// (c) Copyright Fernando Luis Cacciola Carballal 2000-2004 // 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) // See library home page at http://www.boost.org/libs/numeric/conversion // // Contact the author at: fernando_cacciola@hotmail.com // #ifndef BOOST_NUMERIC_CONVERSION_DETAIL_IS_SUBRANGED_FLC_12NOV2002_HPP #define BOOST_NUMERIC_CONVERSION_DETAIL_IS_SUBRANGED_FLC_12NOV2002_HPP #include "boost/config.hpp" #include "boost/limits.hpp" #include "boost/mpl/int.hpp" #include "boost/mpl/multiplies.hpp" #include "boost/mpl/less.hpp" #include "boost/mpl/equal_to.hpp" #include "boost/type_traits/is_same.hpp" #include "boost/numeric/conversion/detail/meta.hpp" #include "boost/numeric/conversion/detail/int_float_mixture.hpp" #include "boost/numeric/conversion/detail/sign_mixture.hpp" #include "boost/numeric/conversion/detail/udt_builtin_mixture.hpp" namespace lslboost { namespace numeric { namespace convdetail { //--------------------------------------------------------------- // Implementations of the compile time predicate "T is subranged" //--------------------------------------------------------------- // for integral to integral conversions template struct subranged_Sig2Unsig { // Signed to unsigned conversions are 'subranged' because of possible loose // of negative values. typedef mpl::true_ type ; } ; // for unsigned integral to signed integral conversions template struct subranged_Unsig2Sig { // IMPORTANT NOTE: // // This code assumes that signed/unsigned integral values are represented // such that: // // numeric_limits::digits + 1 == numeric_limits::digits // // The '+1' is required since numeric_limits<>::digits gives 1 bit less for signed integral types. // // This fact is used by the following logic: // // if ( (numeric_limits::digits+1) < (2*numeric_limits::digits) ) // then the conversion is subranged. // typedef mpl::int_< ::std::numeric_limits::digits > S_digits ; typedef mpl::int_< ::std::numeric_limits::digits > T_digits ; // T is signed, so take digits+1 typedef typename T_digits::next u_T_digits ; typedef mpl::int_<2> Two ; typedef typename mpl::multiplies::type S_digits_times_2 ; typedef typename mpl::less::type type ; } ; // for integral to integral conversions of the same sign. template struct subranged_SameSign { // An integral conversion of the same sign is subranged if digits(T) < digits(S). typedef mpl::int_< ::std::numeric_limits::digits > S_digits ; typedef mpl::int_< ::std::numeric_limits::digits > T_digits ; typedef typename mpl::less::type type ; } ; // for integral to float conversions template struct subranged_Int2Float { typedef mpl::false_ type ; } ; // for float to integral conversions template struct subranged_Float2Int { typedef mpl::true_ type ; } ; // for float to float conversions template struct subranged_Float2Float { // If both T and S are floats, // compare exponent bits and if they match, mantisa bits. typedef mpl::int_< ::std::numeric_limits::digits > S_mantisa ; typedef mpl::int_< ::std::numeric_limits::digits > T_mantisa ; typedef mpl::int_< ::std::numeric_limits::max_exponent > S_exponent ; typedef mpl::int_< ::std::numeric_limits::max_exponent > T_exponent ; typedef typename mpl::less::type T_smaller_exponent ; typedef typename mpl::equal_to::type equal_exponents ; typedef mpl::less T_smaller_mantisa ; typedef mpl::eval_if not_bigger_exponent_case ; typedef typename mpl::eval_if::type type ; } ; // for Udt to built-in conversions template struct subranged_Udt2BuiltIn { typedef mpl::true_ type ; } ; // for built-in to Udt conversions template struct subranged_BuiltIn2Udt { typedef mpl::false_ type ; } ; // for Udt to Udt conversions template struct subranged_Udt2Udt { typedef mpl::false_ type ; } ; //------------------------------------------------------------------- // Selectors for the implementations of the subranged predicate //------------------------------------------------------------------- template struct get_subranged_Int2Int { typedef subranged_SameSign Sig2Sig ; typedef subranged_Sig2Unsig Sig2Unsig ; typedef subranged_Unsig2Sig Unsig2Sig ; typedef Sig2Sig Unsig2Unsig ; typedef typename get_sign_mixture::type sign_mixture ; typedef typename for_sign_mixture::type type ; } ; template struct get_subranged_BuiltIn2BuiltIn { typedef get_subranged_Int2Int Int2IntQ ; typedef subranged_Int2Float Int2Float ; typedef subranged_Float2Int Float2Int ; typedef subranged_Float2Float Float2Float ; typedef mpl::identity Int2FloatQ ; typedef mpl::identity Float2IntQ ; typedef mpl::identity Float2FloatQ ; typedef typename get_int_float_mixture::type int_float_mixture ; typedef for_int_float_mixture for_ ; typedef typename for_::type selected ; typedef typename selected::type type ; } ; template struct get_subranged { typedef get_subranged_BuiltIn2BuiltIn BuiltIn2BuiltInQ ; typedef subranged_BuiltIn2Udt BuiltIn2Udt ; typedef subranged_Udt2BuiltIn Udt2BuiltIn ; typedef subranged_Udt2Udt Udt2Udt ; typedef mpl::identity BuiltIn2UdtQ ; typedef mpl::identity Udt2BuiltInQ ; typedef mpl::identity Udt2UdtQ ; typedef typename get_udt_builtin_mixture::type udt_builtin_mixture ; typedef typename for_udt_builtin_mixture::type selected ; typedef typename selected::type selected2 ; typedef typename selected2::type type ; } ; //------------------------------------------------------------------- // Top level implementation selector. //------------------------------------------------------------------- template struct get_is_subranged { typedef get_subranged non_trivial_case ; typedef mpl::identity trivial_case ; typedef is_same is_trivial ; typedef typename mpl::if_::type selected ; typedef typename selected::type type ; } ; } } } // namespace lslboost::numeric::convdetail #endif