//----------------------------------------------------------------------------- // boost variant/variant.hpp header file // See http://www.boost.org for updates, documentation, and revision history. //----------------------------------------------------------------------------- // // Copyright (c) 2002-2003 // Eric Friedman, Itay Maman // // 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) #ifndef BOOST_VARIANT_VARIANT_HPP #define BOOST_VARIANT_VARIANT_HPP #include <cstddef> // for std::size_t #include <new> // for placement new #if !defined(BOOST_NO_TYPEID) #include <typeinfo> // for typeid, std::type_info #endif // BOOST_NO_TYPEID #include "boost/variant/detail/config.hpp" #include "boost/mpl/aux_/config/eti.hpp" #include "boost/mpl/aux_/value_wknd.hpp" #include "boost/variant/variant_fwd.hpp" #include "boost/variant/detail/backup_holder.hpp" #include "boost/variant/detail/enable_recursive_fwd.hpp" #include "boost/variant/detail/forced_return.hpp" #include "boost/variant/detail/initializer.hpp" #include "boost/variant/detail/make_variant_list.hpp" #include "boost/variant/detail/over_sequence.hpp" #include "boost/variant/detail/visitation_impl.hpp" #include "boost/variant/detail/generic_result_type.hpp" #include "boost/variant/detail/has_nothrow_move.hpp" #include "boost/variant/detail/move.hpp" #include "boost/detail/reference_content.hpp" #include "boost/aligned_storage.hpp" #include "boost/blank.hpp" #include "boost/static_assert.hpp" #include "boost/preprocessor/cat.hpp" #include "boost/preprocessor/repeat.hpp" #include "boost/type_traits/alignment_of.hpp" #include "boost/type_traits/add_const.hpp" #include "boost/type_traits/has_nothrow_constructor.hpp" #include "boost/type_traits/has_nothrow_copy.hpp" #include "boost/type_traits/is_const.hpp" #include "boost/type_traits/is_same.hpp" #include "boost/utility/enable_if.hpp" #include "boost/variant/recursive_wrapper_fwd.hpp" #include "boost/variant/static_visitor.hpp" #include "boost/mpl/eval_if.hpp" #include "boost/mpl/begin_end.hpp" #include "boost/mpl/bool.hpp" #include "boost/mpl/not.hpp" #include "boost/mpl/empty.hpp" #include "boost/mpl/find_if.hpp" #include "boost/mpl/front.hpp" #include "boost/mpl/identity.hpp" #include "boost/mpl/if.hpp" #include "boost/mpl/int.hpp" #include "boost/mpl/is_sequence.hpp" #include "boost/mpl/iterator_range.hpp" #include "boost/mpl/iter_fold_if.hpp" #include "boost/mpl/logical.hpp" #include "boost/mpl/max_element.hpp" #include "boost/mpl/next.hpp" #include "boost/mpl/deref.hpp" #include "boost/mpl/pair.hpp" #include "boost/mpl/protect.hpp" #include "boost/mpl/push_front.hpp" #include "boost/mpl/same_as.hpp" #include "boost/mpl/size_t.hpp" #include "boost/mpl/sizeof.hpp" #include "boost/mpl/transform.hpp" #include "boost/mpl/assert.hpp" /////////////////////////////////////////////////////////////////////////////// // Implementation Macros: // // BOOST_VARIANT_VISITATION_UNROLLING_LIMIT // Defined in boost/variant/detail/visitation_impl.hpp. // // BOOST_VARIANT_MINIMIZE_SIZE // When #defined, implementation employs all known means to minimize the // size of variant obje cts. However, often unsuccessful due to alignment // issues, and potentially harmful to runtime speed, so not enabled by // default. (TODO: Investigate further.) #if defined(BOOST_VARIANT_MINIMIZE_SIZE) # include <climits> // for SCHAR_MAX # include "boost/mpl/eval_if.hpp" # include "boost/mpl/equal_to.hpp" # include "boost/mpl/identity.hpp" # include "boost/mpl/int.hpp" # include "boost/mpl/if.hpp" # include "boost/mpl/less.hpp" # include "boost/mpl/long.hpp" # include "boost/mpl/O1_size.hpp" #endif namespace boost { namespace detail { namespace variant { /////////////////////////////////////////////////////////////////////////////// // (detail) metafunction max_value // // Finds the maximum value of the unary metafunction F over Sequence. // template <typename Sequence, typename F> struct max_value { private: // helpers, for metafunction result (below) typedef typename mpl::transform1<Sequence, F>::type transformed_; typedef typename mpl::max_element<transformed_ >::type max_it; public: // metafunction result typedef typename mpl::deref<max_it>::type type; }; /////////////////////////////////////////////////////////////////////////////// // (detail) metafunction find_fallback_type // // Provides a fallback (i.e., nothrow default-constructible) type from the // specified sequence, or no_fallback_type if not found. // // This implementation is designed to prefer boost::blank over other potential // fallback types, regardless of its position in the specified sequence. // class no_fallback_type; struct find_fallback_type_pred { template <typename Iterator> struct apply { private: typedef typename mpl::deref<Iterator>::type t_; public: typedef mpl::not_< has_nothrow_constructor<t_> > type; }; }; template <typename Types> struct find_fallback_type { private: // helpers, for metafunction result (below) typedef typename mpl::end<Types>::type end_it; // [Find the first suitable fallback type...] typedef typename mpl::iter_fold_if< Types , mpl::int_<0>, mpl::protect< mpl::next<> > , mpl::protect< find_fallback_type_pred > >::type first_result_; typedef typename first_result_::first first_result_index; typedef typename first_result_::second first_result_it; // [...now search the rest of the sequence for boost::blank...] typedef typename mpl::iter_fold_if< mpl::iterator_range< first_result_it,end_it > , first_result_index, mpl::protect< mpl::next<> > , mpl::protect< mpl::not_same_as<boost::blank> > >::type second_result_; typedef typename second_result_::second second_result_it; public: // metafunction result // [...and return the results of the search:] typedef typename mpl::eval_if< is_same< second_result_it,end_it > , mpl::if_< is_same< first_result_it,end_it > , mpl::pair< no_fallback_type,no_fallback_type > , first_result_ > , mpl::identity< second_result_ > >::type type; }; #if defined(BOOST_MPL_CFG_MSVC_60_ETI_BUG) template<> struct find_fallback_type<int> { typedef mpl::pair< no_fallback_type,no_fallback_type > type; }; #endif // BOOST_MPL_CFG_MSVC_60_ETI_BUG workaround /////////////////////////////////////////////////////////////////////////////// // (detail) metafunction make_storage // // Provides an aligned storage type capable of holding any of the types // specified in the given type-sequence. // template <typename Types, typename NeverUsesBackupFlag> struct make_storage { private: // helpers, for metafunction result (below) typedef typename mpl::eval_if< NeverUsesBackupFlag , mpl::identity< Types > , mpl::push_front< Types, backup_holder<void*> > >::type types; typedef typename max_value< types, mpl::sizeof_<mpl::_1> >::type max_size; #if !BOOST_WORKAROUND(__BORLANDC__, BOOST_TESTED_AT(0x0551)) typedef typename max_value< types, alignment_of<mpl::_1> >::type max_alignment; #else // borland // temporary workaround -- use maximal alignment typedef mpl::size_t< -1 > max_alignment; #endif // borland workaround public: // metafunction result #if !BOOST_WORKAROUND(BOOST_MSVC, <= 1300) typedef ::boost::aligned_storage< BOOST_MPL_AUX_VALUE_WKND(max_size)::value , BOOST_MPL_AUX_VALUE_WKND(max_alignment)::value > type; #else // MSVC7 and below BOOST_STATIC_CONSTANT(std::size_t, msvc_max_size_c = max_size::value); BOOST_STATIC_CONSTANT(std::size_t, msvc_max_alignment_c = max_alignment::value); typedef ::boost::aligned_storage< msvc_max_size_c , msvc_max_alignment_c > type; #endif // MSVC workaround }; #if defined(BOOST_MPL_CFG_MSVC_60_ETI_BUG) template<> struct make_storage<int,int> { typedef int type; }; #endif // BOOST_MPL_CFG_MSVC_60_ETI_BUG workaround /////////////////////////////////////////////////////////////////////////////// // (detail) class destroyer // // Internal visitor that destroys the value it visits. // struct destroyer : public static_visitor<> { public: // visitor interfaces template <typename T> BOOST_VARIANT_AUX_RETURN_VOID_TYPE internal_visit(T& operand, int) const { operand.~T(); #if BOOST_WORKAROUND(__BORLANDC__, BOOST_TESTED_AT(0x0551)) || \ BOOST_WORKAROUND(BOOST_MSVC, BOOST_TESTED_AT(1600)) operand; // suppresses warnings #endif BOOST_VARIANT_AUX_RETURN_VOID; } }; /////////////////////////////////////////////////////////////////////////////// // (detail) class template known_get // // Visitor that returns a reference to content of the specified type. // // Precondition: visited variant MUST contain logical content of type T. // template <typename T> class known_get : public static_visitor<T&> { #if !BOOST_WORKAROUND(BOOST_MSVC, < 1300) public: // visitor interface T& operator()(T& operand) const { return operand; } template <typename U> T& operator()(U&) const { // logical error to be here: see precondition above BOOST_ASSERT(false); return ::boost::detail::variant::forced_return< T& >(); } #else // MSVC6 private: // helpers, for visitor interface (below) T& execute(T& operand, mpl::true_) const { return operand; } template <typename U> T& execute(U& operand, mpl::false_) const { // logical error to be here: see precondition above BOOST_ASSERT(false); return ::boost::detail::variant::forced_return< T& >(); } public: // visitor interface template <typename U> T& operator()(U& operand) const { typedef typename is_same< U,T >::type U_is_T; return execute(operand, U_is_T()); } #endif // MSVC6 workaround }; /////////////////////////////////////////////////////////////////////////////// // (detail) class copy_into // // Internal visitor that copies the value it visits into the given buffer. // class copy_into : public static_visitor<> { private: // representation void* storage_; public: // structors explicit copy_into(void* storage) : storage_(storage) { } public: // internal visitor interface template <typename T> BOOST_VARIANT_AUX_RETURN_VOID_TYPE internal_visit(boost::detail::variant::backup_holder<T>& operand, long) const { new(storage_) T( operand.get() ); BOOST_VARIANT_AUX_RETURN_VOID; } template <typename T> BOOST_VARIANT_AUX_RETURN_VOID_TYPE internal_visit(const boost::detail::variant::backup_holder<T>& operand, long) const { new(storage_) T( operand.get() ); BOOST_VARIANT_AUX_RETURN_VOID; } template <typename T> BOOST_VARIANT_AUX_RETURN_VOID_TYPE internal_visit(const T& operand, int) const { new(storage_) T(operand); BOOST_VARIANT_AUX_RETURN_VOID; } }; /////////////////////////////////////////////////////////////////////////////// // (detail) class assign_storage // // Internal visitor that assigns the given storage (which must be a // constructed value of the same type) to the value it visits. // struct assign_storage : public static_visitor<> { private: // representation const void* rhs_storage_; public: // structors explicit assign_storage(const void* rhs_storage) : rhs_storage_(rhs_storage) { } public: // internal visitor interfaces template <typename T> BOOST_VARIANT_AUX_RETURN_VOID_TYPE internal_visit(backup_holder<T>& lhs_content, long) const { lhs_content.get() = static_cast< const backup_holder<T>* >(rhs_storage_)->get(); BOOST_VARIANT_AUX_RETURN_VOID; } template <typename T> BOOST_VARIANT_AUX_RETURN_VOID_TYPE internal_visit(const backup_holder<T>& lhs_content, long) const { lhs_content.get() = static_cast< const backup_holder<T>* >(rhs_storage_)->get(); BOOST_VARIANT_AUX_RETURN_VOID; } template <typename T> BOOST_VARIANT_AUX_RETURN_VOID_TYPE internal_visit(T& lhs_content, int) const { // NOTE TO USER : // Compile error here indicates one of variant's bounded types does // not meet the requirements of the Assignable concept. Thus, // variant is not Assignable. // // Hint: Are any of the bounded types const-qualified or references? // lhs_content = *static_cast< const T* >(rhs_storage_); BOOST_VARIANT_AUX_RETURN_VOID; } }; /////////////////////////////////////////////////////////////////////////////// // (detail) class direct_assigner // // Generic static visitor that: if and only if the visited value is of the // specified type, assigns the given value to the visited value and returns // true; else returns false. // template <typename T> class direct_assigner : public static_visitor<bool> { private: // representation const T& rhs_; public: // structors explicit direct_assigner(const T& rhs) : rhs_(rhs) { } #if !BOOST_WORKAROUND(BOOST_MSVC, < 1300) public: // visitor interface bool operator()(T& lhs) { lhs = rhs_; return true; } template <typename U> bool operator()(U&) { return false; } #else // MSVC6 private: // helpers, for visitor interface (below) bool execute(T& lhs, mpl::true_) { lhs = rhs_; return true; } template <typename U> bool execute(U&, mpl::false_) { return false; } public: // visitor interface template <typename U> bool operator()(U& lhs) { typedef typename is_same<U,T>::type U_is_T; return execute(lhs, U_is_T()); } #endif // MSVC6 workaround #if BOOST_WORKAROUND(BOOST_MSVC, BOOST_TESTED_AT(1600)) private: // silence MSVC warning C4512: assignment operator could not be generated direct_assigner& operator= (direct_assigner const&); #endif }; /////////////////////////////////////////////////////////////////////////////// // (detail) class backup_assigner // // Internal visitor that "assigns" the given value to the visited value, // using backup to recover if the destroy-copy sequence fails. // // NOTE: This needs to be a friend of variant, as it needs access to // indicate_which, indicate_backup_which, etc. // template <typename Variant, typename RhsT> class backup_assigner : public static_visitor<> { private: // representation Variant& lhs_; int rhs_which_; const RhsT& rhs_content_; public: // structors backup_assigner(Variant& lhs, int rhs_which, const RhsT& rhs_content) : lhs_(lhs) , rhs_which_(rhs_which) , rhs_content_(rhs_content) { } private: // helpers, for visitor interface (below) template <typename LhsT> void backup_assign_impl( LhsT& lhs_content , mpl::true_// has_nothrow_move ) { // Move lhs content to backup... LhsT backup_lhs_content( ::boost::detail::variant::move(lhs_content) ); // nothrow // ...destroy lhs content... lhs_content.~LhsT(); // nothrow try { // ...and attempt to copy rhs content into lhs storage: new(lhs_.storage_.address()) RhsT(rhs_content_); } catch (...) { // In case of failure, restore backup content to lhs storage... new(lhs_.storage_.address()) LhsT( ::boost::detail::variant::move(backup_lhs_content) ); // nothrow // ...and rethrow: throw; } // In case of success, indicate new content type: lhs_.indicate_which(rhs_which_); // nothrow } template <typename LhsT> void backup_assign_impl( LhsT& lhs_content , mpl::false_// has_nothrow_move ) { // Backup lhs content... LhsT* backup_lhs_ptr = new LhsT(lhs_content); // ...destroy lhs content... lhs_content.~LhsT(); // nothrow try { // ...and attempt to copy rhs content into lhs storage: new(lhs_.storage_.address()) RhsT(rhs_content_); } catch (...) { // In case of failure, copy backup pointer to lhs storage... new(lhs_.storage_.address()) backup_holder<LhsT>( backup_lhs_ptr ); // nothrow // ...indicate now using backup... lhs_.indicate_backup_which( lhs_.which() ); // nothrow // ...and rethrow: throw; } // In case of success, indicate new content type... lhs_.indicate_which(rhs_which_); // nothrow // ...and delete backup: delete backup_lhs_ptr; // nothrow } public: // visitor interface template <typename LhsT> BOOST_VARIANT_AUX_RETURN_VOID_TYPE internal_visit(LhsT& lhs_content, int) { typedef typename has_nothrow_move_constructor<LhsT>::type nothrow_move; backup_assign_impl( lhs_content, nothrow_move() ); BOOST_VARIANT_AUX_RETURN_VOID; } #if BOOST_WORKAROUND(BOOST_MSVC, BOOST_TESTED_AT(1600)) private: // silence MSVC warning C4512: assignment operator could not be generated backup_assigner& operator= (backup_assigner const&); #endif }; /////////////////////////////////////////////////////////////////////////////// // (detail) class swap_with // // Visitor that swaps visited value with content of given variant. // // Precondition: Given variant MUST have same logical type as visited value. // template <typename Variant> struct swap_with : public static_visitor<> { private: // representation Variant& toswap_; public: // structors explicit swap_with(Variant& toswap) : toswap_(toswap) { } public: // internal visitor interfaces template <typename T> void operator()(T& operand) const { // Since the precondition ensures types are same, get T... known_get<T> getter; T& other = toswap_.apply_visitor(getter); // ...and swap: ::boost::detail::variant::move_swap( operand, other ); } private: swap_with& operator=(const swap_with&); }; /////////////////////////////////////////////////////////////////////////////// // (detail) class reflect // // Generic static visitor that performs a typeid on the value it visits. // #if !defined(BOOST_NO_TYPEID) class reflect : public static_visitor<const std::type_info&> { public: // visitor interfaces template <typename T> const std::type_info& operator()(const T&) const { return typeid(T); } }; #endif // BOOST_NO_TYPEID /////////////////////////////////////////////////////////////////////////////// // (detail) class comparer // // Generic static visitor that compares the content of the given lhs variant // with the visited rhs content using Comp. // // Precondition: lhs.which() == rhs.which() // template <typename Variant, typename Comp> class comparer : public static_visitor<bool> { private: // representation const Variant& lhs_; public: // structors explicit comparer(const Variant& lhs) : lhs_(lhs) { } public: // visitor interfaces template <typename T> bool operator()(const T& rhs_content) const { // Since the precondition ensures lhs and rhs types are same, get T... known_get<const T> getter; const T& lhs_content = lhs_.apply_visitor(getter); // ...and compare lhs and rhs contents: return Comp()(lhs_content, rhs_content); } private: comparer& operator=(const comparer&); }; /////////////////////////////////////////////////////////////////////////////// // (detail) class equal_comp // // Generic function object compares lhs with rhs using operator==. // struct equal_comp { template <typename T> bool operator()(const T& lhs, const T& rhs) const { return lhs == rhs; } }; /////////////////////////////////////////////////////////////////////////////// // (detail) class less_comp // // Generic function object compares lhs with rhs using operator<. // struct less_comp { template <typename T> bool operator()(const T& lhs, const T& rhs) const { return lhs < rhs; } }; /////////////////////////////////////////////////////////////////////////////// // (detail) class template invoke_visitor // // Internal visitor that invokes the given visitor using: // * for wrappers (e.g., recursive_wrapper), the wrapper's held value. // * for all other values, the value itself. // template <typename Visitor> class invoke_visitor { private: // representation Visitor& visitor_; public: // visitor typedefs typedef typename Visitor::result_type result_type; public: // structors explicit invoke_visitor(Visitor& visitor) : visitor_(visitor) { } #if !defined(BOOST_NO_VOID_RETURNS) public: // internal visitor interfaces template <typename T> result_type internal_visit(T& operand, int) { return visitor_(operand); } # if BOOST_WORKAROUND(__BORLANDC__, BOOST_TESTED_AT(0x0564)) template <typename T> result_type internal_visit(const T& operand, int) { return visitor_(operand); } # endif #else // defined(BOOST_NO_VOID_RETURNS) private: // helpers, for internal visitor interfaces (below) template <typename T> BOOST_VARIANT_AUX_GENERIC_RESULT_TYPE(result_type) visit_impl(T& operand, mpl::false_) { return visitor_(operand); } template <typename T> BOOST_VARIANT_AUX_RETURN_VOID_TYPE visit_impl(T& operand, mpl::true_) { visitor_(operand); BOOST_VARIANT_AUX_RETURN_VOID; } public: // internal visitor interfaces template <typename T> BOOST_VARIANT_AUX_GENERIC_RESULT_TYPE(result_type) internal_visit(T& operand, int) { typedef typename is_same<result_type, void>::type has_void_result_type; return visit_impl(operand, has_void_result_type()); } #endif // BOOST_NO_VOID_RETURNS) workaround public: // internal visitor interfaces, cont. template <typename T> BOOST_VARIANT_AUX_GENERIC_RESULT_TYPE(result_type) internal_visit(boost::recursive_wrapper<T>& operand, long) { return internal_visit( operand.get(), 1L ); } template <typename T> BOOST_VARIANT_AUX_GENERIC_RESULT_TYPE(result_type) internal_visit(const boost::recursive_wrapper<T>& operand, long) { return internal_visit( operand.get(), 1L ); } template <typename T> BOOST_VARIANT_AUX_GENERIC_RESULT_TYPE(result_type) internal_visit(boost::detail::reference_content<T>& operand, long) { return internal_visit( operand.get(), 1L ); } template <typename T> BOOST_VARIANT_AUX_GENERIC_RESULT_TYPE(result_type) internal_visit(const boost::detail::reference_content<T>& operand, long) { return internal_visit( operand.get(), 1L ); } template <typename T> BOOST_VARIANT_AUX_GENERIC_RESULT_TYPE(result_type) internal_visit(boost::detail::variant::backup_holder<T>& operand, long) { return internal_visit( operand.get(), 1L ); } template <typename T> BOOST_VARIANT_AUX_GENERIC_RESULT_TYPE(result_type) internal_visit(const boost::detail::variant::backup_holder<T>& operand, long) { return internal_visit( operand.get(), 1L ); } #if BOOST_WORKAROUND(BOOST_MSVC, BOOST_TESTED_AT(1600)) private: // silence MSVC warning C4512: assignment operator could not be generated invoke_visitor& operator= (invoke_visitor const&); #endif }; }} // namespace detail::variant /////////////////////////////////////////////////////////////////////////////// // class template variant (concept inspired by Andrei Alexandrescu) // // See docs and boost/variant/variant_fwd.hpp for more information. // template < typename T0_ , BOOST_VARIANT_ENUM_SHIFTED_PARAMS(typename T) > class variant { private: // helpers, for typedefs (below) typedef variant wknd_self_t; struct is_recursive_ : detail::variant::is_recursive_flag<T0_> { }; typedef typename mpl::eval_if< is_recursive_ , T0_ , mpl::identity< T0_ > >::type unwrapped_T0_; struct is_sequence_based_ : detail::variant::is_over_sequence<unwrapped_T0_> { }; #if !defined(BOOST_VARIANT_NO_TYPE_SEQUENCE_SUPPORT) private: // helpers, for typedefs (below) typedef typename mpl::eval_if< is_sequence_based_ , unwrapped_T0_ // over_sequence<...>::type , detail::variant::make_variant_list< unwrapped_T0_ , BOOST_VARIANT_ENUM_SHIFTED_PARAMS(T) > >::type specified_types; BOOST_STATIC_ASSERT(( ::boost::mpl::not_< mpl::empty<specified_types> >::value )); typedef typename mpl::eval_if< is_recursive_ , mpl::transform< specified_types , mpl::protect< detail::variant::quoted_enable_recursive<wknd_self_t> > > , mpl::identity< specified_types > >::type recursive_enabled_types; public: // public typedefs typedef typename mpl::transform< recursive_enabled_types , unwrap_recursive<mpl::_1> >::type types; private: // internal typedefs typedef typename mpl::transform< recursive_enabled_types , mpl::protect< detail::make_reference_content<> > >::type internal_types; typedef typename mpl::front< internal_types >::type internal_T0; #else // defined(BOOST_VARIANT_NO_TYPE_SEQUENCE_SUPPORT) private: // helpers, for typedefs (below) typedef unwrapped_T0_ T0; #define BOOST_VARIANT_AUX_ENABLE_RECURSIVE_TYPEDEFS(z,N,_) \ typedef typename mpl::eval_if< \ is_recursive_ \ , detail::variant::enable_recursive< \ BOOST_PP_CAT(T,N) \ , wknd_self_t \ > \ , mpl::identity< BOOST_PP_CAT(T,N) > \ >::type BOOST_PP_CAT(recursive_enabled_T,N); \ /**/ BOOST_PP_REPEAT( BOOST_VARIANT_LIMIT_TYPES , BOOST_VARIANT_AUX_ENABLE_RECURSIVE_TYPEDEFS , _ ) #undef BOOST_VARIANT_AUX_ENABLE_RECURSIVE_TYPEDEFS #define BOOST_VARIANT_AUX_UNWRAP_RECURSIVE_TYPEDEFS(z,N,_) \ typedef typename unwrap_recursive< \ BOOST_PP_CAT(recursive_enabled_T,N) \ >::type BOOST_PP_CAT(public_T,N); \ /**/ BOOST_PP_REPEAT( BOOST_VARIANT_LIMIT_TYPES , BOOST_VARIANT_AUX_UNWRAP_RECURSIVE_TYPEDEFS , _ ) #undef BOOST_VARIANT_AUX_UNWRAP_RECURSIVE_TYPEDEFS public: // public typedefs typedef typename detail::variant::make_variant_list< BOOST_VARIANT_ENUM_PARAMS(public_T) >::type types; private: // helpers, for internal typedefs (below) #define BOOST_VARIANT_AUX_MAKE_REFERENCE_CONTENT_TYPEDEFS(z,N,_) \ typedef detail::make_reference_content< \ BOOST_PP_CAT(recursive_enabled_T,N) \ >::type BOOST_PP_CAT(internal_T,N); \ /**/ BOOST_PP_REPEAT( BOOST_VARIANT_LIMIT_TYPES , BOOST_VARIANT_AUX_MAKE_REFERENCE_CONTENT_TYPEDEFS , _ ) #undef BOOST_VARIANT_AUX_MAKE_REFERENCE_CONTENT_TYPEDEFS private: // internal typedefs typedef typename detail::variant::make_variant_list< BOOST_VARIANT_ENUM_PARAMS(internal_T) >::type internal_types; private: // static precondition assertions // NOTE TO USER : // variant< type-sequence > syntax is not supported on this compiler! // BOOST_MPL_ASSERT_NOT(( is_sequence_based_ )); #endif // BOOST_VARIANT_NO_TYPE_SEQUENCE_SUPPORT workaround private: // helpers, for representation (below) typedef typename detail::variant::find_fallback_type< internal_types >::type fallback_type_result_; typedef typename fallback_type_result_::first fallback_type_index_; typedef typename fallback_type_result_::second fallback_type_; struct has_fallback_type_ : mpl::not_< is_same< fallback_type_, detail::variant::no_fallback_type > > { }; typedef has_fallback_type_ never_uses_backup_flag; typedef typename detail::variant::make_storage< internal_types, never_uses_backup_flag >::type storage_t; private: // helpers, for representation (below) // which_ on: // * [0, size<internal_types>) indicates stack content // * [-size<internal_types>, 0) indicates pointer to heap backup // if which_ >= 0: // * then which() -> which_ // * else which() -> -(which_ + 1) #if !defined(BOOST_VARIANT_MINIMIZE_SIZE) typedef int which_t; #else // defined(BOOST_VARIANT_MINIMIZE_SIZE) // [if O1_size available, then attempt which_t size optimization...] // [select signed char if fewer than SCHAR_MAX types, else signed int:] typedef typename mpl::eval_if< mpl::equal_to< mpl::O1_size<internal_types>, mpl::long_<-1> > , mpl::identity< int > , mpl::if_< mpl::less< mpl::O1_size<internal_types>, mpl::int_<SCHAR_MAX> > , signed char , int > >::type which_t; #endif // BOOST_VARIANT_MINIMIZE_SIZE switch // representation -- private when possible #if !defined(BOOST_NO_MEMBER_TEMPLATE_FRIENDS) private: #else public: #endif which_t which_; storage_t storage_; void indicate_which(int which) { which_ = static_cast<which_t>( which ); } void indicate_backup_which(int which) { which_ = static_cast<which_t>( -(which + 1) ); } private: // helpers, for queries (below) bool using_backup() const { return which_ < 0; } public: // queries int which() const { // If using heap backup... if (using_backup()) // ...then return adjusted which_: return -(which_ + 1); // Otherwise, return which_ directly: return which_; } private: // helpers, for structors (below) struct initializer : BOOST_VARIANT_AUX_INITIALIZER_T( recursive_enabled_types, recursive_enabled_T ) { }; void destroy_content() { detail::variant::destroyer visitor; this->internal_apply_visitor(visitor); } public: // structors ~variant() { destroy_content(); } variant() { // NOTE TO USER : // Compile error from here indicates that the first bound // type is not default-constructible, and so variant cannot // support its own default-construction. // new( storage_.address() ) internal_T0(); indicate_which(0); // zero is the index of the first bounded type } private: // helpers, for structors, cont. (below) class convert_copy_into : public static_visitor<int> { private: // representation void* storage_; public: // structors explicit convert_copy_into(void* storage) : storage_(storage) { } public: // internal visitor interfaces (below) template <typename T> int internal_visit(T& operand, int) const { // NOTE TO USER : // Compile error here indicates one of the source variant's types // cannot be unambiguously converted to the destination variant's // types (or that no conversion exists). // return initializer::initialize(storage_, operand); } # if BOOST_WORKAROUND(__BORLANDC__, BOOST_TESTED_AT(0x0564)) template <typename T> result_type internal_visit(const T& operand, int) const { return initializer::initialize(storage_, operand); } # endif template <typename T> int internal_visit(boost::detail::reference_content<T>& operand, long) const { return internal_visit( operand.get(), 1L ); } template <typename T> int internal_visit(const boost::detail::reference_content<T>& operand, long) const { return internal_visit( operand.get(), 1L ); } template <typename T> int internal_visit(boost::detail::variant::backup_holder<T>& operand, long) const { return internal_visit( operand.get(), 1L ); } template <typename T> int internal_visit(const boost::detail::variant::backup_holder<T>& operand, long) const { return internal_visit( operand.get(), 1L ); } template <typename T> int internal_visit(boost::recursive_wrapper<T>& operand, long) const { return internal_visit( operand.get(), 1L ); } template <typename T> int internal_visit(const boost::recursive_wrapper<T>& operand, long) const { return internal_visit( operand.get(), 1L ); } }; friend class convert_copy_into; private: // helpers, for structors, below template <typename T> void convert_construct( T& operand , int , mpl::false_ = mpl::false_() // is_foreign_variant ) { // NOTE TO USER : // Compile error here indicates that the given type is not // unambiguously convertible to one of the variant's types // (or that no conversion exists). // indicate_which( initializer::initialize( storage_.address() , operand ) ); } template <typename Variant> void convert_construct( Variant& operand , long , mpl::true_// is_foreign_variant ) { convert_copy_into visitor(storage_.address()); indicate_which( operand.internal_apply_visitor(visitor) ); } template <typename Variant> void convert_construct_variant(Variant& operand) { // [Determine if the given variant is itself a bounded type, or if its // content needs to be converted (i.e., it is a 'foreign' variant):] // typedef typename mpl::find_if< types , is_same< add_const<mpl::_1> , const Variant > >::type found_it; typedef typename mpl::end<types>::type not_found; typedef typename is_same< found_it, not_found >::type is_foreign_variant; // Convert construct from operand: convert_construct( operand, 1L , is_foreign_variant() ); } template <BOOST_VARIANT_ENUM_PARAMS(typename U)> void convert_construct( boost::variant<BOOST_VARIANT_ENUM_PARAMS(U)>& operand , long ) { convert_construct_variant(operand); } template <BOOST_VARIANT_ENUM_PARAMS(typename U)> void convert_construct( const boost::variant<BOOST_VARIANT_ENUM_PARAMS(U)>& operand , long ) { convert_construct_variant(operand); } public: // structors, cont. #if !defined(BOOST_VARIANT_AUX_BROKEN_CONSTRUCTOR_TEMPLATE_ORDERING) template <typename T> variant(const T& operand) { convert_construct(operand, 1L); } template <typename T> variant(T& operand) { convert_construct(operand, 1L); } #elif defined(BOOST_VARIANT_AUX_HAS_CONSTRUCTOR_TEMPLATE_ORDERING_SFINAE_WKND) // For compilers that cannot distinguish between T& and const T& in // template constructors, but do fully support SFINAE, we can workaround: template <typename T> variant(const T& operand) { convert_construct(operand, 1L); } template <typename T> variant( T& operand , typename enable_if< mpl::not_< is_const<T> > , void >::type* = 0 ) { convert_construct(operand, 1L); } #else // !defined(BOOST_VARIANT_AUX_HAS_CONSTRUCTOR_TEMPLATE_ORDERING_SFINAE_WKND) // For compilers that cannot distinguish between T& and const T& in // template constructors, and do NOT support SFINAE, we can't workaround: template <typename T> variant(const T& operand) { convert_construct(operand, 1L); } #endif // BOOST_VARIANT_AUX_BROKEN_CONSTRUCTOR_TEMPLATE_ORDERING workarounds public: // structors, cont. // [MSVC6 requires copy constructor appear after template constructors] variant(const variant& operand) { // Copy the value of operand into *this... detail::variant::copy_into visitor( storage_.address() ); operand.internal_apply_visitor(visitor); // ...and activate the *this's primary storage on success: indicate_which(operand.which()); } private: // helpers, for modifiers (below) # if !defined(BOOST_NO_MEMBER_TEMPLATE_FRIENDS) template <typename Variant, typename RhsT> friend class detail::variant::backup_assigner; # endif // class assigner // // Internal visitor that "assigns" the visited value to the given variant // by appropriate destruction and copy-construction. // class assigner : public static_visitor<> { private: // representation variant& lhs_; int rhs_which_; public: // structors assigner(variant& lhs, int rhs_which) : lhs_(lhs) , rhs_which_(rhs_which) { } private: // helpers, for internal visitor interface (below) template <typename RhsT, typename B1, typename B2> void assign_impl( const RhsT& rhs_content , mpl::true_// has_nothrow_copy , B1// has_nothrow_move_constructor , B2// has_fallback_type ) { // Destroy lhs's content... lhs_.destroy_content(); // nothrow // ...copy rhs content into lhs's storage... new(lhs_.storage_.address()) RhsT( rhs_content ); // nothrow // ...and indicate new content type: lhs_.indicate_which(rhs_which_); // nothrow } template <typename RhsT, typename B> void assign_impl( const RhsT& rhs_content , mpl::false_// has_nothrow_copy , mpl::true_// has_nothrow_move_constructor , B// has_fallback_type ) { // Attempt to make a temporary copy (so as to move it below)... RhsT temp(rhs_content); // ...and upon success destroy lhs's content... lhs_.destroy_content(); // nothrow // ...move the temporary copy into lhs's storage... new(lhs_.storage_.address()) RhsT( detail::variant::move(temp) ); // nothrow // ...and indicate new content type: lhs_.indicate_which(rhs_which_); // nothrow } template <typename RhsT> void assign_impl( const RhsT& rhs_content , mpl::false_// has_nothrow_copy , mpl::false_// has_nothrow_move_constructor , mpl::true_// has_fallback_type ) { // Destroy lhs's content... lhs_.destroy_content(); // nothrow try { // ...and attempt to copy rhs's content into lhs's storage: new(lhs_.storage_.address()) RhsT( rhs_content ); } catch (...) { // In case of failure, default-construct fallback type in lhs's storage... new (lhs_.storage_.address()) fallback_type_; // nothrow // ...indicate construction of fallback type... lhs_.indicate_which( BOOST_MPL_AUX_VALUE_WKND(fallback_type_index_)::value ); // nothrow // ...and rethrow: throw; } // In the event of success, indicate new content type: lhs_.indicate_which(rhs_which_); // nothrow } template <typename RhsT> void assign_impl( const RhsT& rhs_content , mpl::false_// has_nothrow_copy , mpl::false_// has_nothrow_move_constructor , mpl::false_// has_fallback_type ) { detail::variant::backup_assigner<wknd_self_t, RhsT> visitor(lhs_, rhs_which_, rhs_content); lhs_.internal_apply_visitor(visitor); } public: // internal visitor interfaces template <typename RhsT> BOOST_VARIANT_AUX_RETURN_VOID_TYPE internal_visit(const RhsT& rhs_content, int) { typedef typename has_nothrow_copy<RhsT>::type nothrow_copy; typedef typename mpl::or_< // reduces compile-time nothrow_copy , detail::variant::has_nothrow_move_constructor<RhsT> >::type nothrow_move_constructor; assign_impl( rhs_content , nothrow_copy() , nothrow_move_constructor() , has_fallback_type_() ); BOOST_VARIANT_AUX_RETURN_VOID; } #if BOOST_WORKAROUND(BOOST_MSVC, BOOST_TESTED_AT(1600)) private: // silence MSVC warning C4512: assignment operator could not be generated assigner& operator= (assigner const&); #endif }; friend class assigner; void variant_assign(const variant& rhs) { // If the contained types are EXACTLY the same... if (which_ == rhs.which_) { // ...then assign rhs's storage to lhs's content: detail::variant::assign_storage visitor(rhs.storage_.address()); this->internal_apply_visitor(visitor); } else { // Otherwise, perform general (copy-based) variant assignment: assigner visitor(*this, rhs.which()); rhs.internal_apply_visitor(visitor); } } private: // helpers, for modifiers (below) template <typename T> void assign(const T& rhs) { // If direct T-to-T assignment is not possible... detail::variant::direct_assigner<T> direct_assign(rhs); if (this->apply_visitor(direct_assign) == false) { // ...then convert rhs to variant and assign: // // While potentially inefficient, the following construction of a // variant allows T as any type convertible to one of the bounded // types without excessive code redundancy. // variant temp(rhs); variant_assign( detail::variant::move(temp) ); } } public: // modifiers template <typename T> variant& operator=(const T& rhs) { assign(rhs); return *this; } // [MSVC6 requires copy assign appear after templated operator=] variant& operator=(const variant& rhs) { variant_assign(rhs); return *this; } void swap(variant& rhs) { // If the contained types are the same... if (which() == rhs.which()) { // ...then swap the values directly: detail::variant::swap_with<variant> visitor(rhs); this->apply_visitor(visitor); } else { // ...otherwise, perform general variant swap: variant tmp( detail::variant::move(rhs) ); rhs = detail::variant::move(*this); *this = detail::variant::move(tmp); } } public: // queries // // NOTE: member which() defined above. // bool empty() const { return false; } #if !defined(BOOST_NO_TYPEID) const std::type_info& type() const { detail::variant::reflect visitor; return this->apply_visitor(visitor); } #endif public: // prevent comparison with foreign types #if !BOOST_WORKAROUND(BOOST_MSVC, <= 1300) # define BOOST_VARIANT_AUX_FAIL_COMPARISON_RETURN_TYPE \ void #else // MSVC7 // // MSVC7 gives error about return types for above being different than // the true comparison operator overloads: // # define BOOST_VARIANT_AUX_FAIL_COMPARISON_RETURN_TYPE \ bool #endif // MSVC7 workaround template <typename U> BOOST_VARIANT_AUX_FAIL_COMPARISON_RETURN_TYPE operator==(const U&) const { BOOST_STATIC_ASSERT( false && sizeof(U) ); } template <typename U> BOOST_VARIANT_AUX_FAIL_COMPARISON_RETURN_TYPE operator<(const U&) const { BOOST_STATIC_ASSERT( false && sizeof(U) ); } public: // comparison operators // [MSVC6 requires these operators appear after template operators] bool operator==(const variant& rhs) const { if (this->which() != rhs.which()) return false; detail::variant::comparer< variant, detail::variant::equal_comp > visitor(*this); return rhs.apply_visitor(visitor); } bool operator<(const variant& rhs) const { // // Dirk Schreib suggested this collating order. // if (this->which() != rhs.which()) return this->which() < rhs.which(); detail::variant::comparer< variant, detail::variant::less_comp > visitor(*this); return rhs.apply_visitor(visitor); } // helpers, for visitation support (below) -- private when possible #if !defined(BOOST_NO_MEMBER_TEMPLATE_FRIENDS) template < BOOST_VARIANT_ENUM_PARAMS(typename U) > friend class variant; private: #else// defined(BOOST_NO_MEMBER_TEMPLATE_FRIENDS) public: #endif// !defined(BOOST_NO_MEMBER_TEMPLATE_FRIENDS) template <typename Visitor, typename VoidPtrCV> static BOOST_VARIANT_AUX_GENERIC_RESULT_TYPE( typename Visitor::result_type ) internal_apply_visitor_impl( int internal_which , int logical_which , Visitor& visitor , VoidPtrCV storage ) { typedef mpl::int_<0> first_which; typedef typename mpl::begin<internal_types>::type first_it; typedef typename mpl::end<internal_types>::type last_it; typedef detail::variant::visitation_impl_step< first_it, last_it > first_step; return detail::variant::visitation_impl( internal_which, logical_which , visitor, storage, mpl::false_() , never_uses_backup_flag() , static_cast<first_which*>(0), static_cast<first_step*>(0) ); } template <typename Visitor> BOOST_VARIANT_AUX_GENERIC_RESULT_TYPE( typename Visitor::result_type ) internal_apply_visitor(Visitor& visitor) { return internal_apply_visitor_impl( which_, which(), visitor, storage_.address() ); } template <typename Visitor> BOOST_VARIANT_AUX_GENERIC_RESULT_TYPE( typename Visitor::result_type ) internal_apply_visitor(Visitor& visitor) const { return internal_apply_visitor_impl( which_, which(), visitor, storage_.address() ); } public: // visitation support template <typename Visitor> BOOST_VARIANT_AUX_GENERIC_RESULT_TYPE( typename Visitor::result_type ) apply_visitor(Visitor& visitor) { detail::variant::invoke_visitor<Visitor> invoker(visitor); return this->internal_apply_visitor(invoker); } template <typename Visitor> BOOST_VARIANT_AUX_GENERIC_RESULT_TYPE( typename Visitor::result_type ) apply_visitor(Visitor& visitor) const { detail::variant::invoke_visitor<Visitor> invoker(visitor); return this->internal_apply_visitor(invoker); } }; // class variant /////////////////////////////////////////////////////////////////////////////// // metafunction make_variant_over // // See docs and boost/variant/variant_fwd.hpp for more information. // template <typename Types> struct make_variant_over { private: // precondition assertions #if !BOOST_WORKAROUND(BOOST_MSVC, <= 1300) BOOST_STATIC_ASSERT(( ::boost::mpl::is_sequence<Types>::value )); #endif public: // metafunction result typedef variant< detail::variant::over_sequence< Types > > type; }; /////////////////////////////////////////////////////////////////////////////// // function template swap // // Swaps two variants of the same type (i.e., identical specification). // template < BOOST_VARIANT_ENUM_PARAMS(typename T) > inline void swap( variant< BOOST_VARIANT_ENUM_PARAMS(T) >& lhs , variant< BOOST_VARIANT_ENUM_PARAMS(T) >& rhs ) { lhs.swap(rhs); } } // namespace boost // implementation additions #if !defined(BOOST_NO_IOSTREAM) #include "boost/variant/detail/variant_io.hpp" #endif // BOOST_NO_IOSTREAM #endif // BOOST_VARIANT_VARIANT_HPP