/usr/include/gtkmm-3.0/gtkmm/treepath.h is in libgtkmm-3.0-dev 3.22.0-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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#ifndef _GTKMM_TREEPATH_H
#define _GTKMM_TREEPATH_H
#include <gtkmmconfig.h>
#include <glibmm/ustring.h>
#include <sigc++/sigc++.h>
/*
* 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, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
// This is for including the config header before any code (such as
// the #ifndef GTKMM_DISABLE_DEPRECATED in deprecated classes) is generated:
#include <gtkmm/treemodel.h>
#include <gtkmm/selectiondata.h>
#ifdef GLIBMM_HAVE_SUN_REVERSE_ITERATOR
#include <cstddef> /* for std::ptrdiff_t */
#endif
#ifndef DOXYGEN_SHOULD_SKIP_THIS
extern "C" { typedef struct _GtkTreePath GtkTreePath; }
#endif
namespace Gtk
{
/** A path 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.
*
* A Path can be converted into either an array of unsigned integers or a string. The string
* form is a list of numbers separated by a colon. Each number refers to the
* offset at that level. Thus, the path "0" refers to the root node and the
* path "2:4" refers to the fifth child of the third node.
*
* Typedefed as Gtk::TreeModel::Path.
* @ingroup TreeView
*/
class TreePath
{
public:
#ifndef DOXYGEN_SHOULD_SKIP_THIS
using CppObjectType = TreePath;
using BaseObjectType = GtkTreePath;
#endif /* DOXYGEN_SHOULD_SKIP_THIS */
/** Get the GType for this class, for use with the underlying GObject type system.
*/
static GType get_type() G_GNUC_CONST;
TreePath();
TreePath(const TreePath& other);
TreePath& operator=(const TreePath& other);
TreePath(TreePath&& other) noexcept;
TreePath& operator=(TreePath&& other) noexcept;
~TreePath() noexcept;
void swap(TreePath& other) noexcept;
///Provides access to the underlying C instance.
GtkTreePath* gobj() { return gobject_; }
///Provides access to the underlying C instance.
const GtkTreePath* gobj() const { return gobject_; }
///Provides access to the underlying C instance. The caller is responsible for freeing it. Use when directly setting fields in structs.
GtkTreePath* gobj_copy() const;
protected:
GtkTreePath* gobject_;
private:
public:
typedef unsigned int size_type;
typedef int difference_type;
typedef int value_type;
typedef int& reference;
typedef const int& const_reference;
// Use plain pointers for simplicity.
typedef int* iterator;
typedef const int* const_iterator;
#ifndef GLIBMM_HAVE_SUN_REVERSE_ITERATOR
typedef std::reverse_iterator<iterator> reverse_iterator;
typedef std::reverse_iterator<const_iterator> const_reverse_iterator;
#else
typedef std::reverse_iterator<iterator, std::random_access_iterator_tag,
int, int&, int*, std::ptrdiff_t> reverse_iterator;
typedef std::reverse_iterator<const_iterator, std::random_access_iterator_tag,
int, const int&, const int*, std::ptrdiff_t> const_reverse_iterator;
#endif /* GLIBMM_HAVE_SUN_REVERSE_ITERATOR */
explicit TreePath(GtkTreePath* gobject, bool make_a_copy = true);
explicit TreePath(size_type n, value_type value = 0);
explicit TreePath(const Glib::ustring& path);
explicit TreePath(const TreeModel::iterator& iter);
template <class In> inline TreePath(In pbegin, In pend);
void clear();
// I think it's OK for this assignment to be implicit. It's very useful.
TreePath& operator=(const TreeModel::iterator& iter);
#ifndef GTKMM_DISABLE_DEPRECATED
/** This typedef is just to make it more obvious that
* our operator const void* should be used like operator bool().
*
* @deprecated Use the explicit operator bool() instead.
*/
typedef const void* BoolExpr;
/** Checks that the path is not empty, by calling empty().
* For instance,
* @code
* if(treepath)
* do_something()
* @endcode
*
* @deprecated Use the explicit operator bool() instead.
*
* @newin{2,16}
*/
operator BoolExpr() const;
#endif // GTKMM_DISABLE_DEPRECATED
/** Checks that the path is not empty, by calling empty().
* For instance,
* @code
* if(treepath)
* do_something()
* @endcode
*
* @newin{3,22}
*/
explicit operator bool() const;
template <class In> inline void assign(In pbegin, In pend);
template <class In> void append(In pbegin, In pend);
/** Appends a new index to a path.
*
* As a result, the depth of the path is increased.
*
* @param index The index.
*/
void push_back(int index);
/** Prepends a new index to a path.
*
* As a result, the depth of the path is increased.
*
* @param index The index.
*/
void push_front(int index);
size_type size() const;
bool empty() const;
reference operator[](size_type i);
const_reference operator[](size_type i) const;
iterator begin();
iterator end();
const_iterator begin() const;
const_iterator end() const;
// Note: there is no advantage in not inlining these methods.
// We can't change them without breaking ABI anyway.
reverse_iterator rbegin() { return reverse_iterator(end()); }
reverse_iterator rend() { return reverse_iterator(begin()); }
const_reverse_iterator rbegin() const { return const_reverse_iterator(end()); }
const_reverse_iterator rend() const { return const_reverse_iterator(begin()); }
reference front() { return *begin(); }
const_reference front() const { return *begin(); }
reference back() { return *rbegin(); }
const_reference back() const { return *rbegin(); }
/** Moves the @a path to point to the next node at the current depth.
*/
void next();
/** Moves the @a path to point to the previous node at the
* current depth, if it exists.
*
* @return <tt>true</tt> if @a path has a previous node, and
* the move was made.
*/
bool prev();
/** Moves the @a path to point to its parent node, if it has a parent.
*
* @return <tt>true</tt> if @a path has a parent, and the move was made.
*/
bool up();
/** Moves @a path to point to the first child of the current path.
*/
void down();
/** Returns <tt>true</tt> if @a descendant is a descendant of @a path.
*
* @param descendant Another Gtk::TreePath-struct.
* @return <tt>true</tt> if @a descendant is contained inside @a path.
*/
bool is_ancestor(const TreePath& descendant) const;
/** Returns <tt>true</tt> if @a path is a descendant of @a ancestor.
*
* @param ancestor Another Gtk::TreePath-struct.
* @return <tt>true</tt> if @a ancestor contains @a path somewhere below it.
*/
bool is_descendant(const TreePath& ancestor) const;
/** Generates a string representation of the path.
*
* This string is a “:” separated list of numbers.
* For example, “4:10:0:3” would be an acceptable
* return value for this string.
*
* @return The string.
*/
Glib::ustring to_string() const;
//replaced by push_back()
//replaced by push_front()
//replaced by size()
/**
* Obtains a Gtk::TreeModel and Gtk::TreeModel::Path from selection data of target type
* "GTK_TREE_MODEL_ROW". Normally called from a drag_data_received handler.
* This function can only be used if @a selection_data originates from the same
* process that's calling this function, because a pointer to the tree model
* is being passed around. If you aren't in the same process, then you'll
* get memory corruption. In the Gtk::TreeDragDest drag_data_received signal handler,
* you can assume that selection data of type "GTK_TREE_MODEL_ROW" is
* from the current process.
*
* @param selection_data a #SelectionData
* @param model a Gtk::TreeModel
* @param path a row in model
*
* @return true if the selection_data had target type "GTK_TREE_MODEL_ROW" and
* is otherwise valid
**/
static bool get_from_selection_data(const SelectionData& selection_data, Glib::RefPtr<TreeModel>& model, TreePath& path);
//TODO: Add an override that takes a const TreeModel (and deprecate the current version).
/// See description in the other overload.
static bool get_from_selection_data(const SelectionData& selection_data, TreePath& path);
/**
* Sets selection data of target type "GTK_TREE_MODEL_ROW". Normally used
* in a drag_data_get signal handler.
*
* @param selection_data some #SelectionData
* @param model: a Gtk::TreeModel
*
* @return true if the selection_data had the proper target type to allow us to set a tree row
**/
bool set_in_selection_data(SelectionData& selection_data, const Glib::RefPtr<const TreeModel>& model) const;
};
#ifndef DOXYGEN_SHOULD_SKIP_THIS
template <class In>
void TreePath::append(In pbegin, In pend)
{
// push_back() can't throw -- if it could, this code wouldn't be strongly exception-safe.
for(; pbegin != pend; ++pbegin)
this->push_back(*pbegin);
}
template <class In> inline
TreePath::TreePath(In pbegin, In pend)
{
this->append(pbegin, pend);
}
template <class In> inline
void TreePath::assign(In pbegin, In pend)
{
TreePath temp (pbegin, pend);
this->swap(temp);
}
struct TreePathTraits
{
typedef TreePath CppType;
typedef const GtkTreePath* CType;
typedef GtkTreePath* CTypeNonConst;
static CType to_c_type(const CppType& item)
{ return item.gobj(); }
static CType to_c_type(CType item)
{ return item; }
static CppType to_cpp_type(CType item)
{ return CppType(const_cast<CTypeNonConst>(item)); }
static void release_c_type(CType item)
{ gtk_tree_path_free(const_cast<CTypeNonConst>(item)); }
};
#endif /* DOXYGEN_SHOULD_SKIP_THIS */
} // namespace Gtk
namespace Gtk
{
/** @relates Gtk::TreePath
* @param lhs The left-hand side
* @param rhs The right-hand side
* @result The result
*/
bool operator==(const TreePath& lhs, const TreePath& rhs);
/** @relates Gtk::TreePath
* @param lhs The left-hand side
* @param rhs The right-hand side
* @result The result
*/
bool operator!=(const TreePath& lhs, const TreePath& rhs);
/** @relates Gtk::TreePath
* @param lhs The left-hand side
* @param rhs The right-hand side
* @result The result
*/
bool operator<(const TreePath& lhs, const TreePath& rhs);
/** @relates Gtk::TreePath
* @param lhs The left-hand side
* @param rhs The right-hand side
* @result The result
*/
bool operator>(const TreePath& lhs, const TreePath& rhs);
/** @relates Gtk::TreePath
* @param lhs The left-hand side
* @param rhs The right-hand side
* @result The result
*/
bool operator<=(const TreePath& lhs, const TreePath& rhs);
/** @relates Gtk::TreePath
* @param lhs The left-hand side
* @param rhs The right-hand side
* @result The result
*/
bool operator>=(const TreePath& lhs, const TreePath& rhs);
} // namespace Gtk
namespace Gtk
{
/** @relates Gtk::TreePath
* @param lhs The left-hand side
* @param rhs The right-hand side
*/
inline void swap(TreePath& lhs, TreePath& rhs) noexcept
{ lhs.swap(rhs); }
} // namespace Gtk
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::TreePath
*/
Gtk::TreePath wrap(GtkTreePath* object, bool take_copy = false);
#ifndef DOXYGEN_SHOULD_SKIP_THIS
template <>
class Value<Gtk::TreePath> : public Glib::Value_Boxed<Gtk::TreePath>
{};
#endif /* DOXYGEN_SHOULD_SKIP_THIS */
} // namespace Glib
#endif /* _GTKMM_TREEPATH_H */
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