// Generated by gmmproc 2.66.3 -- DO NOT MODIFY! #ifndef _GIOMM_ACTION_H #define _GIOMM_ACTION_H #include #include #include /* Copyright (C) 2011 The giomm Development Team * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library. If not, see . */ #include #include #include #include #ifndef DOXYGEN_SHOULD_SKIP_THIS typedef struct _GActionInterface GActionInterface; #endif /* DOXYGEN_SHOULD_SKIP_THIS */ #ifndef DOXYGEN_SHOULD_SKIP_THIS using GAction = struct _GAction; using GActionClass = struct _GActionClass; #endif /* DOXYGEN_SHOULD_SKIP_THIS */ #ifndef DOXYGEN_SHOULD_SKIP_THIS namespace Gio { class GIOMM_API Action_Class; } // namespace Gio #endif // DOXYGEN_SHOULD_SKIP_THIS namespace Gio { /** Action - An action. * Action represents a single named action. * * The main interface to an action is that it can be activated with activate(). * This results in the signal_activate() signal being emitted. An activation * has a Glib::VariantBase parameter (which may be 0). The correct * type for the parameter is determined by a static parameter type (which is * given at construction time). * * An action may optionally have a state, in which case the state may be set * with change_state(). This call takes a Glib::VariantBase. The correct type * for the state is determined by a static state type (which is given at * construction time). * * The state may have a hint associated with it, specifying its valid range. * * Action is merely the interface to the concept of an action, as described * above. Various implementations of actions exist, including SimpleAction and * Gtk::Action. * * In all cases, the implementing class is responsible for storing the name of * the action, the parameter type, the enabled state, the optional state type * and the state and emitting the appropriate signals when these change. The * implementor responsible for filtering calls to activate() and change_state() * for type safety and for the state being enabled. * * Probably the only useful thing to do with a Action is to put it inside of a * SimpleActionGroup. * * @newin{2,32} */ class GIOMM_API Action : public Glib::Interface { #ifndef DOXYGEN_SHOULD_SKIP_THIS public: using CppObjectType = Action; using CppClassType = Action_Class; using BaseObjectType = GAction; using BaseClassType = GActionInterface; // noncopyable Action(const Action&) = delete; Action& operator=(const Action&) = delete; private: friend class Action_Class; static CppClassType action_class_; #endif /* DOXYGEN_SHOULD_SKIP_THIS */ protected: /** * You should derive from this class to use it. */ Action(); #ifndef DOXYGEN_SHOULD_SKIP_THIS /** Called by constructors of derived classes. Provide the result of * the Class init() function to ensure that it is properly * initialized. * * @param interface_class The Class object for the derived type. */ explicit Action(const Glib::Interface_Class& interface_class); public: // This is public so that C++ wrapper instances can be // created for C instances of unwrapped types. // For instance, if an unexpected C type implements the C interface. explicit Action(GAction* castitem); protected: #endif /* DOXYGEN_SHOULD_SKIP_THIS */ public: Action(Action&& src) noexcept; Action& operator=(Action&& src) noexcept; ~Action() noexcept override; static void add_interface(GType gtype_implementer); /** Get the GType for this class, for use with the underlying GObject type system. */ static GType get_type() G_GNUC_CONST; #ifndef DOXYGEN_SHOULD_SKIP_THIS static GType get_base_type() G_GNUC_CONST; #endif ///Provides access to the underlying C GObject. GAction* gobj() { return reinterpret_cast(gobject_); } ///Provides access to the underlying C GObject. const GAction* gobj() const { return reinterpret_cast(gobject_); } private: public: /** Queries the name of @a action. * * @newin{2,28} * * @return The name of the action. */ Glib::ustring get_name() const; /** Queries the type of the parameter that must be given when activating * @a action. * * When activating the action using g_action_activate(), the Variant * given to that function must be of the type returned by this function. * * In the case that this function returns nullptr, you must not give any * Variant, but nullptr instead. * * @newin{2,28} * * @return The parameter type. */ Glib::VariantType get_parameter_type() const; /** Queries the type of the state of @a action. * * If the action is stateful (e.g. created with * g_simple_action_new_stateful()) then this function returns the * VariantType of the state. This is the type of the initial value * given as the state. All calls to g_action_change_state() must give a * Variant of this type and g_action_get_state() will return a * Variant of the same type. * * If the action is not stateful (e.g. created with g_simple_action_new()) * then this function will return nullptr. In that case, g_action_get_state() * will return nullptr and you must not call g_action_change_state(). * * @newin{2,28} * * @return The state type, if the action is stateful. */ Glib::VariantType get_state_type() const; //TODO: Is there any specific type that can really be used with this? A std::list<>. We must test this. // See also ActionGroup:::get_action_state_hint(). /** Requests a hint about the valid range of values for the state of * the action. * * If a null Variant is returned it either means that the action is not stateful * or that there is no hint about the valid range of values for the * state of the action. * * If a Variant array is returned then each item in the array is a * possible value for the state. If a Variant pair (ie: two-tuple) is * returned then the tuple specifies the inclusive lower and upper bound * of valid values for the state. * * In any case, the information is merely a hint. It may be possible to * have a state value outside of the hinted range and setting a value * within the range may fail. * * @param value This will be set to the state range hint. */ template void get_state_hint(T_Value& value) const; //TODO: When we can break ABI, Return a Glib::VariantContainerBase, // as we already do for ActionGroup::get_action_state_hint(), // because that is what this returns (to specify a range). /** Requests a hint about the valid range of values for the state of * @a action. * * If nullptr is returned it either means that the action is not stateful * or that there is no hint about the valid range of values for the * state of the action. * * If a Variant array is returned then each item in the array is a * possible value for the state. If a Variant pair (ie: two-tuple) is * returned then the tuple specifies the inclusive lower and upper bound * of valid values for the state. * * In any case, the information is merely a hint. It may be possible to * have a state value outside of the hinted range and setting a value * within the range may fail. * * The return value (if non-nullptr) should be freed with * Glib::variant_unref() when it is no longer required. * * @newin{2,28} * * @return The state range hint. */ Glib::VariantBase get_state_hint_variant() const; /** Checks if @a action is currently enabled. * * An action must be enabled in order to be activated or in order to * have its state changed from outside callers. * * @newin{2,28} * * @return Whether the action is enabled. */ bool get_enabled() const; /** Request for the state of @a action to be changed to @a value, * assuming that the action has the expected state type. * * See get_state_type(). * * This call merely requests a change. The action may refuse to change * its state or may change its state to something other than @a value. * See get_state_hint(). * * @newin{2,38} * * @param value The new state. */ template void change_state(const T_Value& value); //This is just here to maintain API compatibility, //by stopping the compiler from calling the //regular change_state() with a Variant, //if the application code previously called change_state(VariantBase). template void change_state(const Glib::Variant& value); /** Request for the state of @a action to be changed to @a value. * * The action must be stateful and @a value must be of the correct type. * See g_action_get_state_type(). * * This call merely requests a change. The action may refuse to change * its state or may change its state to something other than @a value. * See g_action_get_state_hint(). * * If the @a value GVariant is floating, it is consumed. * * @newin{2,30} * * @param value The new state. */ void change_state_variant(const Glib::VariantBase& value); #ifndef GIOMM_DISABLE_DEPRECATED /** Request for the state of @a action to be changed to @a value. * * The action must be stateful and @a value must be of the correct type. * See g_action_get_state_type(). * * This call merely requests a change. The action may refuse to change * its state or may change its state to something other than @a value. * See g_action_get_state_hint(). * * If the @a value GVariant is floating, it is consumed. * * @newin{2,30} * * @deprecated Use the templated method instead, passing a normal C++ type. * * @param value The new state. */ void change_state(const Glib::VariantBase& value); #endif // GIOMM_DISABLE_DEPRECATED /** Queries the current state of the action. * * If the action is not stateful then a null Variant will be returned. If the * action is stateful then the type of the return value is the type * given by get_state_type(). * * @param value This will be set to the current state of the action. */ template void get_state(T_Value& value) const; /** Queries the current state of @a action. * * If the action is not stateful then nullptr will be returned. If the * action is stateful then the type of the return value is the type * given by g_action_get_state_type(). * * The return value (if non-nullptr) should be freed with * Glib::variant_unref() when it is no longer required. * * @newin{2,28} * * @return The current state of the action. */ Glib::VariantBase get_state_variant() const; /** Activates the action. */ void activate(); /** Activates the action. * * The @a parameter must be the correct type of parameter for the action (ie: * the parameter type given at construction time), if any. * * @param parameter: The parameter to the activation */ template void activate(const T_Value& parameter); //This is just here to maintain API compatibility, //by stopping the compiler from calling the //regular activate() with a Variant, //if the application code previously called activate(VariantBase). template void activate(const Glib::Variant& parameter); /** Activates the action. * * @a parameter must be the correct type of parameter for the action (ie: * the parameter type given at construction time). If the parameter * type was nullptr then @a parameter must also be nullptr. * * If the @a parameter GVariant is floating, it is consumed. * * @newin{2,28} * * @param parameter The parameter to the activation. */ void activate_variant(const Glib::VariantBase& parameter); #ifndef GIOMM_DISABLE_DEPRECATED /** Activates the action. * * @a parameter must be the correct type of parameter for the action (ie: * the parameter type given at construction time). If the parameter * type was nullptr then @a parameter must also be nullptr. * * If the @a parameter GVariant is floating, it is consumed. * * @newin{2,28} * * @deprecated Use the templated method instead, passing a normal C++ type. * * @param parameter The parameter to the activation. */ void activate(const Glib::VariantBase& parameter); #endif // GIOMM_DISABLE_DEPRECATED /** Checks if @a action_name is valid. * * @a action_name is valid if it consists only of alphanumeric characters, * plus '-' and '.'. The empty string is not a valid action name. * * It is an error to call this function with a non-utf8 @a action_name. * @a action_name must not be nullptr. * * @newin{2,38} * * @param action_name A potential action name. * @return true if @a action_name is valid. */ static bool name_is_valid(const Glib::ustring& action_name); /** Parses a detailed action name into its separate name and target components. * * Detailed action names can have three formats. See parse_detailed_name_variant(). * * @newin{2,40} * * @param detailed_name A detailed action name. * @param[out] action_name The action name. * @param[out] target_value The target value. * @throw Glib::VariantParseError if @a detailed_name has an invalid format or a target of an unexpected type. */ template static void parse_detailed_name(const Glib::ustring& detailed_name, Glib::ustring& action_name, T_Value& target_value); /** Parses a detailed action name into its separate name and target * components. * * Detailed action names can have three formats. * * The first format is used to represent an action name with no target * value and consists of just an action name containing no whitespace * nor the characters ':', '(' or ')'. For example: "app.action". * * The second format is used to represent an action with a target value * that is a non-empty string consisting only of alphanumerics, plus '-' * and '.'. In that case, the action name and target value are * separated by a double colon ("::"). For example: * "app.action::target". * * The third format is used to represent an action with any type of * target value, including strings. The target value follows the action * name, surrounded in parens. For example: "app.action(42)". The * target value is parsed using Glib::variant_parse(). If a tuple-typed * value is desired, it must be specified in the same way, resulting in * two sets of parens, for example: "app.action((1,2,3))". A string * target can be specified this way as well: "app.action('target')". * For strings, this third format must be used if * target value is * empty or contains characters other than alphanumerics, '-' and '.'. * * @newin{2,38} * * @param detailed_name A detailed action name. * @param action_name The action name. * @param target_value The target value, or nullptr for no target. * * @throws Glib::VariantParseError */ static void parse_detailed_name_variant(const Glib::ustring& detailed_name, Glib::ustring& action_name, Glib::VariantBase& target_value); /** Formats a detailed action name from the action's action_name and @a target_value. * * This function is the opposite of parse_detailed_action_name(). * It will produce a string that can be parsed back to the @a action_name * and @a target_value by that function. * * See that function for the types of strings that will be printed by * this function. * * @param target_value A Variant target value. * @result A detailed format string. */ template Glib::ustring print_detailed_name(const T_Value& target_value); /** Formats a detailed action name from @a action_name and @a target_value. * * It is an error to call this function with an invalid action name. * * This function is the opposite of g_action_parse_detailed_name(). * It will produce a string that can be parsed back to the @a action_name * and @a target_value by that function. * * See that function for the types of strings that will be printed by * this function. * * @newin{2,38} * * @param action_name A valid action name. * @param target_value A Variant target value, or nullptr. * @return A detailed format string. */ static Glib::ustring print_detailed_name_variant(const Glib::ustring& action_name, const Glib::VariantBase& target_value); /** If @a action is currently enabled. * * If the action is disabled then calls to g_action_activate() and * g_action_change_state() have no effect. * * @newin{2,28} * * Default value: true * * @return A PropertyProxy_ReadOnly that allows you to get the value of the property, * or receive notification when the value of the property changes. */ Glib::PropertyProxy_ReadOnly< bool > property_enabled() const; /** The name of the action. This is mostly meaningful for identifying * the action once it has been added to a ActionGroup. It is immutable. * * @newin{2,28} * * Default value: "" * * @return A PropertyProxy_ReadOnly that allows you to get the value of the property, * or receive notification when the value of the property changes. */ Glib::PropertyProxy_ReadOnly< Glib::ustring > property_name() const; /** The type of the parameter that must be given when activating the * action. This is immutable, and may be nullptr if no parameter is needed when * activating the action. * * @newin{2,28} * * @return A PropertyProxy_ReadOnly that allows you to get the value of the property, * or receive notification when the value of the property changes. */ Glib::PropertyProxy_ReadOnly< Glib::VariantType > property_parameter_type() const; /** The state of the action, or nullptr if the action is stateless. * * @newin{2,28} * * @return A PropertyProxy_ReadOnly that allows you to get the value of the property, * or receive notification when the value of the property changes. */ Glib::PropertyProxy_ReadOnly< Glib::VariantBase > property_state() const; /** The VariantType of the state that the action has, or nullptr if the * action is stateless. This is immutable. * * @newin{2,28} * * @return A PropertyProxy_ReadOnly that allows you to get the value of the property, * or receive notification when the value of the property changes. */ Glib::PropertyProxy_ReadOnly< Glib::VariantType > property_state_type() const; virtual Glib::ustring get_name_vfunc() const; virtual Glib::VariantType get_parameter_type_vfunc() const; virtual Glib::VariantType get_state_type_vfunc() const; virtual Glib::VariantBase get_state_hint_vfunc() const; virtual bool get_enabled_vfunc() const; virtual Glib::VariantBase get_state_vfunc() const; virtual void change_state_vfunc(const Glib::VariantBase& value); virtual void activate_vfunc(const Glib::VariantBase& parameter); public: public: //C++ methods used to invoke GTK+ virtual functions: protected: //GTK+ Virtual Functions (override these to change behaviour): //Default Signal Handlers:: }; template void Action::get_state(T_Value& value) const { value = T_Value(); //Make sure that it is initialized. using type_glib_variant = Glib::Variant; g_return_if_fail( g_variant_type_equal(g_action_get_state_type(const_cast(gobj())), type_glib_variant::variant_type().gobj())); const auto variantBase = get_state_variant(); const auto variantDerived = variantBase.cast_dynamic(variantBase); value = variantDerived.get(); } template void Action::get_state_hint(T_Value& value) const { value = T_Value(); //Make sure that it is initialized. using type_glib_variant = Glib::Variant; const auto variantBase = get_state_hint_variant(); // We can't check the type (a range) that will be returned before getting the range hint. g_return_if_fail( variantBase.is_of_type(type_glib_variant::variant_type()) ); const auto variantDerived = variantBase.cast_dynamic(variantBase); value = variantDerived.get(); } #ifndef DOXYGEN_SHOULD_SKIP_THIS // Doxygen 1.8.4 does not understand that this is the static function previously declared. template //static void Action::parse_detailed_name(const Glib::ustring& detailed_name, Glib::ustring& action_name, T_Value& target_value) { action_name.clear(); //Make sure the output arguments are initialized. target_value = T_Value(); using type_glib_variant = Glib::Variant; Glib::VariantBase target_value_variantBase; parse_detailed_name_variant(detailed_name, action_name, target_value_variantBase); if (!target_value_variantBase) throw Glib::VariantParseError(Glib::VariantParseError::TYPE_ERROR, "Detailed action name '" + detailed_name + "' has no target. Expected a target of type " + type_glib_variant::variant_type().get_string()); if (!target_value_variantBase.is_of_type(type_glib_variant::variant_type())) throw Glib::VariantParseError(Glib::VariantParseError::TYPE_ERROR, "Detailed action name '" + detailed_name + "' has a target of type " + target_value_variantBase.get_type_string() + ". Expected " + type_glib_variant::variant_type().get_string()); const type_glib_variant target_value_variantDerived = target_value_variantBase.cast_dynamic(target_value_variantBase); target_value = target_value_variantDerived.get(); } #endif /* DOXYGEN_SHOULD_SKIP_THIS */ template Glib::ustring Action::print_detailed_name(const T_Value& target_value) { using type_glib_variant = Glib::Variant; g_return_val_if_fail( g_variant_type_equal(g_action_get_parameter_type(const_cast(gobj())), type_glib_variant::variant_type().gobj()), Glib::ustring()); return print_detailed_name_variant(get_name(), type_glib_variant::create(target_value)); } template void Action::change_state(const T_Value& value) { using type_glib_variant = Glib::Variant; g_return_if_fail( g_variant_type_equal(g_action_get_state_type(const_cast(gobj())), type_glib_variant::variant_type().gobj())); change_state_variant(type_glib_variant::create(value)); } template void Action::change_state(const Glib::Variant& value) { change_state_variant(value); } template void Action::activate(const T_Value& parameter) { using type_glib_variant = Glib::Variant; g_return_if_fail( g_variant_type_equal(g_action_get_parameter_type(const_cast(gobj())), type_glib_variant::variant_type().gobj())); activate_variant(type_glib_variant::create(parameter)); } template void Action::activate(const Glib::Variant& value) { activate_variant(value); } } // namespace Gio namespace Glib { /** A Glib::wrap() method for this object. * * @param object The C instance. * @param take_copy False if the result should take ownership of the C instance. True if it should take a new copy or ref. * @result A C++ instance that wraps this C instance. * * @relates Gio::Action */ GIOMM_API Glib::RefPtr wrap(GAction* object, bool take_copy = false); } // namespace Glib #endif /* _GIOMM_ACTION_H */