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

 //  (C) Copyright Gennadiy Rozental 2001-2008.
 //  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)

 //  See http://www.boost.org/libs/test for the library home page.
 //
 //  File        : $RCSfile$
 //
 //  Version     : $Revision: 57993 $
 //
 //  Description : tests all Test Tools but output_test_stream
 // ***************************************************************************

 // Boost.Test
 #define BOOST_TEST_MAIN
 #include <boost/test/unit_test.hpp>
 #include <boost/test/unit_test_log.hpp>
 #include <boost/test/output_test_stream.hpp>
 #include <boost/test/execution_monitor.hpp>
 #include <boost/test/detail/unit_test_parameters.hpp>
 #include <boost/test/output/compiler_log_formatter.hpp>
 #include <boost/test/framework.hpp>

 #include <boost/test/detail/suppress_warnings.hpp>

 // Boost
 #include <boost/bind.hpp>

 // STL
 #include <iostream>
 #include <iomanip>

 #ifdef BOOST_MSVC
 # pragma warning(push)
 # pragma warning(disable: 4702) // unreachable code
 #endif

 using namespace boost::unit_test;
 using namespace boost::test_tools;

 //____________________________________________________________________________//

 #define CHECK_CRITICAL_TOOL_USAGE( tool_usage )     \
 {                                                   \
     bool throw_ = false;                            \
     try {                                           \
         tool_usage;                                 \
     } catch( boost::execution_aborted const& ) {    \
         throw_ = true;                              \
     }                                               \
                                                     \
     BOOST_CHECK_MESSAGE( throw_, "not aborted" );   \
 }                                                   \
 /**/

 //____________________________________________________________________________//

 class bool_convertible
 {
     struct Tester {};
 public:
     operator Tester*() const { return static_cast<Tester*>( 0 ) + 1; }
 };

 //____________________________________________________________________________//

 struct shorten_lf : public boost::unit_test::output::compiler_log_formatter
 {
     void    print_prefix( std::ostream& output, boost::unit_test::const_string, std::size_t line )
     {
         output << line << ": ";
     }
 };

 //____________________________________________________________________________//

 std::string match_file_name( "./test_files/test_tools_test.pattern" );
 std::string save_file_name( "test_tools_test.pattern" );

 output_test_stream& ots()
 {
     static boost::shared_ptr<output_test_stream> inst;

     if( !inst ) {
         inst.reset(
             framework::master_test_suite().argc <= 1
                 ? new output_test_stream( runtime_config::save_pattern() ? save_file_name : match_file_name, !runtime_config::save_pattern() )
                 : new output_test_stream( framework::master_test_suite().argv[1], !runtime_config::save_pattern() ) );
     }

     return *inst;
 }

 //____________________________________________________________________________//

 #define TEST_CASE( name )                                   \
 void name ## _impl();                                       \
 void name ## _impl_defer();                                 \
                                                             \
 BOOST_AUTO_TEST_CASE( name )                                \
 {                                                           \
     test_case* impl = make_test_case( &name ## _impl, #name ); \
                                                             \
     unit_test_log.set_stream( ots() );                      \
     unit_test_log.set_threshold_level( log_nothing );       \
     unit_test_log.set_formatter( new shorten_lf );          \
     framework::run( impl );                                 \
                                                             \
     unit_test_log.set_threshold_level(                      \
         runtime_config::log_level() != invalid_log_level    \
             ? runtime_config::log_level()                   \
             : log_all_errors );                             \
     unit_test_log.set_format( runtime_config::log_format());\
     unit_test_log.set_stream( std::cout );                  \
     BOOST_CHECK( ots().match_pattern() );                   \
 }                                                           \
                                                             \
 void name ## _impl()                                        \
 {                                                           \
     unit_test_log.set_threshold_level( log_all_errors );    \
                                                             \
     name ## _impl_defer();                                  \
                                                             \
     unit_test_log.set_threshold_level( log_nothing );       \
 }                                                           \
                                                             \
 void name ## _impl_defer()                                  \
 /**/

 //____________________________________________________________________________//

 TEST_CASE( test_BOOST_WARN )
 {
     unit_test_log.set_threshold_level( log_warnings );
     BOOST_WARN( sizeof(int) == sizeof(short) );

     unit_test_log.set_threshold_level( log_successful_tests );
     BOOST_WARN( sizeof(unsigned char) == sizeof(char) );
 }

 //____________________________________________________________________________//

 TEST_CASE( test_BOOST_CHECK )
 {
     // check correct behavior in if clause
     if( true )
         BOOST_CHECK( true );

     // check correct behavior in else clause
     if( false )
     {}
     else
         BOOST_CHECK( true );

     bool_convertible bc;
     BOOST_CHECK( bc );

     int i=2;

     BOOST_CHECK( false );
     BOOST_CHECK( 1==2 );
     BOOST_CHECK( i==1 );

     unit_test_log.set_threshold_level( log_successful_tests );
     BOOST_CHECK( i==2 );
 }

 //____________________________________________________________________________//

 TEST_CASE( test_BOOST_REQUIRE )
 {
     CHECK_CRITICAL_TOOL_USAGE( BOOST_REQUIRE( true ) );

     CHECK_CRITICAL_TOOL_USAGE( BOOST_REQUIRE( false ) );

     int j = 3;

     CHECK_CRITICAL_TOOL_USAGE( BOOST_REQUIRE( j > 5 ) );

     unit_test_log.set_threshold_level( log_successful_tests );
     CHECK_CRITICAL_TOOL_USAGE( BOOST_REQUIRE( j < 5 ) );
 }

 //____________________________________________________________________________//

 TEST_CASE( test_BOOST_WARN_MESSAGE )
 {
     BOOST_WARN_MESSAGE( sizeof(int) == sizeof(short), "memory won't be used efficiently" );
     int obj_size = 33;

     BOOST_WARN_MESSAGE( obj_size <= 8,
                         "object size " << obj_size << " is too big to be efficiently passed by value" );

     unit_test_log.set_threshold_level( log_successful_tests );
     BOOST_WARN_MESSAGE( obj_size > 8, "object size " << obj_size << " is too small" );
 }

 //____________________________________________________________________________//

 boost::test_tools::predicate_result
 test_pred1()
 {
     boost::test_tools::predicate_result res( false );

     res.message() << "Some explanation";

     return res;
 }

 TEST_CASE( test_BOOST_CHECK_MESSAGE )
 {
     BOOST_CHECK_MESSAGE( 2+2 == 5, "Well, may be that what I believe in" );

     BOOST_CHECK_MESSAGE( test_pred1(), "Checking predicate failed" );

     unit_test_log.set_threshold_level( log_successful_tests );
     BOOST_CHECK_MESSAGE( 2+2 == 4, "Could it fail?" );

     int i = 1;
     int j = 2;
     std::string msg = "some explanation";
     BOOST_CHECK_MESSAGE( i > j, "Comparing " << i << " and " << j << ": " << msg );
 }

 //____________________________________________________________________________//

 TEST_CASE( test_BOOST_REQUIRE_MESSAGE )
 {
     CHECK_CRITICAL_TOOL_USAGE( BOOST_REQUIRE_MESSAGE( false, "Here we should stop" ) );

     unit_test_log.set_threshold_level( log_successful_tests );
     CHECK_CRITICAL_TOOL_USAGE( BOOST_REQUIRE_MESSAGE( true, "That's OK" ) );
 }

 //____________________________________________________________________________//

 TEST_CASE( test_BOOST_ERROR )
 {
     BOOST_ERROR( "Fail to miss an error" );
 }

 //____________________________________________________________________________//

 TEST_CASE( test_BOOST_FAIL )
 {
     CHECK_CRITICAL_TOOL_USAGE( BOOST_FAIL( "No! No! Show must go on." ) );
 }

 //____________________________________________________________________________//

 struct my_exception {
     explicit my_exception( int ec = 0 ) : m_error_code( ec ) {}

     int m_error_code;
 };

 bool is_critical( my_exception const& ex ) { return ex.m_error_code < 0; }

 TEST_CASE( test_BOOST_CHECK_THROW )
 {
     int i=0;
     BOOST_CHECK_THROW( i++, my_exception );

     unit_test_log.set_threshold_level( log_warnings );
     BOOST_WARN_THROW( i++, my_exception );

     unit_test_log.set_threshold_level( log_all_errors );
     CHECK_CRITICAL_TOOL_USAGE( BOOST_REQUIRE_THROW( i++, my_exception ) );

     unit_test_log.set_threshold_level( log_successful_tests );
     BOOST_CHECK_THROW( throw my_exception(), my_exception ); // unreachable code warning is expected
 }

 //____________________________________________________________________________//

 TEST_CASE( test_BOOST_CHECK_EXCEPTION )
 {
     BOOST_CHECK_EXCEPTION( throw my_exception( 1 ), my_exception, is_critical ); // unreachable code warning is expected

     unit_test_log.set_threshold_level( log_successful_tests );
     BOOST_CHECK_EXCEPTION( throw my_exception( -1 ), my_exception, is_critical ); // unreachable code warning is expected
 }

 //____________________________________________________________________________//

 TEST_CASE( test_BOOST_CHECK_NO_THROW )
 {
     int i=0;
     BOOST_CHECK_NO_THROW( i++ );

     BOOST_CHECK_NO_THROW( throw my_exception() ); // unreachable code warning is expected
 }

 //____________________________________________________________________________//

 struct B {
     B( int i ) : m_i( i ) {}

     int m_i;
 };

 bool          operator==( B const& b1, B const& b2 ) { return b1.m_i == b2.m_i; }
 std::ostream& operator<<( std::ostream& str, B const& b ) { return str << "B(" << b.m_i << ")"; }

 //____________________________________________________________________________//

 struct C {
     C( int i, int id ) : m_i( i ), m_id( id ) {}

     int m_i;
     int m_id;
 };

 boost::test_tools::predicate_result
 operator==( C const& c1, C const& c2 )
 {
     boost::test_tools::predicate_result res( c1.m_i == c2.m_i && c1.m_id == c2.m_id );

     if( !res ) {
         if( c1.m_i != c2.m_i )
             res.message() << "Index mismatch";
         else
             res.message() << "Id mismatch";
     }

     return res;
 }

 std::ostream& operator<<( std::ostream& str, C const& c ) { return str << "C(" << c.m_i << ',' << c.m_id << ")"; }

 //____________________________________________________________________________//

 TEST_CASE( test_BOOST_CHECK_EQUAL )
 {
     int i=1;
     int j=2;
     BOOST_CHECK_EQUAL( i, j );
     BOOST_CHECK_EQUAL( ++i, j );
     BOOST_CHECK_EQUAL( i++, j );

     char const* str1 = "test1";
     char const* str2 = "test12";
     BOOST_CHECK_EQUAL( str1, str2 );

     unit_test_log.set_threshold_level( log_successful_tests );
     BOOST_CHECK_EQUAL( i+1, j );

     char const* str3 = "1test1";
     BOOST_CHECK_EQUAL( str1, str3+1 );

     unit_test_log.set_threshold_level( log_all_errors );
     str1 = NULL;
     str2 = NULL;
     BOOST_CHECK_EQUAL( str1, str2 );

     str1 = "test";
     str2 = NULL;
     CHECK_CRITICAL_TOOL_USAGE( BOOST_REQUIRE_EQUAL( str1, str2 ) );

     B b1(1);
     B b2(2);

     unit_test_log.set_threshold_level( log_warnings );
     BOOST_WARN_EQUAL( b1, b2 );

     unit_test_log.set_threshold_level( log_all_errors );
     C c1( 0, 100 );
     C c2( 0, 101 );
     C c3( 1, 102 );
     BOOST_CHECK_EQUAL( c1, c3 );
     BOOST_CHECK_EQUAL( c1, c2 );

     char ch1 = -2;
     char ch2 = -3;
     BOOST_CHECK_EQUAL(ch1, ch2);
 }

 //____________________________________________________________________________//

 TEST_CASE( test_BOOST_CHECK_LOGICAL_EXPR )
 {
     int i=1;
     int j=2;
     BOOST_CHECK_NE( i, j );

     BOOST_CHECK_NE( ++i, j );

     BOOST_CHECK_LT( i, j );
     BOOST_CHECK_GT( i, j );

     BOOST_CHECK_LE( i, j );
     BOOST_CHECK_GE( i, j );

     ++i;

     BOOST_CHECK_LE( i, j );
     BOOST_CHECK_GE( j, i );

     char const* str1 = "test1";
     char const* str2 = "test1";

     BOOST_CHECK_NE( str1, str2 );
 }

 //____________________________________________________________________________//

 bool is_even( int i )        { return i%2 == 0;  }
 int  foo( int arg, int mod ) { return arg % mod; }
 bool moo( int arg1, int arg2, int mod ) { return ((arg1+arg2) % mod) == 0; }

 BOOST_TEST_DONT_PRINT_LOG_VALUE( std::list<int> )

 boost::test_tools::predicate_result
 compare_lists( std::list<int> const& l1, std::list<int> const& l2 )
 {
     if( l1.size() != l2.size() ) {
         boost::test_tools::predicate_result res( false );

         res.message() << "Different sizes [" << l1.size() << "!=" << l2.size() << "]";

         return res;
     }

     return true;
 }

 TEST_CASE( test_BOOST_CHECK_PREDICATE )
 {
     BOOST_CHECK_PREDICATE( is_even, (14) );

     int i = 17;
     BOOST_CHECK_PREDICATE( is_even, (i) );

     using std::not_equal_to;
     BOOST_CHECK_PREDICATE( not_equal_to<int>(), (i)(17) );

     int j=15;
     BOOST_CHECK_PREDICATE( boost::bind( is_even, boost::bind( &foo, _1, _2 ) ), (i)(j) );

     unit_test_log.set_threshold_level( log_warnings );
     BOOST_WARN_PREDICATE( moo, (12)(i)(j) );

     unit_test_log.set_threshold_level( log_all_errors );
     std::list<int> l1, l2, l3;
     l1.push_back( 1 );
     l3.push_back( 1 );
     l1.push_back( 2 );
     l3.push_back( 3 );
     BOOST_CHECK_PREDICATE( compare_lists, (l1)(l2) );
 }

 //____________________________________________________________________________//

 TEST_CASE( test_BOOST_REQUIRE_PREDICATE )
 {
     int arg1 = 1;
     int arg2 = 2;

     using std::less_equal;
     CHECK_CRITICAL_TOOL_USAGE( BOOST_REQUIRE_PREDICATE( less_equal<int>(), (arg1)(arg2) ) );

     CHECK_CRITICAL_TOOL_USAGE( BOOST_REQUIRE_PREDICATE( less_equal<int>(), (arg2)(arg1) ) );
 }

 //____________________________________________________________________________//

 TEST_CASE( test_BOOST_CHECK_EQUAL_COLLECTIONS )
 {
     unit_test_log.set_threshold_level( log_all_errors );

     int pattern [] = { 1, 2, 3, 4, 5, 6, 7 };

     std::list<int> testlist;

     testlist.push_back( 1 );
     testlist.push_back( 2 );
     testlist.push_back( 4 ); // 3
     testlist.push_back( 4 );
     testlist.push_back( 5 );
     testlist.push_back( 7 ); // 6
     testlist.push_back( 7 );

     BOOST_CHECK_EQUAL_COLLECTIONS( testlist.begin(), testlist.end(), pattern, pattern+7 );
     BOOST_CHECK_EQUAL_COLLECTIONS( testlist.begin(), testlist.end(), pattern, pattern+2 );
 }

 //____________________________________________________________________________//

 TEST_CASE( test_BOOST_CHECK_BITWISE_EQUAL )
 {
     BOOST_CHECK_BITWISE_EQUAL( 0x16, 0x16 );

     BOOST_CHECK_BITWISE_EQUAL( (char)0x06, (char)0x16 );

     unit_test_log.set_threshold_level( log_warnings );
     BOOST_WARN_BITWISE_EQUAL( (char)0x26, (char)0x04 );

     unit_test_log.set_threshold_level( log_all_errors );
     CHECK_CRITICAL_TOOL_USAGE( BOOST_REQUIRE_BITWISE_EQUAL( (char)0x26, (int)0x26 ) );
 }

 //____________________________________________________________________________//

 struct A {
     friend std::ostream& operator<<( std::ostream& str, A const& ) { str << "struct A"; return str;}
 };

 TEST_CASE( test_BOOST_TEST_MESSAGE )
 {
     unit_test_log.set_threshold_level( log_messages );

     BOOST_TEST_MESSAGE( "still testing" );
     BOOST_TEST_MESSAGE( "1+1=" << 2 );

     int i = 2;
     BOOST_TEST_MESSAGE( i << "+" << i << "=" << (i+i) );

     A a = A();
     BOOST_TEST_MESSAGE( a );

 #if BOOST_TEST_USE_STD_LOCALE
     BOOST_TEST_MESSAGE( std::hex << std::showbase << 20 );
 #else
     BOOST_TEST_MESSAGE( "0x14" );
 #endif

     BOOST_TEST_MESSAGE( std::setw( 4 ) << 20 );
 }

 //____________________________________________________________________________//

 TEST_CASE( test_BOOST_TEST_CHECKPOINT )
 {
     BOOST_TEST_CHECKPOINT( "Going to do a silly things" );

     throw "some error";
 }

 //____________________________________________________________________________//

 bool foo() { throw 1; return true; }

 TEST_CASE( test_BOOST_TEST_PASSPOINT )
 {
     BOOST_CHECK( foo() );
 }

 //____________________________________________________________________________//

 TEST_CASE( test_BOOST_IS_DEFINED )
 {
 #define SYMBOL1
 #define SYMBOL2 std::cout
 #define ONE_ARG( arg ) arg
 #define TWO_ARG( arg1, arg2 ) BOOST_JOIN( arg1, arg2 )

     BOOST_CHECK( BOOST_IS_DEFINED(SYMBOL1) );
     BOOST_CHECK( BOOST_IS_DEFINED(SYMBOL2) );
     BOOST_CHECK( !BOOST_IS_DEFINED( SYMBOL3 ) );
     BOOST_CHECK( BOOST_IS_DEFINED( ONE_ARG(arg1) ) );
     BOOST_CHECK( !BOOST_IS_DEFINED( ONE_ARG1(arg1) ) );
     BOOST_CHECK( BOOST_IS_DEFINED( TWO_ARG(arg1,arg2) ) );
     BOOST_CHECK( !BOOST_IS_DEFINED( TWO_ARG1(arg1,arg2) ) );
 }

 //____________________________________________________________________________//

 // !! CHECK_SMALL

 // EOF
	// (C) Copyright Gennadiy Rozental 2001-2008.
	// 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)

	// See http://www.boost.org/libs/test for the library home page.
	//
	// File : $RCSfile$
	//
	// Version : $Revision: 57993 $
	//
	// Description : tests all Test Tools but output_test_stream
	// ***************************************************************************

	// Boost.Test
	#define BOOST_TEST_MAIN
	#include <boost/test/unit_test.hpp>
	#include <boost/test/unit_test_log.hpp>
	#include <boost/test/output_test_stream.hpp>
	#include <boost/test/execution_monitor.hpp>
	#include <boost/test/detail/unit_test_parameters.hpp>
	#include <boost/test/output/compiler_log_formatter.hpp>
	#include <boost/test/framework.hpp>

	#include <boost/test/detail/suppress_warnings.hpp>

	// Boost
	#include <boost/bind.hpp>

	// STL
	#include <iostream>
	#include <iomanip>

	#ifdef BOOST_MSVC
	# pragma warning(push)
	# pragma warning(disable: 4702) // unreachable code
	#endif

	using namespace boost::unit_test;
	using namespace boost::test_tools;

	//____________________________________________________________________________//

	#define CHECK_CRITICAL_TOOL_USAGE( tool_usage ) \
	{ \
	bool throw_ = false; \
	try { \
	tool_usage; \
	} catch( boost::execution_aborted const& ) { \
	throw_ = true; \
	} \
	\
	BOOST_CHECK_MESSAGE( throw_, "not aborted" ); \
	} \
	/**/

	//____________________________________________________________________________//

	class bool_convertible
	{
	struct Tester {};
	public:
	operator Tester() const { return static_cast<Tester>( 0 ) + 1; }
	};

	//____________________________________________________________________________//

	struct shorten_lf : public boost::unit_test::output::compiler_log_formatter
	{
	void print_prefix( std::ostream& output, boost::unit_test::const_string, std::size_t line )
	{
	output << line << ": ";
	}
	};

	//____________________________________________________________________________//

	std::string match_file_name( "./test_files/test_tools_test.pattern" );
	std::string save_file_name( "test_tools_test.pattern" );

	output_test_stream& ots()
	{
	static boost::shared_ptr<output_test_stream> inst;

	if( !inst ) {
	inst.reset(
	framework::master_test_suite().argc <= 1
	? new output_test_stream( runtime_config::save_pattern() ? save_file_name : match_file_name, !runtime_config::save_pattern() )
	: new output_test_stream( framework::master_test_suite().argv[1], !runtime_config::save_pattern() ) );
	}

	return *inst;
	}

	//____________________________________________________________________________//

	#define TEST_CASE( name ) \
	void name ## _impl(); \
	void name ## _impl_defer(); \
	\
	BOOST_AUTO_TEST_CASE( name ) \
	{ \
	test_case* impl = make_test_case( &name ## _impl, #name ); \
	\
	unit_test_log.set_stream( ots() ); \
	unit_test_log.set_threshold_level( log_nothing ); \
	unit_test_log.set_formatter( new shorten_lf ); \
	framework::run( impl ); \
	\
	unit_test_log.set_threshold_level( \
	runtime_config::log_level() != invalid_log_level \
	? runtime_config::log_level() \
	: log_all_errors ); \
	unit_test_log.set_format( runtime_config::log_format());\
	unit_test_log.set_stream( std::cout ); \
	BOOST_CHECK( ots().match_pattern() ); \
	} \
	\
	void name ## _impl() \
	{ \
	unit_test_log.set_threshold_level( log_all_errors ); \
	\
	name ## _impl_defer(); \
	\
	unit_test_log.set_threshold_level( log_nothing ); \
	} \
	\
	void name ## _impl_defer() \
	/**/

	//____________________________________________________________________________//

	TEST_CASE( test_BOOST_WARN )
	{
	unit_test_log.set_threshold_level( log_warnings );
	BOOST_WARN( sizeof(int) == sizeof(short) );

	unit_test_log.set_threshold_level( log_successful_tests );
	BOOST_WARN( sizeof(unsigned char) == sizeof(char) );
	}

	//____________________________________________________________________________//

	TEST_CASE( test_BOOST_CHECK )
	{
	// check correct behavior in if clause
	if( true )
	BOOST_CHECK( true );

	// check correct behavior in else clause
	if( false )
	{}
	else
	BOOST_CHECK( true );

	bool_convertible bc;
	BOOST_CHECK( bc );

	int i=2;

	BOOST_CHECK( false );
	BOOST_CHECK( 1==2 );
	BOOST_CHECK( i==1 );

	unit_test_log.set_threshold_level( log_successful_tests );
	BOOST_CHECK( i==2 );
	}

	//____________________________________________________________________________//

	TEST_CASE( test_BOOST_REQUIRE )
	{
	CHECK_CRITICAL_TOOL_USAGE( BOOST_REQUIRE( true ) );

	CHECK_CRITICAL_TOOL_USAGE( BOOST_REQUIRE( false ) );

	int j = 3;

	CHECK_CRITICAL_TOOL_USAGE( BOOST_REQUIRE( j > 5 ) );

	unit_test_log.set_threshold_level( log_successful_tests );
	CHECK_CRITICAL_TOOL_USAGE( BOOST_REQUIRE( j < 5 ) );
	}

	//____________________________________________________________________________//

	TEST_CASE( test_BOOST_WARN_MESSAGE )
	{
	BOOST_WARN_MESSAGE( sizeof(int) == sizeof(short), "memory won't be used efficiently" );
	int obj_size = 33;

	BOOST_WARN_MESSAGE( obj_size <= 8,
	"object size " << obj_size << " is too big to be efficiently passed by value" );

	unit_test_log.set_threshold_level( log_successful_tests );
	BOOST_WARN_MESSAGE( obj_size > 8, "object size " << obj_size << " is too small" );
	}

	//____________________________________________________________________________//

	boost::test_tools::predicate_result
	test_pred1()
	{
	boost::test_tools::predicate_result res( false );

	res.message() << "Some explanation";

	return res;
	}

	TEST_CASE( test_BOOST_CHECK_MESSAGE )
	{
	BOOST_CHECK_MESSAGE( 2+2 == 5, "Well, may be that what I believe in" );

	BOOST_CHECK_MESSAGE( test_pred1(), "Checking predicate failed" );

	unit_test_log.set_threshold_level( log_successful_tests );
	BOOST_CHECK_MESSAGE( 2+2 == 4, "Could it fail?" );

	int i = 1;
	int j = 2;
	std::string msg = "some explanation";
	BOOST_CHECK_MESSAGE( i > j, "Comparing " << i << " and " << j << ": " << msg );
	}

	//____________________________________________________________________________//

	TEST_CASE( test_BOOST_REQUIRE_MESSAGE )
	{
	CHECK_CRITICAL_TOOL_USAGE( BOOST_REQUIRE_MESSAGE( false, "Here we should stop" ) );

	unit_test_log.set_threshold_level( log_successful_tests );
	CHECK_CRITICAL_TOOL_USAGE( BOOST_REQUIRE_MESSAGE( true, "That's OK" ) );
	}

	//____________________________________________________________________________//

	TEST_CASE( test_BOOST_ERROR )
	{
	BOOST_ERROR( "Fail to miss an error" );
	}

	//____________________________________________________________________________//

	TEST_CASE( test_BOOST_FAIL )
	{
	CHECK_CRITICAL_TOOL_USAGE( BOOST_FAIL( "No! No! Show must go on." ) );
	}

	//____________________________________________________________________________//

	struct my_exception {
	explicit my_exception( int ec = 0 ) : m_error_code( ec ) {}

	int m_error_code;
	};

	bool is_critical( my_exception const& ex ) { return ex.m_error_code < 0; }

	TEST_CASE( test_BOOST_CHECK_THROW )
	{
	int i=0;
	BOOST_CHECK_THROW( i++, my_exception );

	unit_test_log.set_threshold_level( log_warnings );
	BOOST_WARN_THROW( i++, my_exception );

	unit_test_log.set_threshold_level( log_all_errors );
	CHECK_CRITICAL_TOOL_USAGE( BOOST_REQUIRE_THROW( i++, my_exception ) );

	unit_test_log.set_threshold_level( log_successful_tests );
	BOOST_CHECK_THROW( throw my_exception(), my_exception ); // unreachable code warning is expected
	}

	//____________________________________________________________________________//

	TEST_CASE( test_BOOST_CHECK_EXCEPTION )
	{
	BOOST_CHECK_EXCEPTION( throw my_exception( 1 ), my_exception, is_critical ); // unreachable code warning is expected

	unit_test_log.set_threshold_level( log_successful_tests );
	BOOST_CHECK_EXCEPTION( throw my_exception( -1 ), my_exception, is_critical ); // unreachable code warning is expected
	}

	//____________________________________________________________________________//

	TEST_CASE( test_BOOST_CHECK_NO_THROW )
	{
	int i=0;
	BOOST_CHECK_NO_THROW( i++ );

	BOOST_CHECK_NO_THROW( throw my_exception() ); // unreachable code warning is expected
	}

	//____________________________________________________________________________//

	struct B {
	B( int i ) : m_i( i ) {}

	int m_i;
	};

	bool operator==( B const& b1, B const& b2 ) { return b1.m_i == b2.m_i; }
	std::ostream& operator<<( std::ostream& str, B const& b ) { return str << "B(" << b.m_i << ")"; }

	//____________________________________________________________________________//

	struct C {
	C( int i, int id ) : m_i( i ), m_id( id ) {}

	int m_i;
	int m_id;
	};

	boost::test_tools::predicate_result
	operator==( C const& c1, C const& c2 )
	{
	boost::test_tools::predicate_result res( c1.m_i == c2.m_i && c1.m_id == c2.m_id );

	if( !res ) {
	if( c1.m_i != c2.m_i )
	res.message() << "Index mismatch";
	else
	res.message() << "Id mismatch";
	}

	return res;
	}

	std::ostream& operator<<( std::ostream& str, C const& c ) { return str << "C(" << c.m_i << ',' << c.m_id << ")"; }

	//____________________________________________________________________________//

	TEST_CASE( test_BOOST_CHECK_EQUAL )
	{
	int i=1;
	int j=2;
	BOOST_CHECK_EQUAL( i, j );
	BOOST_CHECK_EQUAL( ++i, j );
	BOOST_CHECK_EQUAL( i++, j );

	char const* str1 = "test1";
	char const* str2 = "test12";
	BOOST_CHECK_EQUAL( str1, str2 );

	unit_test_log.set_threshold_level( log_successful_tests );
	BOOST_CHECK_EQUAL( i+1, j );

	char const* str3 = "1test1";
	BOOST_CHECK_EQUAL( str1, str3+1 );

	unit_test_log.set_threshold_level( log_all_errors );
	str1 = NULL;
	str2 = NULL;
	BOOST_CHECK_EQUAL( str1, str2 );

	str1 = "test";
	str2 = NULL;
	CHECK_CRITICAL_TOOL_USAGE( BOOST_REQUIRE_EQUAL( str1, str2 ) );

	B b1(1);
	B b2(2);

	unit_test_log.set_threshold_level( log_warnings );
	BOOST_WARN_EQUAL( b1, b2 );

	unit_test_log.set_threshold_level( log_all_errors );
	C c1( 0, 100 );
	C c2( 0, 101 );
	C c3( 1, 102 );
	BOOST_CHECK_EQUAL( c1, c3 );
	BOOST_CHECK_EQUAL( c1, c2 );

	char ch1 = -2;
	char ch2 = -3;
	BOOST_CHECK_EQUAL(ch1, ch2);
	}

	//____________________________________________________________________________//

	TEST_CASE( test_BOOST_CHECK_LOGICAL_EXPR )
	{
	int i=1;
	int j=2;
	BOOST_CHECK_NE( i, j );

	BOOST_CHECK_NE( ++i, j );

	BOOST_CHECK_LT( i, j );
	BOOST_CHECK_GT( i, j );

	BOOST_CHECK_LE( i, j );
	BOOST_CHECK_GE( i, j );

	++i;

	BOOST_CHECK_LE( i, j );
	BOOST_CHECK_GE( j, i );

	char const* str1 = "test1";
	char const* str2 = "test1";

	BOOST_CHECK_NE( str1, str2 );
	}

	//____________________________________________________________________________//

	bool is_even( int i ) { return i%2 == 0; }
	int foo( int arg, int mod ) { return arg % mod; }
	bool moo( int arg1, int arg2, int mod ) { return ((arg1+arg2) % mod) == 0; }

	BOOST_TEST_DONT_PRINT_LOG_VALUE( std::list<int> )

	boost::test_tools::predicate_result
	compare_lists( std::list<int> const& l1, std::list<int> const& l2 )
	{
	if( l1.size() != l2.size() ) {
	boost::test_tools::predicate_result res( false );

	res.message() << "Different sizes [" << l1.size() << "!=" << l2.size() << "]";

	return res;
	}

	return true;
	}

	TEST_CASE( test_BOOST_CHECK_PREDICATE )
	{
	BOOST_CHECK_PREDICATE( is_even, (14) );

	int i = 17;
	BOOST_CHECK_PREDICATE( is_even, (i) );

	using std::not_equal_to;
	BOOST_CHECK_PREDICATE( not_equal_to<int>(), (i)(17) );

	int j=15;
	BOOST_CHECK_PREDICATE( boost::bind( is_even, boost::bind( &foo, _1, _2 ) ), (i)(j) );

	unit_test_log.set_threshold_level( log_warnings );
	BOOST_WARN_PREDICATE( moo, (12)(i)(j) );

	unit_test_log.set_threshold_level( log_all_errors );
	std::list<int> l1, l2, l3;
	l1.push_back( 1 );
	l3.push_back( 1 );
	l1.push_back( 2 );
	l3.push_back( 3 );
	BOOST_CHECK_PREDICATE( compare_lists, (l1)(l2) );
	}

	//____________________________________________________________________________//

	TEST_CASE( test_BOOST_REQUIRE_PREDICATE )
	{
	int arg1 = 1;
	int arg2 = 2;

	using std::less_equal;
	CHECK_CRITICAL_TOOL_USAGE( BOOST_REQUIRE_PREDICATE( less_equal<int>(), (arg1)(arg2) ) );

	CHECK_CRITICAL_TOOL_USAGE( BOOST_REQUIRE_PREDICATE( less_equal<int>(), (arg2)(arg1) ) );
	}

	//____________________________________________________________________________//

	TEST_CASE( test_BOOST_CHECK_EQUAL_COLLECTIONS )
	{
	unit_test_log.set_threshold_level( log_all_errors );

	int pattern [] = { 1, 2, 3, 4, 5, 6, 7 };

	std::list<int> testlist;

	testlist.push_back( 1 );
	testlist.push_back( 2 );
	testlist.push_back( 4 ); // 3
	testlist.push_back( 4 );
	testlist.push_back( 5 );
	testlist.push_back( 7 ); // 6
	testlist.push_back( 7 );

	BOOST_CHECK_EQUAL_COLLECTIONS( testlist.begin(), testlist.end(), pattern, pattern+7 );
	BOOST_CHECK_EQUAL_COLLECTIONS( testlist.begin(), testlist.end(), pattern, pattern+2 );
	}

	//____________________________________________________________________________//

	TEST_CASE( test_BOOST_CHECK_BITWISE_EQUAL )
	{
	BOOST_CHECK_BITWISE_EQUAL( 0x16, 0x16 );

	BOOST_CHECK_BITWISE_EQUAL( (char)0x06, (char)0x16 );

	unit_test_log.set_threshold_level( log_warnings );
	BOOST_WARN_BITWISE_EQUAL( (char)0x26, (char)0x04 );

	unit_test_log.set_threshold_level( log_all_errors );
	CHECK_CRITICAL_TOOL_USAGE( BOOST_REQUIRE_BITWISE_EQUAL( (char)0x26, (int)0x26 ) );
	}

	//____________________________________________________________________________//

	struct A {
	friend std::ostream& operator<<( std::ostream& str, A const& ) { str << "struct A"; return str;}
	};

	TEST_CASE( test_BOOST_TEST_MESSAGE )
	{
	unit_test_log.set_threshold_level( log_messages );

	BOOST_TEST_MESSAGE( "still testing" );
	BOOST_TEST_MESSAGE( "1+1=" << 2 );

	int i = 2;
	BOOST_TEST_MESSAGE( i << "+" << i << "=" << (i+i) );

	A a = A();
	BOOST_TEST_MESSAGE( a );

	#if BOOST_TEST_USE_STD_LOCALE
	BOOST_TEST_MESSAGE( std::hex << std::showbase << 20 );
	#else
	BOOST_TEST_MESSAGE( "0x14" );
	#endif

	BOOST_TEST_MESSAGE( std::setw( 4 ) << 20 );
	}

	//____________________________________________________________________________//

	TEST_CASE( test_BOOST_TEST_CHECKPOINT )
	{
	BOOST_TEST_CHECKPOINT( "Going to do a silly things" );

	throw "some error";
	}

	//____________________________________________________________________________//

	bool foo() { throw 1; return true; }

	TEST_CASE( test_BOOST_TEST_PASSPOINT )
	{
	BOOST_CHECK( foo() );
	}

	//____________________________________________________________________________//

	TEST_CASE( test_BOOST_IS_DEFINED )
	{
	#define SYMBOL1
	#define SYMBOL2 std::cout
	#define ONE_ARG( arg ) arg
	#define TWO_ARG( arg1, arg2 ) BOOST_JOIN( arg1, arg2 )

	BOOST_CHECK( BOOST_IS_DEFINED(SYMBOL1) );
	BOOST_CHECK( BOOST_IS_DEFINED(SYMBOL2) );
	BOOST_CHECK( !BOOST_IS_DEFINED( SYMBOL3 ) );
	BOOST_CHECK( BOOST_IS_DEFINED( ONE_ARG(arg1) ) );
	BOOST_CHECK( !BOOST_IS_DEFINED( ONE_ARG1(arg1) ) );
	BOOST_CHECK( BOOST_IS_DEFINED( TWO_ARG(arg1,arg2) ) );
	BOOST_CHECK( !BOOST_IS_DEFINED( TWO_ARG1(arg1,arg2) ) );
	}

	//____________________________________________________________________________//

	// !! CHECK_SMALL

	// EOF