// Generated by gmmproc 2.84.0 -- DO NOT MODIFY! #ifndef _GTKMM_TREEMODEL_H #define _GTKMM_TREEMODEL_H #ifndef GTKMM_DISABLE_DEPRECATED #include #include /* Copyright (C) 1998-2002 The gtkmm 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 #include // The entire file is deprecated. #ifndef DOXYGEN_SHOULD_SKIP_THIS using GtkTreeModel = struct _GtkTreeModel; using GtkTreeModelClass = struct _GtkTreeModelClass; #endif /* DOXYGEN_SHOULD_SKIP_THIS */ #ifndef DOXYGEN_SHOULD_SKIP_THIS namespace Gtk { class GTKMM_API TreeModel_Class; } // namespace Gtk #endif // DOXYGEN_SHOULD_SKIP_THIS namespace Gtk { class GTKMM_API TreeModelFilter; class GTKMM_API TreeModelSort; class GTKMM_API TreePath; class GTKMM_API TreeRowReference; /** This class defines a generic tree interface for use by the Gtk::TreeView widget. * * It is is designed to be usable with any appropriate data structure. The * programmer just has to implement this interface on their own data type for * it to be viewable by a Gtk::TreeView widget. * * The model is represented as a hierarchical tree of strongly-typed, columned * data. In other words, the model can be seen as a tree where every node has * different values depending on which column is being queried. The type of * data found in a column is determined by TreeModel::Column<> templates. * The types are homogeneous per column across all nodes. It is important to note that this * interface only provides a way of examining a model and observing changes. * The implementation of each individual model decides how and if changes are * made. * * In order to make life simpler for programmers who do not need to write their * own specialized model, two generic models are provided - the Gtk::TreeStore * and the Gtk::ListStore. To use these, the developer simply pushes data into * these models as necessary. These models provide the data structure as well * as all appropriate tree interfaces. As a result, implementing drag and drop, * sorting, and storing data is trivial. For the vast majority of trees and * lists, these two models are sufficient. * * Models are accessed on a node/column level of granularity. One can query for * the value of a model at a certain node and a certain column on that node. * There are two structures used to reference a particular node in a model. * They are the @link Gtk::TreePath Path@endlink and the iterator. Most of the interface consists of * operations on an @link Gtk::TreeIter iterator@endlink. * * A @link Gtk::TreePath Gtk::TreeModel::Path@endlink is essentially a potential node. It is a location on a model that may * or may not actually correspond to a node on a specific model. * * By contrast, an @link Gtk::TreeIter Gtk::TreeModel::iterator@endlink is a reference to a specific node on a specific * model. One can convert a path to an @link Gtk::TreeIter iterator@endlink by calling Gtk::TreeModel::get_iter(). * These iterators are the primary way of accessing a model and are similar to the iterators * used by Gtk::TextBuffer. The model interface defines a set of operations * using them for navigating the model. * * The @link Gtk::TreeRowReference RowReference@endlink is also useful, because it remains * valid as long as there is an existing row pointed to by it's path. You can convert between RowReferences and iterators and @link Gtk::TreePath Path@endlink s. * * @ingroup TreeView * @deprecated 4.10: Use Gio::ListModel instead. */ class GTKMM_API TreeModel : public Glib::Interface { #ifndef DOXYGEN_SHOULD_SKIP_THIS public: using CppObjectType = TreeModel; using CppClassType = TreeModel_Class; using BaseObjectType = GtkTreeModel; using BaseClassType = GtkTreeModelIface; // noncopyable TreeModel(const TreeModel&) = delete; TreeModel& operator=(const TreeModel&) = delete; private: friend class TreeModel_Class; static CppClassType treemodel_class_; #endif /* DOXYGEN_SHOULD_SKIP_THIS */ protected: /** * You should derive from this class to use it. */ TreeModel(); #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 TreeModel(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 TreeModel(GtkTreeModel* castitem); protected: #endif /* DOXYGEN_SHOULD_SKIP_THIS */ public: TreeModel(TreeModel&& src) noexcept; TreeModel& operator=(TreeModel&& src) noexcept; ~TreeModel() 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. GtkTreeModel* gobj() { return reinterpret_cast(gobject_); } ///Provides access to the underlying C GObject. const GtkTreeModel* gobj() const { return reinterpret_cast(gobject_); } private: public: typedef TreeModelColumnRecord ColumnRecord; typedef TreeNodeChildren Children; typedef TreeNodeConstChildren ConstChildren; typedef Children::iterator iterator; typedef ConstChildren::const_iterator const_iterator; typedef TreeConstRow ConstRow; typedef TreeRow Row; typedef TreePath Path; typedef TreeRowReference RowReference; //These are part of GtkTreeModelFilter or GtkTreeModelSort, not GtkTreeModel: /** @addtogroup gtkmmEnums gtkmm Enums and Flags */ /** * @var Flags::ITERS_PERSIST * Iterators survive all signals * emitted by the tree. * * @var Flags::LIST_ONLY * The model is a list only, and never * has children. */ /** These flags indicate various properties of a `Gtk::TreeModel`. * * They are returned by Gtk::TreeModel::get_flags(), and must be * static for the lifetime of the object. A more complete description * of Gtk::TreeModel::Flags::ITERS_PERSIST can be found in the overview of * this section. * * Deprecated: 4.10: There is no replacement * * @ingroup gtkmmEnums * @par Bitwise operators: * TreeModel::Flags operator|(TreeModel::Flags, TreeModel::Flags)
* TreeModel::Flags operator&(TreeModel::Flags, TreeModel::Flags)
* TreeModel::Flags operator^(TreeModel::Flags, TreeModel::Flags)
* TreeModel::Flags operator~(TreeModel::Flags)
* TreeModel::Flags& operator|=(TreeModel::Flags&, TreeModel::Flags)
* TreeModel::Flags& operator&=(TreeModel::Flags&, TreeModel::Flags)
* TreeModel::Flags& operator^=(TreeModel::Flags&, TreeModel::Flags)
*/ enum class Flags { ITERS_PERSIST = 1 << 0, LIST_ONLY = 1 << 1 }; /** Returns a valid iterator pointing to @a path. * * @param path The @link Gtk::TreePath Gtk::TreeModel::Path@endlink. * @result A valid iterator pointing to the path, or an invalid iterator if that is not possible. */ iterator get_iter(const Path& path); /** Returns a valid iterator pointing to @a path. * * @param path The @link Gtk::TreePath Gtk::TreeModel::Path@endlink. * @result A valid iterator pointing to the path, or an invalid iterator if that is not possible. */ const_iterator get_iter(const Path& path) const; /** Returns a valid iterator pointing to @a path_string. * * @param path_string The path, as a string representation. * @result A valid iterator pointing to the path, or an invalid iterator if that is not possible. */ iterator get_iter(const Glib::ustring& path_string); /** Returns a valid iterator pointing to @a path_string. * * @param path_string The path, as a string representation. * @result A valid iterator pointing to the path, or an invalid iterator if that is not possible. */ const_iterator get_iter(const Glib::ustring& path_string) const; ///This returns an STL-like container API, for iterating over the rows. Children children(); ///This returns an STL-like container API, for iterating over the rows. const ConstChildren children() const; /** The type of callback slot used by foreach_iter(). * * If the callback function returns true, then the tree ceases to be walked, and foreach_iter() returns. * * For example: bool on_foreach_iter(const Gtk::TreeModel::iterator& iter); */ typedef sigc::slot SlotForeachIter; /** Calls a callback of type @link Gtk::TreeModel::SlotForeachIter * SlotForeachIter @endlink on each node in the model in a depth-first * fashion. * * If the callback function returns true, then the tree ceases to be walked, and foreach_iter() returns. * * @param slot The function to call for each selected node. */ void foreach_iter(const SlotForeachIter& slot); /** The type of callback slot used by foreach_path(). * * For example: bool on_foreach_path(const Gtk::TreeModel::Path& path); * * If the callback function returns true, then the tree ceases to be walked, and foreach_path() returns. */ typedef sigc::slot SlotForeachPath; /** Calls a callback of type @link Gtk::TreeModel::SlotForeachPath * SlotForeachPath @endlink on each node in the model in a depth-first * fashion. * * If the callback function returns true, then the tree ceases to be walked, and foreach_path() returns. * * @param slot The function to call for each selected node. */ void foreach_path(const SlotForeachPath& slot); /** The type of callback slot used by foreach(). * * For example: bool on_foreach(const Gtk::TreeModel::Path& path, const Gtk::TreeModel::iterator& iter); * * If the callback function returns true, then the tree ceases to be walked, and foreach() returns. */ typedef sigc::slot SlotForeachPathAndIter; /** Calls a callback of type @link Gtk::TreeModel::SlotForeachPathAndIter * SlotForeachPathAndIter @endlink on each node in the model in a depth-first * fashion. * * If the callback function returns true, then the tree ceases to be walked, and foreach() returns. * * @param slot The function to call for each selected node. */ void foreach(const SlotForeachPathAndIter& slot); /** Returns a set of flags supported by this interface. * * The flags are a bitwise combination of `Gtk::TreeModel`Flags. * The flags supported should not change during the lifetime * of the @a tree_model. * * Deprecated: 4.10 * * @return The flags supported by this interface. */ Flags get_flags() const; /** Returns the number of columns supported by @a tree_model. * * Deprecated: 4.10 * * @return The number of columns. */ int get_n_columns() const; /** Returns the type of the column. * * Deprecated: 4.10 * * @param index The column index. * @return The type of the column. */ GType get_column_type(int index) const; //TODO: A C++-type version of get_column_type()? /** Returns a Gtk::TreePath referenced by @a iter. * * @param iter The Gtk::TreeIter. * @return A Gtk::TreePath. */ TreeModel::Path get_path(const const_iterator& iter) const; /** Emits the signal_row_changed() signal on @a tree_model. * * See signal_row_changed(). * * Deprecated: 4.10 * * @param path A `Gtk::TreePath` pointing to the changed row. * @param iter A valid `Gtk::TreeIter` pointing to the changed row. */ void row_changed(const Path& path, const const_iterator& iter); /** Emits the signal_row_inserted() signal on @a tree_model. * * See signal_row_inserted(). * * Deprecated: 4.10 * * @param path A `Gtk::TreePath` pointing to the inserted row. * @param iter A valid `Gtk::TreeIter` pointing to the inserted row. */ void row_inserted(const Path& path, const const_iterator& iter); /** Emits the signal_row_has_child_toggled() signal on @a tree_model. * * See signal_row_has_child_toggled(). * * This should be called by models after the child * state of a node changes. * * Deprecated: 4.10 * * @param path A `Gtk::TreePath` pointing to the changed row. * @param iter A valid `Gtk::TreeIter` pointing to the changed row. */ void row_has_child_toggled(const Path& path, const const_iterator& iter); /** Emits the signal_row_deleted() signal on @a tree_model. * * See signal_row_deleted(). * * This should be called by models after a row has been removed. * The location pointed to by @a path should be the location that * the row previously was at. It may not be a valid location anymore. * * Nodes that are deleted are not unreffed, this means that any * outstanding references on the deleted node should not be released. * * Deprecated: 4.10 * * @param path A `Gtk::TreePath` pointing to the previous location of * the deleted row. */ void row_deleted(const Path& path); /** Emits the "rows_reordered" signal on the tree model. This should be called by * custom models when their rows have been reordered. * * @param path A tree path pointing to the tree node whose children have been reordered. * @param iter A valid iterator pointing to the node whose children have been reordered. See also, rows_reordered(const Path& path, const std::vector& new_order), if the path has a depth of 0. * @param new_order An array of integers mapping the current position of each child * to its old position before the re-ordering, i.e. @a new_order[newpos] = oldpos. */ void rows_reordered(const Path& path, const const_iterator& iter, const std::vector& new_order); /** Emits the "rows_reordered" signal on the tree model. This should be called by * custom models when their rows have been reordered. This method overload is for nodes whose * path has a depth of 0. * * @param path A tree path pointing to the tree node whose children have been reordered. * @param new_order An array of integers mapping the current position of each child * to its old position before the re-ordering, i.e. @a new_order[newpos] = oldpos. */ void rows_reordered(const Path& path, const std::vector& new_order); /** Emits the Gtk::TreeModel::signal_rows_reordered() signal on @a tree_model. * * This should be called by models when their rows have been * reordered. * * @param path A Gtk::TreePath pointing to the tree node whose children * have been reordered. * @param iter A valid Gtk::TreeIter pointing to the node whose children * have been reordered, or nullptr if the depth of @a path is 0. * @param new_order An array of integers mapping the current position of * each child to its old position before the re-ordering, * i.e. new_order[newpos] = oldpos. */ void rows_reordered(const Path& path, const const_iterator& iter, int* new_order); /** Generates a string representation of the iter. * * This string is a “:” separated list of numbers. * For example, “4:10:0:3” would be an acceptable * return value for this string. * * Deprecated: 4.10 * * @param iter An Gtk::TreeIter. * @return The string. */ Glib::ustring get_string(const const_iterator& iter) const; /** * @par Slot Prototype: * void on_my_%row_changed(const TreeModel::Path& path, const TreeModel::iterator& iter) * * Flags: Run Last * * This signal is emitted when a row in the model has changed. * * @param path A `Gtk::TreePath` identifying the changed row. * @param iter A valid `Gtk::TreeIter` pointing to the changed row. */ Glib::SignalProxy signal_row_changed(); /** * @par Slot Prototype: * void on_my_%row_inserted(const TreeModel::Path& path, const TreeModel::iterator& iter) * * Flags: Run First * * This signal is emitted when a new row has been inserted in * the model. * * Note that the row may still be empty at this point, since * it is a common pattern to first insert an empty row, and * then fill it with the desired values. * * @param path A `Gtk::TreePath` identifying the new row. * @param iter A valid `Gtk::TreeIter` pointing to the new row. */ Glib::SignalProxy signal_row_inserted(); /** * @par Slot Prototype: * void on_my_%row_has_child_toggled(const TreeModel::Path& path, const TreeModel::iterator& iter) * * Flags: Run Last * * This signal is emitted when a row has gotten the first child * row or lost its last child row. * * @param path A `Gtk::TreePath` identifying the row. * @param iter A valid `Gtk::TreeIter` pointing to the row. */ Glib::SignalProxy signal_row_has_child_toggled(); /** * @par Slot Prototype: * void on_my_%row_deleted(const TreeModel::Path& path) * * Flags: Run First * * This signal is emitted when a row has been deleted. * * Note that no iterator is passed to the signal handler, * since the row is already deleted. * * This should be called by models after a row has been removed. * The location pointed to by @a path should be the location that * the row previously was at. It may not be a valid location anymore. * * @param path A `Gtk::TreePath` identifying the row. */ Glib::SignalProxy signal_row_deleted(); /** * @par Slot Prototype: * void on_my_%rows_reordered(const TreeModel::Path& path, const TreeModel::iterator& iter, int* new_order) * * Flags: Run First * * This signal is emitted when the children of a node in the * `Gtk::TreeModel` have been reordered. * * Note that this signal is not emitted * when rows are reordered by DND, since this is implemented * by removing and then reinserting the row. * * @param path A `Gtk::TreePath` identifying the tree node whose children * have been reordered. * @param iter A valid `Gtk::TreeIter` pointing to the node whose children * have been reordered, or nullptr if the depth of @a path is 0. * @param new_order An array of integers mapping the current position * of each child to its old position before the re-ordering, * i.e. @a new_order`[newpos] = oldpos`. */ Glib::SignalProxy signal_rows_reordered(); protected: virtual Flags get_flags_vfunc() const; virtual int get_n_columns_vfunc() const; virtual GType get_column_type_vfunc(int index) const; //These are only for deriving new TreeModels, which isn't very common or easy: /** Override and implement this in a derived TreeModel class. * Sets @a iter_next to refer to the node following @a iter it at the current level. * If there is no next iter, false is returned and iter_next is set to be invalid. * * @param iter An iterator. * @param iter_next An iterator that will be set to refer to the next node, or will be set as invalid. * @result true if the operation was possible. */ virtual bool iter_next_vfunc(const iterator& iter, iterator& iter_next) const; /** Override and implement this in a derived TreeModel class. * Sets @a iter to a valid iterator pointing to @a path * * @param path An path to a node. * @param iter An iterator that will be set to refer to a node to the path, or will be set as invalid. * @result true if the operation was possible. */ virtual bool get_iter_vfunc(const Path& path, iterator& iter) const; /** Override and implement this in a derived TreeModel class. * Sets @a iter to refer to the first child of @a parent. If @a parent has no children, * false is returned and @a iter is set to be invalid. * * @param parent An iterator. * @param iter An iterator that will be set to refer to the firt child node, or will be set as invalid. * @result true if the operation was possible. */ virtual bool iter_children_vfunc(const iterator& parent, iterator& iter) const; /** Override and implement this in a derived TreeModel class. * Sets @a iter to be the parent of @a child. If @a child is at the toplevel, and * doesn't have a parent, then @a iter is set to an invalid iterator and false * is returned. * * @param child An iterator. * @param iter An iterator that will be set to refer to the parent node, or will be set as invalid. * @result true if the operation was possible. */ virtual bool iter_parent_vfunc(const iterator& child, iterator& iter) const; /** Override and implement this in a derived TreeModel class. * Sets @a iter to be the child of @a parent using the given index. The first * index is 0. If @a n is too big, or @a parent has no children, @a iter is set * to an invalid iterator and false is returned. * See also iter_nth_root_child_vfunc() * * @param parent An iterator. * @param n The index of the child node to which @a iter should be set. * @param iter An iterator that will be set to refer to the nth node, or will be set as invalid. * @result true if the operation was possible. */ virtual bool iter_nth_child_vfunc(const iterator& parent, int n, iterator& iter) const; /** Override and implement this in a derived TreeModel class. * Sets @a iter to be the child of at the root level using the given index. The first * index is 0. If @a n is too big, or if there are no children, @a iter is set * to an invalid iterator and false is returned. * See also iter_nth_child_vfunc(). * * @param n The index of the child node to which @a iter should be set. * @param iter An iterator that will be set to refer to the nth node, or will be set as invalid. * @result true if the operation was possible. */ virtual bool iter_nth_root_child_vfunc(int n, iterator& iter) const; /** Override and implement this in a derived TreeModel class. * Returns true if @a iter has children, false otherwise. * * @param iter The iterator to test for children. * @result true if @a iter has children. */ virtual bool iter_has_child_vfunc(const const_iterator& iter) const; /** Override and implement this in a derived TreeModel class. * Returns the number of children that @a iter has. * See also iter_n_root_children_vfunc(). * * @param iter The iterator to test for children. * @result The number of children of @a iter. */ virtual int iter_n_children_vfunc(const const_iterator& iter) const; /** Override and implement this in a derived TreeModel class. * Returns the number of toplevel nodes. * See also iter_n_children(). * * @result The number of children at the root level. */ virtual int iter_n_root_children_vfunc() const; /** Override and implement this in a derived TreeModel class. * Lets the tree ref the node. This is an optional method for models to * implement. To be more specific, models may ignore this call as it exists * primarily for performance reasons. * * This function is primarily meant as a way for views to let caching model know * when nodes are being displayed (and hence, whether or not to cache that * node.) For example, a file-system based model would not want to keep the * entire file-hierarchy in memory, just the sections that are currently being * displayed by every current view. * * A model should be expected to be able to get an iter independent of its * reffed state. * * @param iter the iterator. */ virtual void ref_node_vfunc(const iterator& iter) const; /** Override and implement this in a derived TreeModel class. * Lets the tree unref the node. This is an optional method for models to * implement. To be more specific, models may ignore this call as it exists * primarily for performance reasons. * * For more information on what this means, see unref_node_vfunc(). * Please note that nodes that are deleted are not unreffed. * * @param iter the iterator. */ virtual void unref_node_vfunc(const iterator& iter) const; /** Override and implement this in a derived TreeModel class. * Returns a Path referenced by @a iter. * * @param iter The iterator. * @result The path. */ virtual TreeModel::Path get_path_vfunc(const const_iterator& iter) const; /** Override and implement this in a derived TreeModel class. * Initializes and sets @a value to that at @a column. * * @param iter The iterator. * @param column The column to lookup the value at. * @param value An empty Glib:Value to set. */ virtual void get_value_vfunc(const const_iterator& iter, int column, Glib::ValueBase& value) const; //Called by TreeRow, which is a friend class: //The comment about row_changed() in the documentation is based on my reading of the source of //gtk_list_store_set_value() and gtk_tree_store_set_value(). murrayc /** Override and implement this in a derived TreeModel class, so that Row::operator() and * Row::set_value() work. * Your implementation of set_value_impl() should call row_changed() after changing the value. */ virtual void set_value_impl(const iterator& iter, int column, const Glib::ValueBase& value); //This might not need to be virtual, but it's not a big deal. murrayc. virtual void get_value_impl(const const_iterator& iter, int column, Glib::ValueBase& value) const; friend GTKMM_API class Gtk::TreeModelFilter; friend GTKMM_API class Gtk::TreeModelSort; friend GTKMM_API class Gtk::TreeConstRow; friend GTKMM_API class Gtk::TreeRow; public: public: //C++ methods used to invoke GTK+ virtual functions: protected: //GTK+ Virtual Functions (override these to change behaviour): //Default Signal Handlers:: /// This is a default handler for the signal signal_row_changed(). virtual void on_row_changed(const TreeModel::Path& path, const TreeModel::iterator& iter); /// This is a default handler for the signal signal_row_inserted(). virtual void on_row_inserted(const TreeModel::Path& path, const TreeModel::iterator& iter); /// This is a default handler for the signal signal_row_has_child_toggled(). virtual void on_row_has_child_toggled(const TreeModel::Path& path, const TreeModel::iterator& iter); /// This is a default handler for the signal signal_row_deleted(). virtual void on_row_deleted(const TreeModel::Path& path); /// This is a default handler for the signal signal_rows_reordered(). virtual void on_rows_reordered(const TreeModel::Path& path, const TreeModel::iterator& iter, int* new_order); }; } // namespace Gtk namespace Gtk { /** @ingroup gtkmmEnums */ inline constexpr TreeModel::Flags operator|(TreeModel::Flags lhs, TreeModel::Flags rhs) { return static_cast(static_cast(lhs) | static_cast(rhs)); } /** @ingroup gtkmmEnums */ inline constexpr TreeModel::Flags operator&(TreeModel::Flags lhs, TreeModel::Flags rhs) { return static_cast(static_cast(lhs) & static_cast(rhs)); } /** @ingroup gtkmmEnums */ inline constexpr TreeModel::Flags operator^(TreeModel::Flags lhs, TreeModel::Flags rhs) { return static_cast(static_cast(lhs) ^ static_cast(rhs)); } /** @ingroup gtkmmEnums */ inline constexpr TreeModel::Flags operator~(TreeModel::Flags flags) { return static_cast(~static_cast(flags)); } /** @ingroup gtkmmEnums */ inline TreeModel::Flags& operator|=(TreeModel::Flags& lhs, TreeModel::Flags rhs) { return (lhs = static_cast(static_cast(lhs) | static_cast(rhs))); } /** @ingroup gtkmmEnums */ inline TreeModel::Flags& operator&=(TreeModel::Flags& lhs, TreeModel::Flags rhs) { return (lhs = static_cast(static_cast(lhs) & static_cast(rhs))); } /** @ingroup gtkmmEnums */ inline TreeModel::Flags& operator^=(TreeModel::Flags& lhs, TreeModel::Flags rhs) { return (lhs = static_cast(static_cast(lhs) ^ static_cast(rhs))); } } // namespace Gtk #ifndef DOXYGEN_SHOULD_SKIP_THIS namespace Glib { template <> class GTKMM_API Value : public Glib::Value_Flags { public: static GType value_type() G_GNUC_CONST; }; } // namespace Glib #endif /* DOXYGEN_SHOULD_SKIP_THIS */ 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 Gtk::TreeModel */ GTKMM_API Glib::RefPtr wrap(GtkTreeModel* object, bool take_copy = false); } // namespace Glib #endif // GTKMM_DISABLE_DEPRECATED #endif /* _GTKMM_TREEMODEL_H */