boost/type_traits/detail/has_binary_operator.hpp
// (C) Copyright 2009-2011 Frederic Bron, Robert Stewart, Steven Watanabe & Roman Perepelitsa. // // Use, modification and distribution are 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 http://www.boost.org/libs/type_traits for most recent version including documentation. #include <boost/config.hpp> #include <boost/type_traits/detail/config.hpp> // cannot include this header without getting warnings of the kind: // gcc: // warning: value computed is not used // warning: comparison between signed and unsigned integer expressions // msvc: // warning C4018: '<' : signed/unsigned mismatch // warning C4244: '+=' : conversion from 'double' to 'char', possible loss of data // warning C4547: '*' : operator before comma has no effect; expected operator with side-effect // warning C4800: 'int' : forcing value to bool 'true' or 'false' (performance warning) // warning C4804: '<' : unsafe use of type 'bool' in operation // warning C4805: '==' : unsafe mix of type 'bool' and type 'char' in operation // cannot find another implementation -> declared as system header to suppress these warnings. #if defined(__GNUC__) # pragma GCC system_header #elif defined(BOOST_MSVC) # pragma warning ( push ) # pragma warning ( disable : 4018 4244 4547 4800 4804 4805 4913 4133) # if BOOST_WORKAROUND(BOOST_MSVC_FULL_VER, >= 140050000) # pragma warning ( disable : 6334) # endif #endif #if defined(BOOST_TT_HAS_ACCURATE_BINARY_OPERATOR_DETECTION) #include <boost/type_traits/integral_constant.hpp> #include <boost/type_traits/make_void.hpp> #include <boost/type_traits/is_convertible.hpp> #include <boost/type_traits/is_void.hpp> #include <boost/type_traits/add_reference.hpp> #include <utility> namespace boost { namespace binary_op_detail { struct dont_care; template <class T, class U, class Ret, class = void> struct BOOST_JOIN(BOOST_TT_TRAIT_NAME, _ret_imp) : public boost::false_type {}; template <class T, class U, class Ret> struct BOOST_JOIN(BOOST_TT_TRAIT_NAME, _ret_imp)<T, U, Ret, typename boost::make_void<decltype(std::declval<typename add_reference<T>::type>() BOOST_TT_TRAIT_OP std::declval<typename add_reference<U>::type>())>::type> : public boost::integral_constant<bool, ::boost::is_convertible<decltype(std::declval<typename add_reference<T>::type>() BOOST_TT_TRAIT_OP std::declval<typename add_reference<U>::type>()), Ret>::value> {}; template <class T, class U, class = void > struct BOOST_JOIN(BOOST_TT_TRAIT_NAME, _void_imp) : public boost::false_type {}; template <class T, class U> struct BOOST_JOIN(BOOST_TT_TRAIT_NAME, _void_imp)<T, U, typename boost::make_void<decltype(std::declval<typename add_reference<T>::type>() BOOST_TT_TRAIT_OP std::declval<typename add_reference<U>::type>())>::type> : public boost::integral_constant<bool, ::boost::is_void<decltype(std::declval<typename add_reference<T>::type>() BOOST_TT_TRAIT_OP std::declval<typename add_reference<U>::type>())>::value> {}; template <class T, class U, class = void> struct BOOST_JOIN(BOOST_TT_TRAIT_NAME, _dc_imp) : public boost::false_type {}; template <class T, class U> struct BOOST_JOIN(BOOST_TT_TRAIT_NAME, _dc_imp)<T, U, typename boost::make_void<decltype(std::declval<typename add_reference<T>::type>() BOOST_TT_TRAIT_OP std::declval<typename add_reference<U>::type>())>::type> : public boost::true_type {}; } template <class T, class U = T, class Ret = boost::binary_op_detail::dont_care> struct BOOST_TT_TRAIT_NAME : public boost::binary_op_detail:: BOOST_JOIN(BOOST_TT_TRAIT_NAME, _ret_imp) <T, U, Ret> {}; template <class T, class U> struct BOOST_TT_TRAIT_NAME<T, U, void> : public boost::binary_op_detail:: BOOST_JOIN(BOOST_TT_TRAIT_NAME, _void_imp) <T, U> {}; template <class T, class U> struct BOOST_TT_TRAIT_NAME<T, U, boost::binary_op_detail::dont_care> : public boost::binary_op_detail:: BOOST_JOIN(BOOST_TT_TRAIT_NAME, _dc_imp) <T, U> {}; } #else #include <boost/type_traits/detail/yes_no_type.hpp> #include <boost/type_traits/integral_constant.hpp> #include <boost/type_traits/is_base_of.hpp> #include <boost/type_traits/is_const.hpp> #include <boost/type_traits/is_convertible.hpp> #include <boost/type_traits/is_fundamental.hpp> #include <boost/type_traits/is_integral.hpp> #include <boost/type_traits/is_pointer.hpp> #include <boost/type_traits/is_same.hpp> #include <boost/type_traits/is_void.hpp> #include <boost/type_traits/remove_cv.hpp> #include <boost/type_traits/remove_pointer.hpp> #include <boost/type_traits/remove_reference.hpp> #include <boost/type_traits/detail/is_likely_lambda.hpp> namespace boost { namespace detail { // This namespace ensures that argument-dependent name lookup does not mess things up. namespace BOOST_JOIN(BOOST_TT_TRAIT_NAME,_impl) { // 1. a function to have an instance of type T without requiring T to be default // constructible template <typename T> T &make(); // 2. we provide our operator definition for types that do not have one already // a type returned from operator BOOST_TT_TRAIT_OP when no such operator is // found in the type's own namespace (our own operator is used) so that we have // a means to know that our operator was used struct no_operator { }; // this class allows implicit conversions and makes the following operator // definition less-preferred than any other such operators that might be found // via argument-dependent name lookup struct any { template <class T> any(T const&); }; // when operator BOOST_TT_TRAIT_OP is not available, this one is used no_operator operator BOOST_TT_TRAIT_OP (const any&, const any&); // 3. checks if the operator returns void or not // conditions: Lhs!=void and Rhs!=void // we first redefine "operator," so that we have no compilation error if // operator BOOST_TT_TRAIT_OP returns void and we can use the return type of // (lhs BOOST_TT_TRAIT_OP rhs, returns_void_t()) to deduce if // operator BOOST_TT_TRAIT_OP returns void or not: // - operator BOOST_TT_TRAIT_OP returns void -> (lhs BOOST_TT_TRAIT_OP rhs, returns_void_t()) returns returns_void_t // - operator BOOST_TT_TRAIT_OP returns !=void -> (lhs BOOST_TT_TRAIT_OP rhs, returns_void_t()) returns int struct returns_void_t { }; template <typename T> int operator,(const T&, returns_void_t); template <typename T> int operator,(const volatile T&, returns_void_t); // this intermediate trait has member value of type bool: // - value==true -> operator BOOST_TT_TRAIT_OP returns void // - value==false -> operator BOOST_TT_TRAIT_OP does not return void template < typename Lhs, typename Rhs > struct operator_returns_void { // overloads of function returns_void make the difference // yes_type and no_type have different size by construction static ::boost::type_traits::yes_type returns_void(returns_void_t); static ::boost::type_traits::no_type returns_void(int); BOOST_STATIC_CONSTANT(bool, value = (sizeof(::boost::type_traits::yes_type)==sizeof(returns_void((make<Lhs>() BOOST_TT_TRAIT_OP make<Rhs>(),returns_void_t()))))); }; // 4. checks if the return type is Ret or Ret==dont_care // conditions: Lhs!=void and Rhs!=void struct dont_care { }; template < typename Lhs, typename Rhs, typename Ret, bool Returns_void > struct operator_returns_Ret; template < typename Lhs, typename Rhs > struct operator_returns_Ret < Lhs, Rhs, dont_care, true > { BOOST_STATIC_CONSTANT(bool, value = true); }; template < typename Lhs, typename Rhs > struct operator_returns_Ret < Lhs, Rhs, dont_care, false > { BOOST_STATIC_CONSTANT(bool, value = true); }; template < typename Lhs, typename Rhs > struct operator_returns_Ret < Lhs, Rhs, void, true > { BOOST_STATIC_CONSTANT(bool, value = true); }; template < typename Lhs, typename Rhs > struct operator_returns_Ret < Lhs, Rhs, void, false > { BOOST_STATIC_CONSTANT(bool, value = false); }; template < typename Lhs, typename Rhs, typename Ret > struct operator_returns_Ret < Lhs, Rhs, Ret, true > { BOOST_STATIC_CONSTANT(bool, value = false); }; // otherwise checks if it is convertible to Ret using the sizeof trick // based on overload resolution // condition: Ret!=void and Ret!=dont_care and the operator does not return void template < typename Lhs, typename Rhs, typename Ret > struct operator_returns_Ret < Lhs, Rhs, Ret, false > { static ::boost::type_traits::yes_type is_convertible_to_Ret(Ret); // this version is preferred for types convertible to Ret static ::boost::type_traits::no_type is_convertible_to_Ret(...); // this version is used otherwise BOOST_STATIC_CONSTANT(bool, value = (sizeof(is_convertible_to_Ret(make<Lhs>() BOOST_TT_TRAIT_OP make<Rhs>()))==sizeof(::boost::type_traits::yes_type))); }; // 5. checks for operator existence // condition: Lhs!=void and Rhs!=void // checks if our definition of operator BOOST_TT_TRAIT_OP is used or an other // existing one; // this is done with redefinition of "operator," that returns no_operator or has_operator struct has_operator { }; no_operator operator,(no_operator, has_operator); template < typename Lhs, typename Rhs > struct operator_exists { static ::boost::type_traits::yes_type s_check(has_operator); // this version is preferred when operator exists static ::boost::type_traits::no_type s_check(no_operator); // this version is used otherwise BOOST_STATIC_CONSTANT(bool, value = (sizeof(s_check(((make<Lhs>() BOOST_TT_TRAIT_OP make<Rhs>()),make<has_operator>())))==sizeof(::boost::type_traits::yes_type))); }; // 6. main trait: to avoid any compilation error, this class behaves // differently when operator BOOST_TT_TRAIT_OP(Lhs, Rhs) is forbidden by the // standard. // Forbidden_if is a bool that is: // - true when the operator BOOST_TT_TRAIT_OP(Lhs, Rhs) is forbidden by the standard // (would yield compilation error if used) // - false otherwise template < typename Lhs, typename Rhs, typename Ret, bool Forbidden_if > struct trait_impl1; template < typename Lhs, typename Rhs, typename Ret > struct trait_impl1 < Lhs, Rhs, Ret, true > { BOOST_STATIC_CONSTANT(bool, value = false); }; template < typename Lhs, typename Rhs, typename Ret > struct trait_impl1 < Lhs, Rhs, Ret, false > { BOOST_STATIC_CONSTANT(bool, value = (operator_exists < Lhs, Rhs >::value && operator_returns_Ret < Lhs, Rhs, Ret, operator_returns_void < Lhs, Rhs >::value >::value)); }; // some specializations needs to be declared for the special void case template < typename Rhs, typename Ret > struct trait_impl1 < void, Rhs, Ret, false > { BOOST_STATIC_CONSTANT(bool, value = false); }; template < typename Lhs, typename Ret > struct trait_impl1 < Lhs, void, Ret, false > { BOOST_STATIC_CONSTANT(bool, value = false); }; template < typename Ret > struct trait_impl1 < void, void, Ret, false > { BOOST_STATIC_CONSTANT(bool, value = false); }; // defines some typedef for convenience template < typename Lhs, typename Rhs, typename Ret > struct trait_impl { typedef typename ::boost::remove_reference<Lhs>::type Lhs_noref; typedef typename ::boost::remove_reference<Rhs>::type Rhs_noref; typedef typename ::boost::remove_cv<Lhs_noref>::type Lhs_nocv; typedef typename ::boost::remove_cv<Rhs_noref>::type Rhs_nocv; typedef typename ::boost::remove_cv< typename ::boost::remove_reference< typename ::boost::remove_pointer<Lhs_noref>::type >::type >::type Lhs_noptr; typedef typename ::boost::remove_cv< typename ::boost::remove_reference< typename ::boost::remove_pointer<Rhs_noref>::type >::type >::type Rhs_noptr; BOOST_STATIC_CONSTANT(bool, value = (trait_impl1 < Lhs_noref, Rhs_noref, Ret, BOOST_TT_FORBIDDEN_IF >::value)); }; } // namespace impl } // namespace detail // this is the accessible definition of the trait to end user template <class Lhs, class Rhs=Lhs, class Ret=::boost::detail::BOOST_JOIN(BOOST_TT_TRAIT_NAME,_impl)::dont_care> struct BOOST_TT_TRAIT_NAME : public integral_constant<bool, (::boost::detail::BOOST_JOIN(BOOST_TT_TRAIT_NAME, _impl)::trait_impl < Lhs, Rhs, Ret >::value)>{}; } // namespace boost #endif #if defined(BOOST_MSVC) # pragma warning ( pop ) #endif