
                 const std::vector<T>& r )
     {
         return Os << ::boost::make_iterator_range( r.begin(),  r.end() );
     }
 }

 template <class Seq>
 inline std::vector<int> as_seq( const Seq& s )
 {
     std::vector<int> c;
     return s.to_container( c );
 }

 void test_comparison_operations()
 {
     BOOST_CHECK_EQUAL( ba::list_of(0)(1)(2), as_seq(ba::list_of(0)(1)(2)) );
     BOOST_CHECK_NE( ba::list_of(0)(1)(2), as_seq(ba::list_of(-1)(1)(2)) );
     BOOST_CHECK_LT( ba::list_of(0)(1)(2), as_seq(ba::list_of(0)(1)(3)) );
     BOOST_CHECK_LE( ba::list_of(0)(1)(2), as_seq(ba::list_of(0)(1)(2)) );
     BOOST_CHECK_GT( ba::list_of(0)(1)(3), as_seq(ba::list_of(0)(1)(2)) );
     BOOST_CHECK_GE( ba::list_of(0)(1)(2), as_seq(ba::list_of(0)(1)(2)) );
     BOOST_CHECK_EQUAL( as_seq(ba::list_of(0)(1)(2)), ba::list_of(0)(1)(2) );
     BOOST_CHECK_NE( as_seq(ba::list_of(0)(1)(2)), ba::list_of(-1)(1)(2) );
     BOOST_CHECK_LT( as_seq(ba::list_of(0)(1)(2)), ba::list_of(0)(1)(3) );
     BOOST_CHECK_LE( as_seq(ba::list_of(0)(1)(2)), ba::list_of(0)(1)(2) );
     BOOST_CHECK_GT( as_seq(ba::list_of(0)(1)(3)), ba::list_of(0)(1)(2) );
     BOOST_CHECK_GE( as_seq(ba::list_of(0)(1)(2)), ba::list_of(0)(1)(2) );
 }

 void check_list_of()
 {
     test_sequence_list_of_int< std::vector<int> >();
     test_sequence_list_of_int< std::list<int> >();
     test_sequence_list_of_int< std::deque<int> >();
     test_sequence_list_of_int< std::set<int> >();
     test_sequence_list_of_int< std::multiset<int> >();
     test_sequence_list_of_int< std::vector<float> >();

     test_sequence_list_of_string< std::vector<std::string> >();

     test_map_list_of< std::map<std::string,int> >();
     test_map_list_of< std::multimap<std::string,int> >();

     std::stack<std::string> s = ba::list_of( "Foo" )( "Bar" )( "FooBar" ).to_adapter( s );
     test_list_of();
     test_vector_matrix();
     test_comparison_operations();
 }


 #include <boost/test/unit_test.hpp>
 using boost::unit_test::test_suite;

 test_suite* init_unit_test_suite( int argc, char* argv[] )
 {
     test_suite* test = BOOST_TEST_SUITE( "List Test Suite" );

     test->add( BOOST_TEST_CASE( &check_list_of ) );

     return test;
 }
	// Boost.Assign library
	//
	// Copyright Thorsten Ottosen 2003-2004. Use, modification and
	// distribution is subject to 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)
	//
	// For more information, see http://www.boost.org/libs/assign/
	//


	#include <boost/detail/workaround.hpp>

	#if BOOST_WORKAROUND(__BORLANDC__, BOOST_TESTED_AT(0x564))
	# pragma warn -8091 // supress warning in Boost.Test
	# pragma warn -8057 // unused argument argc/argv in Boost.Test
	#endif

	#include <boost/assign/list_of.hpp>
	#include <boost/test/test_tools.hpp>
	#include <boost/array.hpp>
	#include <algorithm>
	#include <vector>
	#include <list>
	#include <deque>
	#include <set>
	#include <map>
	#include <stack>
	#include <string>
	#include <cstdlib>
	#include <complex>

	struct nothing
	{
	template< class T >
	void operator()( T )
	{ }

	};

	template< class Range >
	void for_each( const Range& r )
	{
	std::for_each( r.begin(), r.end(), nothing() );
	}

	namespace ba = boost::assign;

	template< class C >
	void test_sequence_list_of_string()
	{
	#if BOOST_WORKAROUND(BOOST_MSVC, <=1300)
	const C c = ba::list_of( "foo" )( "bar" ).to_container( c );
	#else
	const C c = ba::list_of( "foo" )( "bar" );
	#endif
	BOOST_CHECK_EQUAL( c.size(), 2u );
	}

	struct parameter_list
	{
	int val;

	template< class T >
	parameter_list( T )
	: val(0)
	{ }

	template< class T >
	parameter_list( const T&, int )
	: val(1)
	{ }
	};

	template< class C >
	void test_sequence_list_of_int()
	{
	using namespace std;
	#if BOOST_WORKAROUND(BOOST_MSVC, <=1300)

	const C c = ba::list_of<int>(1)(2)(3)(4).to_container( c );
	const C c2 = ba::list_of(1)(2)(3)(4).to_container( c2 );
	BOOST_CHECK_EQUAL( c.size(), 4u );
	BOOST_CHECK_EQUAL( c2.size(), 4u );
	C c3 = ba::list_of(1).repeat( 1, 2 )(3).to_container( c3 );
	BOOST_CHECK_EQUAL( c3.size(), 3u );

	c3 = ba::list_of(1).repeat_fun( 10, &rand )(2)(3).to_container( c3 );
	BOOST_CHECK_EQUAL( c3.size(), 13u );

	#else

	const C c = ba::list_of<int>(1)(2)(3)(4);
	const C c2 = ba::list_of(1)(2)(3)(4);
	BOOST_CHECK_EQUAL( c.size(), 4u );
	BOOST_CHECK_EQUAL( c2.size(), 4u );
	C c3 = ba::list_of(1).repeat( 1, 2 )(3);
	BOOST_CHECK_EQUAL( c3.size(), 3u );

	#if BOOST_WORKAROUND(__BORLANDC__, BOOST_TESTED_AT(0x564))
	// BCB fails to use operator=() directly,
	// it must be worked around using e.g. auxiliary variable
	C aux = ba::list_of(1).repeat_fun( 10, &rand )(2)(3);
	BOOST_CHECK_EQUAL( aux.size(), 13u );
	c3 = aux;
	BOOST_CHECK_EQUAL( c3.size(), 13u );
	#else
	c3 = ba::list_of(1).repeat_fun( 10, &rand )(2)(3);
	BOOST_CHECK_EQUAL( c3.size(), 13u );
	#endif

	#endif

	parameter_list p( ba::list_of(1)(2), 3u );
	BOOST_CHECK_EQUAL( p.val, 1 );

	}

	template< class C >
	void test_map_list_of()
	{
	const C c = ba::list_of< std::pair<std::string,int> >( "foo", 1 )( "bar", 2 )( "buh", 3 )( "bah", 4 );
	BOOST_CHECK_EQUAL( c.size(), 4u );
	const C c2 = ba::map_list_of( "foo", 1 )( "bar", 2 )( "buh", 3 )( "bah", 4 );
	BOOST_CHECK_EQUAL( c2.size(), 4u );
	}

	void test_vector_matrix()
	{
	using namespace boost;
	using namespace boost::assign;
	using namespace std;

	#if BOOST_WORKAROUND(BOOST_DINKUMWARE_STDLIB, == 1) \|\| BOOST_WORKAROUND(BOOST_MSVC, <=1300)
	#else

	const int sz = 3;
	typedef array<int,sz> row3;
	typedef array<row3,sz> matrix3x3;


	matrix3x3 m = list_of( list_of(1)(2)(3) )
	( list_of(4)(5)(6) )
	( list_of(7)(8)(9) );

	for( int i = 0; i != sz; ++i )
	for( int j = 0; j != sz; ++j )
	BOOST_CHECK_EQUAL( m[i][j], i*sz + j + 1 );

	typedef vector<int> row;
	typedef vector<row> matrix;

	//
	// note: some libraries need a little help
	// with the conversion, hence the 'row' template parameter.
	//
	matrix m2 = list_of< row >( list_of(1)(2)(3) )
	( list_of(4)(5) )
	( list_of(6) );

	for( int i = 0; i != sz; ++i )
	for( int j = 0; j != sz - i; ++j )
	BOOST_CHECK_EQUAL( m[i][j], i*sz + j + 1 );

	#endif

	}

	void test_map_list_of()
	{
	/*
	maybe in the future...

	using namespace std;
	using namespace boost::assign;

	typedef vector<int> score_type;
	typedef map<string,score_type> team_score_map;

	team_score_map team_score = map_list_of
	( "Team Foo", list_of(1)(1)(0) )
	( "Team Bar", list_of(0)(0)(0) )
	( "Team FooBar", list_of(0)(0)(1) );
	BOOST_CHECK_EQUAL( team_score.size(), 3 );
	BOOST_CHECK_EQUAL( team_score[ "Team Foo" ][1], 1 );
	BOOST_CHECK_EQUAL( team_score[ "Team Bar" ][0], 0 );
	*/

	}

	/*
	void test_complex_list_of()
	{
	typedef std::complex<float> complex_t;
	std::vector<complex_t> v;
	v = ba::list_of<complex_t>(1,2)(2,3)(4,5)(0).
	repeat_from_to( complex_t(0,0), complex_t(10,10), complex_t(1,1) );
	}
	*/

	struct five
	{
	five( int, int, int, int, int )
	{
	}
	};

	void test_list_of()
	{
	ba::list_of< five >(1,2,3,4,5)(6,7,8,9,10);

	/* Maybe this could be usefull in a later version?

	// an anonymous lists, fulfills Range concept
	for_each( ba::list_of( T() )( T() )( T() ) );

	// non-anonymous lists
	ba::generic_list<T> list_1 = ba::list_of( T() );
	BOOST_CHECK_EQUAL( list_1.size(), 1 );
	ba::generic_list<T> list_2 = list_1 + ba::list_of( T() )( T() ) + list_1;
	BOOST_CHECK_EQUAL( list_2.size(), 4 );
	list_1 += list_2;
	BOOST_CHECK_EQUAL( list_1.size(), 5 );
	*/
	}

	//
	// @remark: ADL is required here, but it is a bit wierd to
	// open up namespace std. Perhaps Boost.Test needs a
	// better configuration option.
	//
	namespace std
	{
	template< class T, class Elem, class Traits >
	inline std::basic_ostream<Elem,Traits>&
	operator<<( std::basic_ostream<Elem, Traits>& Os,
	const std::vector<T>& r )
	{
	return Os << ::boost::make_iterator_range( r.begin(), r.end() );
	}
	}

	template <class Seq>
	inline std::vector<int> as_seq( const Seq& s )
	{
	std::vector<int> c;
	return s.to_container( c );
	}

	void test_comparison_operations()
	{
	BOOST_CHECK_EQUAL( ba::list_of(0)(1)(2), as_seq(ba::list_of(0)(1)(2)) );
	BOOST_CHECK_NE( ba::list_of(0)(1)(2), as_seq(ba::list_of(-1)(1)(2)) );
	BOOST_CHECK_LT( ba::list_of(0)(1)(2), as_seq(ba::list_of(0)(1)(3)) );
	BOOST_CHECK_LE( ba::list_of(0)(1)(2), as_seq(ba::list_of(0)(1)(2)) );
	BOOST_CHECK_GT( ba::list_of(0)(1)(3), as_seq(ba::list_of(0)(1)(2)) );
	BOOST_CHECK_GE( ba::list_of(0)(1)(2), as_seq(ba::list_of(0)(1)(2)) );
	BOOST_CHECK_EQUAL( as_seq(ba::list_of(0)(1)(2)), ba::list_of(0)(1)(2) );
	BOOST_CHECK_NE( as_seq(ba::list_of(0)(1)(2)), ba::list_of(-1)(1)(2) );
	BOOST_CHECK_LT( as_seq(ba::list_of(0)(1)(2)), ba::list_of(0)(1)(3) );
	BOOST_CHECK_LE( as_seq(ba::list_of(0)(1)(2)), ba::list_of(0)(1)(2) );
	BOOST_CHECK_GT( as_seq(ba::list_of(0)(1)(3)), ba::list_of(0)(1)(2) );
	BOOST_CHECK_GE( as_seq(ba::list_of(0)(1)(2)), ba::list_of(0)(1)(2) );
	}

	void check_list_of()
	{
	test_sequence_list_of_int< std::vector<int> >();
	test_sequence_list_of_int< std::list<int> >();
	test_sequence_list_of_int< std::deque<int> >();
	test_sequence_list_of_int< std::set<int> >();
	test_sequence_list_of_int< std::multiset<int> >();
	test_sequence_list_of_int< std::vector<float> >();

	test_sequence_list_of_string< std::vector<std::string> >();

	test_map_list_of< std::map<std::string,int> >();
	test_map_list_of< std::multimap<std::string,int> >();

	std::stack<std::string> s = ba::list_of( "Foo" )( "Bar" )( "FooBar" ).to_adapter( s );
	test_list_of();
	test_vector_matrix();
	test_comparison_operations();
	}



	#include <boost/test/unit_test.hpp>
	using boost::unit_test::test_suite;

	test_suite* init_unit_test_suite( int argc, char* argv[] )
	{
	test_suite* test = BOOST_TEST_SUITE( "List Test Suite" );

	test->add( BOOST_TEST_CASE( &check_list_of ) );

	return test;
	}