boost/test/data/monomorphic/zip.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 /// Defines monomorphic dataset based on zipping of 2 other monomorphic datasets // *************************************************************************** #ifndef BOOST_TEST_DATA_MONOMORPHIC_ZIP_HPP_102211GER #define BOOST_TEST_DATA_MONOMORPHIC_ZIP_HPP_102211GER // Boost.Test #include <boost/test/data/config.hpp> #if !defined(BOOST_TEST_NO_ZIP_COMPOSITION_AVAILABLE) || defined(BOOST_TEST_DOXYGEN_DOC__) #include <boost/test/data/monomorphic/fwd.hpp> #include <boost/test/data/monomorphic/sample_merge.hpp> #include <boost/core/enable_if.hpp> #include <boost/mpl/identity.hpp> #include <boost/test/detail/suppress_warnings.hpp> namespace boost { namespace unit_test { namespace data { namespace monomorphic { // ************************************************************************** // // ************** zip ************** // // ************************************************************************** // //! Zip datasets //! //! A zip of two datasets is a dataset whose arity is the sum of the operand datasets arity. The size is given by //! the function creating the instance (see @c operator^ on datasets). template<typename DataSet1, typename DataSet2> class zip { typedef typename boost::decay<DataSet1>::type dataset1_decay; typedef typename boost::decay<DataSet2>::type dataset2_decay; typedef typename dataset1_decay::iterator dataset1_iter; typedef typename dataset2_decay::iterator dataset2_iter; public: enum { arity = dataset1_decay::arity + dataset2_decay::arity }; struct iterator { // Constructor explicit iterator( dataset1_iter iter1, dataset2_iter iter2 ) : m_iter1( std::move( iter1 ) ) , m_iter2( std::move( iter2 ) ) {} using iterator_sample = decltype( sample_merge( *std::declval<dataset1_iter>(), *std::declval<dataset2_iter>()) ); // forward iterator interface auto operator*() const -> iterator_sample { return sample_merge( *m_iter1, *m_iter2 ); } void operator++() { ++m_iter1; ++m_iter2; } private: // Data members dataset1_iter m_iter1; dataset2_iter m_iter2; }; //! Constructor //! //! The datasets are moved and not copied. zip( DataSet1&& ds1, DataSet2&& ds2/*, data::size_t size*/ ) : m_ds1( std::forward<DataSet1>( ds1 ) ) , m_ds2( std::forward<DataSet2>( ds2 ) ) //, m_size( size ) {} //! Move constructor zip( zip&& j ) : m_ds1( std::forward<DataSet1>( j.m_ds1 ) ) , m_ds2( std::forward<DataSet2>( j.m_ds2 ) ) //, m_size( j.m_size ) {} // dataset interface data::size_t size() const { return zip_size(); } iterator begin() const { return iterator( m_ds1.begin(), m_ds2.begin() ); } private: // Data members DataSet1 m_ds1; DataSet2 m_ds2; //data::size_t m_size; //! Handles the sise of the resulting zipped dataset. data::size_t zip_size() const { data::size_t ds1_size = m_ds1.size(); data::size_t ds2_size = m_ds2.size(); if( ds1_size == ds2_size ) return ds1_size; if( ds1_size == 1 || ds1_size.is_inf() ) return ds2_size; if( ds2_size == 1 || ds2_size.is_inf() ) return ds1_size; BOOST_TEST_DS_ERROR( "Can't zip datasets of different sizes" ); } }; //____________________________________________________________________________// //! Zipped datasets results in a dataset. template<typename DataSet1, typename DataSet2> struct is_dataset<zip<DataSet1,DataSet2>> : mpl::true_ {}; //____________________________________________________________________________// namespace result_of { //! Result type of the zip operator. template<typename DS1Gen, typename DS2Gen> struct zip { typedef monomorphic::zip<typename DS1Gen::type,typename DS2Gen::type> type; }; } // namespace result_of //____________________________________________________________________________// //! Overload operator for zip support template<typename DataSet1, typename DataSet2> inline typename boost::lazy_enable_if_c<is_dataset<DataSet1>::value && is_dataset<DataSet2>::value, result_of::zip<mpl::identity<DataSet1>,mpl::identity<DataSet2>> >::type operator^( DataSet1&& ds1, DataSet2&& ds2 ) { return zip<DataSet1,DataSet2>( std::forward<DataSet1>( ds1 ), std::forward<DataSet2>( ds2 )/*, ds_detail::zip_size( ds1, ds2 )*/ ); } //____________________________________________________________________________// //! @overload boost::unit_test::data::monomorphic::operator^() template<typename DataSet1, typename DataSet2> inline typename boost::lazy_enable_if_c<is_dataset<DataSet1>::value && !is_dataset<DataSet2>::value, result_of::zip<mpl::identity<DataSet1>,data::result_of::make<DataSet2>> >::type operator^( DataSet1&& ds1, DataSet2&& ds2 ) { return std::forward<DataSet1>( ds1 ) ^ data::make( std::forward<DataSet2>( ds2 ) ); } //____________________________________________________________________________// //! @overload boost::unit_test::data::monomorphic::operator^() template<typename DataSet1, typename DataSet2> inline typename boost::lazy_enable_if_c<!is_dataset<DataSet1>::value && is_dataset<DataSet2>::value, result_of::zip<data::result_of::make<DataSet1>,mpl::identity<DataSet2>> >::type operator^( DataSet1&& ds1, DataSet2&& ds2 ) { return data::make( std::forward<DataSet1>( ds1 ) ) ^ std::forward<DataSet2>( ds2 ); } } // namespace monomorphic } // namespace data } // namespace unit_test } // namespace boost #include <boost/test/detail/enable_warnings.hpp> #endif // BOOST_TEST_NO_ZIP_COMPOSITION_AVAILABLE #endif // BOOST_TEST_DATA_MONOMORPHIC_ZIP_HPP_102211GER