#ifndef EFL_LAYOUT_CALC_EO_HH #define EFL_LAYOUT_CALC_EO_HH #include extern "C" { #include "efl_layout_calc.eo.h" } #include #include #ifndef EFL_LAYOUT_CALC_FWD_GUARD #define EFL_LAYOUT_CALC_FWD_GUARD namespace efl { namespace layout { struct Calc; } } namespace efl { namespace eo { template<> struct is_eolian_object< ::efl::layout::Calc> : ::std::true_type {}; } } namespace efl { namespace eo { template<> struct is_eolian_object< ::efl::layout::Calc&> : ::std::true_type {}; } } namespace efl { namespace eo { template<> struct is_eolian_object< ::efl::layout::Calc const> : ::std::true_type {}; } } namespace efl { namespace eo { template<> struct is_eolian_object< ::efl::layout::Calc const&> : ::std::true_type {}; } } #endif #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wignored-qualifiers" namespace eo_cxx { namespace efl { namespace layout { struct Calc { ::efl::eolian::return_traits::type calc_auto_update_hints_get() const; ::efl::eolian::return_traits::type calc_auto_update_hints_set( ::efl::eolian::in_traits::type update) const; ::efl::eolian::return_traits::type calc_size_min( ::efl::eolian::in_traits< ::efl::eina::optional>::type restricted) const; ::efl::eolian::return_traits::type calc_parts_extends() const; ::efl::eolian::return_traits::type calc_freeze() const; ::efl::eolian::return_traits::type calc_thaw() const; #ifdef EFL_LAYOUT_CALC_PROTECTED ::efl::eolian::return_traits::type calc_force() const; #endif static Efl_Class const* _eo_class() { return EFL_LAYOUT_CALC_INTERFACE; } Eo* _eo_ptr() const { return *(reinterpret_cast(const_cast(this))); } operator ::efl::layout::Calc() const; operator ::efl::layout::Calc&(); operator ::efl::layout::Calc const&() const; /// @cond LOCAL ::efl::eolian::address_of_operator operator&() { return {this}; } ::efl::eolian::address_of_operator operator&() const { return {this}; } /// @endcond }; } } } namespace efl { namespace layout { struct Calc : private ::efl::eo::concrete { explicit Calc( ::Eo* eo) : ::efl::eo::concrete(eo) {} Calc(std::nullptr_t) : ::efl::eo::concrete(nullptr) {} explicit Calc() = default; Calc(Calc const&) = default; Calc(Calc&&) = default; Calc& operator=(Calc const&) = default; Calc& operator=(Calc&&) = default; template Calc(Derived&& derived , typename std::enable_if< ::efl::eo::is_eolian_object::value && std::is_base_of< Calc, Derived>::value>::type* = 0) : ::efl::eo::concrete(derived._eo_ptr()) {} ::efl::eolian::return_traits::type calc_auto_update_hints_get() const; ::efl::eolian::return_traits::type calc_auto_update_hints_set( ::efl::eolian::in_traits::type update) const; ::efl::eolian::return_traits::type calc_size_min( ::efl::eolian::in_traits< ::efl::eina::optional>::type restricted) const; ::efl::eolian::return_traits::type calc_parts_extends() const; ::efl::eolian::return_traits::type calc_freeze() const; ::efl::eolian::return_traits::type calc_thaw() const; #ifdef EFL_LAYOUT_CALC_PROTECTED ::efl::eolian::return_traits::type calc_force() const; #endif static Efl_Class const* _eo_class() { return EFL_LAYOUT_CALC_INTERFACE; } Eo* _eo_ptr() const { return *(reinterpret_cast(const_cast(this))); } static struct recalc_event { static Efl_Event_Description const* description() { return EFL_LAYOUT_EVENT_RECALC; } typedef void parameter_type; } const recalc_event; #ifdef EFL_CXXPERIMENTAL template typename std::enable_if::value, ::efl::eolian::signal_connection>::type recalc_event_cb_add(F function) { return ::efl::eolian::event_add(recalc_event, *this, function); } template typename std::enable_if::value, ::efl::eolian::signal_connection>::type recalc_event_cb_add(F function) { return ::efl::eolian::event_add(recalc_event, *this, std::bind(function)); } #endif static struct circular_dependency_event { static Efl_Event_Description const* description() { return EFL_LAYOUT_EVENT_CIRCULAR_DEPENDENCY; } typedef ::efl::eina::range_array< ::efl::eina::string_view> parameter_type; } const circular_dependency_event; #ifdef EFL_CXXPERIMENTAL template typename std::enable_if::value, ::efl::eolian::signal_connection>::type circular_dependency_event_cb_add(F function) { return ::efl::eolian::event_add(circular_dependency_event, *this, function); } template typename std::enable_if::value, ::efl::eolian::signal_connection>::type circular_dependency_event_cb_add(F function) { return ::efl::eolian::event_add(circular_dependency_event, *this, std::bind(function)); } #endif /// @cond LOCAL ::efl::eolian::address_of_operator operator&() { return {this}; } ::efl::eolian::address_of_operator operator&() const { return {this}; } /// @endcond ::efl::eo::wref _get_wref() const { return ::efl::eo::wref(*this); } ::efl::eo::concrete const& _get_concrete() const { return *this; } ::efl::eo::concrete& _get_concrete() { return *this; } using ::efl::eo::concrete::_eo_ptr; using ::efl::eo::concrete::_release; using ::efl::eo::concrete::_reset; using ::efl::eo::concrete::_delete; using ::efl::eo::concrete::operator bool; #ifdef EFL_CXXPERIMENTAL const Calc* operator->() const { return this; } Calc* operator->() { return this; } operator Eo*() const { return _eo_ptr(); } #endif friend bool operator==(Calc const& lhs, Calc const& rhs) { return lhs._get_concrete() == rhs._get_concrete(); } friend bool operator!=(Calc const& lhs, Calc const& rhs) { return !(lhs == rhs); } }; static_assert(sizeof(Calc) == sizeof(Eo*), ""); static_assert(std::is_standard_layout::value, ""); } } #pragma GCC diagnostic pop #endif