boost/test/tools/old/impl.hpp
// (C) Copyright Gennadiy Rozental 2001. // 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: 74248 $ // // Description : implementation details for old toolbox // *************************************************************************** #ifndef BOOST_TEST_TOOLS_OLD_IMPL_HPP_012705GER #define BOOST_TEST_TOOLS_OLD_IMPL_HPP_012705GER // Boost.Test #include <boost/test/unit_test_log.hpp> #include <boost/test/tools/assertion_result.hpp> #include <boost/test/tools/floating_point_comparison.hpp> #include <boost/test/tools/detail/fwd.hpp> #include <boost/test/tools/detail/print_helper.hpp> // Boost #include <boost/limits.hpp> #include <boost/numeric/conversion/conversion_traits.hpp> // for numeric::conversion_traits #include <boost/type_traits/is_array.hpp> #include <boost/preprocessor/repetition/repeat.hpp> #include <boost/preprocessor/arithmetic/add.hpp> // STL #include <cstddef> // for std::size_t #include <climits> // for CHAR_BIT #include <boost/test/detail/suppress_warnings.hpp> //____________________________________________________________________________// namespace boost { namespace test_tools { namespace tt_detail { // ************************************************************************** // // ************** old TOOLBOX Implementation ************** // // ************************************************************************** // // This function adds level of indirection, but it makes sure we evaluate predicate // arguments only once #ifndef BOOST_TEST_PROD #define TEMPL_PARAMS( z, m, dummy ) , typename BOOST_JOIN( Arg, m ) #define FUNC_PARAMS( z, m, dummy ) \ , BOOST_JOIN( Arg, m ) const& BOOST_JOIN( arg, m ) \ , char const* BOOST_JOIN( BOOST_JOIN( arg, m ), _descr ) \ /**/ #define PRED_PARAMS( z, m, dummy ) BOOST_PP_COMMA_IF( m ) BOOST_JOIN( arg, m ) #define ARG_INFO( z, m, dummy ) \ , BOOST_JOIN( BOOST_JOIN( arg, m ), _descr ) \ , &static_cast<const unit_test::lazy_ostream&>(unit_test::lazy_ostream::instance() \ << ::boost::test_tools::tt_detail::print_helper( BOOST_JOIN( arg, m ) )) \ /**/ #define IMPL_FRWD( z, n, dummy ) \ template<typename Pred \ BOOST_PP_REPEAT_ ## z( BOOST_PP_ADD( n, 1 ), TEMPL_PARAMS, _ )> \ inline bool \ check_frwd( Pred P, unit_test::lazy_ostream const& assertion_descr, \ const_string file_name, std::size_t line_num, \ tool_level tl, check_type ct \ BOOST_PP_REPEAT_ ## z( BOOST_PP_ADD( n, 1 ), FUNC_PARAMS, _ ) \ ) \ { \ return \ report_assertion( P( BOOST_PP_REPEAT_ ## z(BOOST_PP_ADD(n, 1), PRED_PARAMS,_) ),\ assertion_descr, file_name, line_num, tl, ct, \ BOOST_PP_ADD( n, 1 ) \ BOOST_PP_REPEAT_ ## z( BOOST_PP_ADD( n, 1 ), ARG_INFO, _ ) \ ); \ } \ /**/ #ifndef BOOST_TEST_MAX_PREDICATE_ARITY #define BOOST_TEST_MAX_PREDICATE_ARITY 5 #endif BOOST_PP_REPEAT( BOOST_TEST_MAX_PREDICATE_ARITY, IMPL_FRWD, _ ) #undef TEMPL_PARAMS #undef FUNC_PARAMS #undef PRED_INFO #undef ARG_INFO #undef IMPL_FRWD #endif //____________________________________________________________________________// template <class Left, class Right> inline assertion_result equal_impl( Left const& left, Right const& right ) { return left == right; } //____________________________________________________________________________// inline assertion_result equal_impl( char* left, char const* right ) { return equal_impl( static_cast<char const*>(left), static_cast<char const*>(right) ); } inline assertion_result equal_impl( char const* left, char* right ) { return equal_impl( static_cast<char const*>(left), static_cast<char const*>(right) ); } inline assertion_result equal_impl( char* left, char* right ) { return equal_impl( static_cast<char const*>(left), static_cast<char const*>(right) ); } #if !defined( BOOST_NO_CWCHAR ) assertion_result BOOST_TEST_DECL equal_impl( wchar_t const* left, wchar_t const* right ); inline assertion_result equal_impl( wchar_t* left, wchar_t const* right ) { return equal_impl( static_cast<wchar_t const*>(left), static_cast<wchar_t const*>(right) ); } inline assertion_result equal_impl( wchar_t const* left, wchar_t* right ) { return equal_impl( static_cast<wchar_t const*>(left), static_cast<wchar_t const*>(right) ); } inline assertion_result equal_impl( wchar_t* left, wchar_t* right ) { return equal_impl( static_cast<wchar_t const*>(left), static_cast<wchar_t const*>(right) ); } #endif //____________________________________________________________________________// struct equal_impl_frwd { template <typename Left, typename Right> inline assertion_result call_impl( Left const& left, Right const& right, mpl::false_ ) const { return equal_impl( left, right ); } template <typename Left, typename Right> inline assertion_result call_impl( Left const& left, Right const& right, mpl::true_ ) const { return (*this)( right, &left[0] ); } template <typename Left, typename Right> inline assertion_result operator()( Left const& left, Right const& right ) const { typedef typename is_array<Left>::type left_is_array; return call_impl( left, right, left_is_array() ); } }; //____________________________________________________________________________// struct ne_impl { template <class Left, class Right> assertion_result operator()( Left const& left, Right const& right ) { return !equal_impl_frwd()( left, right ); } }; //____________________________________________________________________________// struct lt_impl { template <class Left, class Right> assertion_result operator()( Left const& left, Right const& right ) { return left < right; } }; //____________________________________________________________________________// struct le_impl { template <class Left, class Right> assertion_result operator()( Left const& left, Right const& right ) { return left <= right; } }; //____________________________________________________________________________// struct gt_impl { template <class Left, class Right> assertion_result operator()( Left const& left, Right const& right ) { return left > right; } }; //____________________________________________________________________________// struct ge_impl { template <class Left, class Right> assertion_result operator()( Left const& left, Right const& right ) { return left >= right; } }; //____________________________________________________________________________// struct equal_coll_impl { template <typename Left, typename Right> assertion_result operator()( Left left_begin, Left left_end, Right right_begin, Right right_end ) { assertion_result pr( true ); std::size_t pos = 0; for( ; left_begin != left_end && right_begin != right_end; ++left_begin, ++right_begin, ++pos ) { if( *left_begin != *right_begin ) { pr = false; pr.message() << "\nMismatch at position " << pos << ": " << ::boost::test_tools::tt_detail::print_helper(*left_begin) << " != " << ::boost::test_tools::tt_detail::print_helper(*right_begin); } } if( left_begin != left_end ) { std::size_t r_size = pos; while( left_begin != left_end ) { ++pos; ++left_begin; } pr = false; pr.message() << "\nCollections size mismatch: " << pos << " != " << r_size; } if( right_begin != right_end ) { std::size_t l_size = pos; while( right_begin != right_end ) { ++pos; ++right_begin; } pr = false; pr.message() << "\nCollections size mismatch: " << l_size << " != " << pos; } return pr; } }; //____________________________________________________________________________// struct bitwise_equal_impl { template <class Left, class Right> assertion_result operator()( Left const& left, Right const& right ) { assertion_result pr( true ); std::size_t left_bit_size = sizeof(Left)*CHAR_BIT; std::size_t right_bit_size = sizeof(Right)*CHAR_BIT; static Left const leftOne( 1 ); static Right const rightOne( 1 ); std::size_t total_bits = left_bit_size < right_bit_size ? left_bit_size : right_bit_size; for( std::size_t counter = 0; counter < total_bits; ++counter ) { if( ( left & ( leftOne << counter ) ) != ( right & ( rightOne << counter ) ) ) { pr = false; pr.message() << "\nMismatch at position " << counter; } } if( left_bit_size != right_bit_size ) { pr = false; pr.message() << "\nOperands bit sizes mismatch: " << left_bit_size << " != " << right_bit_size; } return pr; } }; //____________________________________________________________________________// template<typename FPT1, typename FPT2> struct comp_supertype { // deduce "better" type from types of arguments being compared // if one type is floating and the second integral we use floating type and // value of integral type is promoted to the floating. The same for float and double // But we don't want to compare two values of integral types using this tool. typedef typename numeric::conversion_traits<FPT1,FPT2>::supertype type; BOOST_STATIC_ASSERT_MSG( !is_integral<type>::value, "Only floating-point types can be compared!"); }; } // namespace tt_detail namespace fpc = math::fpc; // ************************************************************************** // // ************** check_is_close ************** // // ************************************************************************** // struct BOOST_TEST_DECL check_is_close_t { // Public typedefs typedef assertion_result result_type; template<typename FPT1, typename FPT2, typename ToleranceType> assertion_result operator()( FPT1 left, FPT2 right, ToleranceType tolerance ) const { fpc::close_at_tolerance<typename tt_detail::comp_supertype<FPT1,FPT2>::type> pred( tolerance, fpc::FPC_STRONG ); assertion_result ar( pred( left, right ) ); if( !ar ) ar.message() << pred.tested_rel_diff(); return ar; } }; //____________________________________________________________________________// template<typename FPT1, typename FPT2, typename ToleranceType> inline assertion_result check_is_close( FPT1 left, FPT2 right, ToleranceType tolerance ) { return check_is_close_t()( left, right, tolerance ); } //____________________________________________________________________________// // ************************************************************************** // // ************** check_is_small ************** // // ************************************************************************** // struct BOOST_TEST_DECL check_is_small_t { // Public typedefs typedef bool result_type; template<typename FPT> bool operator()( FPT fpv, FPT tolerance ) const { return fpc::is_small( fpv, tolerance ); } }; //____________________________________________________________________________// template<typename FPT> inline bool check_is_small( FPT fpv, FPT tolerance ) { return fpc::is_small( fpv, tolerance ); } //____________________________________________________________________________// } // namespace test_tools } // namespace boost #include <boost/test/detail/enable_warnings.hpp> #endif // BOOST_TEST_TOOLS_OLD_IMPL_HPP_012705GER