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// This file was generated by gir (https://github.com/gtk-rs/gir) // from gir-files (https://github.com/gtk-rs/gir-files) // DO NOT EDIT use crate::Buildable; use crate::CellAreaContext; use crate::CellEditable; use crate::CellLayout; use crate::CellRenderer; use crate::CellRendererState; use crate::DirectionType; use crate::Orientation; use crate::SizeRequestMode; use crate::TreeIter; use crate::TreeModel; use crate::TreePath; use crate::Widget; use glib::object::Cast; use glib::object::IsA; use glib::signal::connect_raw; use glib::signal::SignalHandlerId; use glib::translate::*; use std::boxed::Box as Box_; use std::fmt; use std::mem; use std::mem::transmute; glib::wrapper! { /// The [`CellArea`][crate::CellArea] is an abstract class for [`CellLayout`][crate::CellLayout] widgets /// (also referred to as "layouting widgets") to interface with an /// arbitrary number of `GtkCellRenderers` and interact with the user /// for a given [`TreeModel`][crate::TreeModel] row. /// /// The cell area handles events, focus navigation, drawing and /// size requests and allocations for a given row of data. /// /// Usually users dont have to interact with the [`CellArea`][crate::CellArea] directly /// unless they are implementing a cell-layouting widget themselves. /// /// # Requesting area sizes /// /// As outlined in /// [GtkWidget’s geometry management section][geometry-management], /// GTK+ uses a height-for-width /// geometry management system to compute the sizes of widgets and user /// interfaces. [`CellArea`][crate::CellArea] uses the same semantics to calculate the /// size of an area for an arbitrary number of [`TreeModel`][crate::TreeModel] rows. /// /// When requesting the size of a cell area one needs to calculate /// the size for a handful of rows, and this will be done differently by /// different layouting widgets. For instance a [`TreeViewColumn`][crate::TreeViewColumn] /// always lines up the areas from top to bottom while a [`IconView`][crate::IconView] /// on the other hand might enforce that all areas received the same /// width and wrap the areas around, requesting height for more cell /// areas when allocated less width. /// /// It’s also important for areas to maintain some cell /// alignments with areas rendered for adjacent rows (cells can /// appear “columnized” inside an area even when the size of /// cells are different in each row). For this reason the [`CellArea`][crate::CellArea] /// uses a [`CellAreaContext`][crate::CellAreaContext] object to store the alignments /// and sizes along the way (as well as the overall largest minimum /// and natural size for all the rows which have been calculated /// with the said context). /// /// The [`CellAreaContext`][crate::CellAreaContext] is an opaque object specific to the /// [`CellArea`][crate::CellArea] which created it (see [`CellAreaExt::create_context()`][crate::prelude::CellAreaExt::create_context()]). /// The owning cell-layouting widget can create as many contexts as /// it wishes to calculate sizes of rows which should receive the /// same size in at least one orientation (horizontally or vertically), /// However, it’s important that the same [`CellAreaContext`][crate::CellAreaContext] which /// was used to request the sizes for a given [`TreeModel`][crate::TreeModel] row be /// used when rendering or processing events for that row. /// /// In order to request the width of all the rows at the root level /// of a [`TreeModel`][crate::TreeModel] one would do the following: /// /// /// /// **⚠️ The following code is in C ⚠️** /// /// ```C /// GtkTreeIter iter; /// gint minimum_width; /// gint natural_width; /// /// valid = gtk_tree_model_get_iter_first (model, &iter); /// while (valid) /// { /// gtk_cell_area_apply_attributes (area, model, &iter, FALSE, FALSE); /// gtk_cell_area_get_preferred_width (area, context, widget, NULL, NULL); /// /// valid = gtk_tree_model_iter_next (model, &iter); /// } /// gtk_cell_area_context_get_preferred_width (context, &minimum_width, &natural_width); /// ``` /// /// Note that in this example it’s not important to observe the /// returned minimum and natural width of the area for each row /// unless the cell-layouting object is actually interested in the /// widths of individual rows. The overall width is however stored /// in the accompanying [`CellAreaContext`][crate::CellAreaContext] object and can be consulted /// at any time. /// /// This can be useful since [`CellLayout`][crate::CellLayout] widgets usually have to /// support requesting and rendering rows in treemodels with an /// exceedingly large amount of rows. The [`CellLayout`][crate::CellLayout] widget in /// that case would calculate the required width of the rows in an /// idle or timeout source (see `g_timeout_add()`) and when the widget /// is requested its actual width in `GtkWidgetClass.get_preferred_width()` /// it can simply consult the width accumulated so far in the /// [`CellAreaContext`][crate::CellAreaContext] object. /// /// A simple example where rows are rendered from top to bottom and /// take up the full width of the layouting widget would look like: /// /// /// /// **⚠️ The following code is in C ⚠️** /// /// ```C /// static void /// foo_get_preferred_width (GtkWidget *widget, /// gint *minimum_size, /// gint *natural_size) /// { /// Foo *foo = FOO (widget); /// FooPrivate *priv = foo->priv; /// /// foo_ensure_at_least_one_handfull_of_rows_have_been_requested (foo); /// /// gtk_cell_area_context_get_preferred_width (priv->context, minimum_size, natural_size); /// } /// ``` /// /// In the above example the Foo widget has to make sure that some /// row sizes have been calculated (the amount of rows that Foo judged /// was appropriate to request space for in a single timeout iteration) /// before simply returning the amount of space required by the area via /// the [`CellAreaContext`][crate::CellAreaContext]. /// /// Requesting the height for width (or width for height) of an area is /// a similar task except in this case the [`CellAreaContext`][crate::CellAreaContext] does not /// store the data (actually, it does not know how much space the layouting /// widget plans to allocate it for every row. It’s up to the layouting /// widget to render each row of data with the appropriate height and /// width which was requested by the [`CellArea`][crate::CellArea]). /// /// In order to request the height for width of all the rows at the /// root level of a [`TreeModel`][crate::TreeModel] one would do the following: /// /// /// /// **⚠️ The following code is in C ⚠️** /// /// ```C /// GtkTreeIter iter; /// gint minimum_height; /// gint natural_height; /// gint full_minimum_height = 0; /// gint full_natural_height = 0; /// /// valid = gtk_tree_model_get_iter_first (model, &iter); /// while (valid) /// { /// gtk_cell_area_apply_attributes (area, model, &iter, FALSE, FALSE); /// gtk_cell_area_get_preferred_height_for_width (area, context, widget, /// width, &minimum_height, &natural_height); /// /// if (width_is_for_allocation) /// cache_row_height (&iter, minimum_height, natural_height); /// /// full_minimum_height += minimum_height; /// full_natural_height += natural_height; /// /// valid = gtk_tree_model_iter_next (model, &iter); /// } /// ``` /// /// Note that in the above example we would need to cache the heights /// returned for each row so that we would know what sizes to render the /// areas for each row. However we would only want to really cache the /// heights if the request is intended for the layouting widgets real /// allocation. /// /// In some cases the layouting widget is requested the height for an /// arbitrary for_width, this is a special case for layouting widgets /// who need to request size for tens of thousands of rows. For this /// case it’s only important that the layouting widget calculate /// one reasonably sized chunk of rows and return that height /// synchronously. The reasoning here is that any layouting widget is /// at least capable of synchronously calculating enough height to fill /// the screen height (or scrolled window height) in response to a single /// call to `GtkWidgetClass.get_preferred_height_for_width()`. Returning /// a perfect height for width that is larger than the screen area is /// inconsequential since after the layouting receives an allocation /// from a scrolled window it simply continues to drive the scrollbar /// values while more and more height is required for the row heights /// that are calculated in the background. /// /// # Rendering Areas /// /// Once area sizes have been aquired at least for the rows in the /// visible area of the layouting widget they can be rendered at /// `GtkWidgetClass.draw()` time. /// /// A crude example of how to render all the rows at the root level /// runs as follows: /// /// /// /// **⚠️ The following code is in C ⚠️** /// /// ```C /// GtkAllocation allocation; /// GdkRectangle cell_area = { 0, }; /// GtkTreeIter iter; /// gint minimum_width; /// gint natural_width; /// /// gtk_widget_get_allocation (widget, &allocation); /// cell_area.width = allocation.width; /// /// valid = gtk_tree_model_get_iter_first (model, &iter); /// while (valid) /// { /// cell_area.height = get_cached_height_for_row (&iter); /// /// gtk_cell_area_apply_attributes (area, model, &iter, FALSE, FALSE); /// gtk_cell_area_render (area, context, widget, cr, /// &cell_area, &cell_area, state_flags, FALSE); /// /// cell_area.y += cell_area.height; /// /// valid = gtk_tree_model_iter_next (model, &iter); /// } /// ``` /// /// Note that the cached height in this example really depends on how /// the layouting widget works. The layouting widget might decide to /// give every row its minimum or natural height or, if the model content /// is expected to fit inside the layouting widget without scrolling, it /// would make sense to calculate the allocation for each row at /// `signal::Widget::size-allocate` time using `gtk_distribute_natural_allocation()`. /// /// # Handling Events and Driving Keyboard Focus /// /// Passing events to the area is as simple as handling events on any /// normal widget and then passing them to the [`CellAreaExt::event()`][crate::prelude::CellAreaExt::event()] /// API as they come in. Usually [`CellArea`][crate::CellArea] is only interested in /// button events, however some customized derived areas can be implemented /// who are interested in handling other events. Handling an event can /// trigger the `signal::CellArea::focus-changed` signal to fire; as well as /// `signal::CellArea::add-editable` in the case that an editable cell was /// clicked and needs to start editing. You can call /// [`CellAreaExt::stop_editing()`][crate::prelude::CellAreaExt::stop_editing()] at any time to cancel any cell editing /// that is currently in progress. /// /// The [`CellArea`][crate::CellArea] drives keyboard focus from cell to cell in a way /// similar to [`Widget`][crate::Widget]. For layouting widgets that support giving /// focus to cells it’s important to remember to pass [`CellRendererState::FOCUSED`][crate::CellRendererState::FOCUSED] /// to the area functions for the row that has focus and to tell the /// area to paint the focus at render time. /// /// Layouting widgets that accept focus on cells should implement the /// `GtkWidgetClass.focus()` virtual method. The layouting widget is always /// responsible for knowing where [`TreeModel`][crate::TreeModel] rows are rendered inside /// the widget, so at `GtkWidgetClass.focus()` time the layouting widget /// should use the [`CellArea`][crate::CellArea] methods to navigate focus inside the area /// and then observe the GtkDirectionType to pass the focus to adjacent /// rows and areas. /// /// A basic example of how the `GtkWidgetClass.focus()` virtual method /// should be implemented: /// /// /// /// **⚠️ The following code is in C ⚠️** /// /// ```C /// static gboolean /// foo_focus (GtkWidget *widget, /// GtkDirectionType direction) /// { /// Foo *foo = FOO (widget); /// FooPrivate *priv = foo->priv; /// gint focus_row; /// gboolean have_focus = FALSE; /// /// focus_row = priv->focus_row; /// /// if (!gtk_widget_has_focus (widget)) /// gtk_widget_grab_focus (widget); /// /// valid = gtk_tree_model_iter_nth_child (priv->model, &iter, NULL, priv->focus_row); /// while (valid) /// { /// gtk_cell_area_apply_attributes (priv->area, priv->model, &iter, FALSE, FALSE); /// /// if (gtk_cell_area_focus (priv->area, direction)) /// { /// priv->focus_row = focus_row; /// have_focus = TRUE; /// break; /// } /// else /// { /// if (direction == GTK_DIR_RIGHT || /// direction == GTK_DIR_LEFT) /// break; /// else if (direction == GTK_DIR_UP || /// direction == GTK_DIR_TAB_BACKWARD) /// { /// if (focus_row == 0) /// break; /// else /// { /// focus_row--; /// valid = gtk_tree_model_iter_nth_child (priv->model, &iter, NULL, focus_row); /// } /// } /// else /// { /// if (focus_row == last_row) /// break; /// else /// { /// focus_row++; /// valid = gtk_tree_model_iter_next (priv->model, &iter); /// } /// } /// } /// } /// return have_focus; /// } /// ``` /// /// Note that the layouting widget is responsible for matching the /// GtkDirectionType values to the way it lays out its cells. /// /// # Cell Properties /// /// The [`CellArea`][crate::CellArea] introduces cell properties for `GtkCellRenderers` /// in very much the same way that [`Container`][crate::Container] introduces /// [child properties][child-properties] /// for `GtkWidgets`. This provides some general interfaces for defining /// the relationship cell areas have with their cells. For instance in a /// [`CellAreaBox`][crate::CellAreaBox] a cell might “expand” and receive extra space when /// the area is allocated more than its full natural request, or a cell /// might be configured to “align” with adjacent rows which were requested /// and rendered with the same [`CellAreaContext`][crate::CellAreaContext]. /// /// Use `gtk_cell_area_class_install_cell_property()` to install cell /// properties for a cell area class and `gtk_cell_area_class_find_cell_property()` /// or `gtk_cell_area_class_list_cell_properties()` to get information about /// existing cell properties. /// /// To set the value of a cell property, use [`CellAreaExt::cell_set_property()`][crate::prelude::CellAreaExt::cell_set_property()], /// `gtk_cell_area_cell_set()` or `gtk_cell_area_cell_set_valist()`. To obtain /// the value of a cell property, use [`CellAreaExt::cell_get_property()`][crate::prelude::CellAreaExt::cell_get_property()], /// `gtk_cell_area_cell_get()` or `gtk_cell_area_cell_get_valist()`. /// /// This is an Abstract Base Class, you cannot instantiate it. /// /// # Implements /// /// [`CellAreaExt`][trait@crate::prelude::CellAreaExt], [`trait@glib::ObjectExt`], [`BuildableExt`][trait@crate::prelude::BuildableExt], [`CellLayoutExt`][trait@crate::prelude::CellLayoutExt], [`BuildableExtManual`][trait@crate::prelude::BuildableExtManual] #[doc(alias = "GtkCellArea")] pub struct CellArea(Object<ffi::GtkCellArea, ffi::GtkCellAreaClass>) @implements Buildable, CellLayout; match fn { type_ => || ffi::gtk_cell_area_get_type(), } } pub const NONE_CELL_AREA: Option<&CellArea> = None; /// Trait containing all [`struct@CellArea`] methods. /// /// # Implementors /// /// [`CellAreaBox`][struct@crate::CellAreaBox], [`CellArea`][struct@crate::CellArea] pub trait CellAreaExt: 'static { /// Activates `self`, usually by activating the currently focused /// cell, however some subclasses which embed widgets in the area /// can also activate a widget if it currently has the focus. /// ## `context` /// the [`CellAreaContext`][crate::CellAreaContext] in context with the current row data /// ## `widget` /// the [`Widget`][crate::Widget] that `self` is rendering on /// ## `cell_area` /// the size and location of `self` relative to `widget`’s allocation /// ## `flags` /// the [`CellRendererState`][crate::CellRendererState] flags for `self` for this row of data. /// ## `edit_only` /// if [`true`] then only cell renderers that are [`CellRendererMode::Editable`][crate::CellRendererMode::Editable] /// will be activated. /// /// # Returns /// /// Whether `self` was successfully activated. #[doc(alias = "gtk_cell_area_activate")] fn activate<P: IsA<CellAreaContext>, Q: IsA<Widget>>( &self, context: &P, widget: &Q, cell_area: &gdk::Rectangle, flags: CellRendererState, edit_only: bool, ) -> bool; /// This is used by [`CellArea`][crate::CellArea] subclasses when handling events /// to activate cells, the base [`CellArea`][crate::CellArea] class activates cells /// for keyboard events for free in its own GtkCellArea->`activate()` /// implementation. /// ## `widget` /// the [`Widget`][crate::Widget] that `self` is rendering onto /// ## `renderer` /// the [`CellRenderer`][crate::CellRenderer] in `self` to activate /// ## `event` /// the `GdkEvent` for which cell activation should occur /// ## `cell_area` /// the [`gdk::Rectangle`][crate::gdk::Rectangle] in `widget` relative coordinates /// of `renderer` for the current row. /// ## `flags` /// the [`CellRendererState`][crate::CellRendererState] for `renderer` /// /// # Returns /// /// whether cell activation was successful #[doc(alias = "gtk_cell_area_activate_cell")] fn activate_cell<P: IsA<Widget>, Q: IsA<CellRenderer>>( &self, widget: &P, renderer: &Q, event: &gdk::Event, cell_area: &gdk::Rectangle, flags: CellRendererState, ) -> bool; /// Adds `renderer` to `self` with the default child cell properties. /// ## `renderer` /// the [`CellRenderer`][crate::CellRenderer] to add to `self` #[doc(alias = "gtk_cell_area_add")] fn add<P: IsA<CellRenderer>>(&self, renderer: &P); /// Adds `sibling` to `renderer`’s focusable area, focus will be drawn /// around `renderer` and all of its siblings if `renderer` can /// focus for a given row. /// /// Events handled by focus siblings can also activate the given /// focusable `renderer`. /// ## `renderer` /// the [`CellRenderer`][crate::CellRenderer] expected to have focus /// ## `sibling` /// the [`CellRenderer`][crate::CellRenderer] to add to `renderer`’s focus area #[doc(alias = "gtk_cell_area_add_focus_sibling")] fn add_focus_sibling<P: IsA<CellRenderer>, Q: IsA<CellRenderer>>( &self, renderer: &P, sibling: &Q, ); //#[doc(alias = "gtk_cell_area_add_with_properties")] //fn add_with_properties<P: IsA<CellRenderer>>(&self, renderer: &P, first_prop_name: &str, : /*Unknown conversion*//*Unimplemented*/Fundamental: VarArgs); /// Applies any connected attributes to the renderers in /// `self` by pulling the values from `tree_model`. /// ## `tree_model` /// the [`TreeModel`][crate::TreeModel] to pull values from /// ## `iter` /// the [`TreeIter`][crate::TreeIter] in `tree_model` to apply values for /// ## `is_expander` /// whether `iter` has children /// ## `is_expanded` /// whether `iter` is expanded in the view and /// children are visible #[doc(alias = "gtk_cell_area_apply_attributes")] fn apply_attributes<P: IsA<TreeModel>>( &self, tree_model: &P, iter: &TreeIter, is_expander: bool, is_expanded: bool, ); /// Connects an `attribute` to apply values from `column` for the /// [`TreeModel`][crate::TreeModel] in use. /// ## `renderer` /// the [`CellRenderer`][crate::CellRenderer] to connect an attribute for /// ## `attribute` /// the attribute name /// ## `column` /// the [`TreeModel`][crate::TreeModel] column to fetch attribute values from #[doc(alias = "gtk_cell_area_attribute_connect")] fn attribute_connect<P: IsA<CellRenderer>>(&self, renderer: &P, attribute: &str, column: i32); /// Disconnects `attribute` for the `renderer` in `self` so that /// attribute will no longer be updated with values from the /// model. /// ## `renderer` /// the [`CellRenderer`][crate::CellRenderer] to disconnect an attribute for /// ## `attribute` /// the attribute name #[doc(alias = "gtk_cell_area_attribute_disconnect")] fn attribute_disconnect<P: IsA<CellRenderer>>(&self, renderer: &P, attribute: &str); /// Returns the model column that an attribute has been mapped to, /// or -1 if the attribute is not mapped. /// ## `renderer` /// a [`CellRenderer`][crate::CellRenderer] /// ## `attribute` /// an attribute on the renderer /// /// # Returns /// /// the model column, or -1 #[doc(alias = "gtk_cell_area_attribute_get_column")] fn attribute_get_column<P: IsA<CellRenderer>>(&self, renderer: &P, attribute: &str) -> i32; //#[doc(alias = "gtk_cell_area_cell_get")] //fn cell_get<P: IsA<CellRenderer>>(&self, renderer: &P, first_prop_name: &str, : /*Unknown conversion*//*Unimplemented*/Fundamental: VarArgs); /// Gets the value of a cell property for `renderer` in `self`. /// ## `renderer` /// a [`CellRenderer`][crate::CellRenderer] inside `self` /// ## `property_name` /// the name of the property to get /// /// # Returns /// /// /// ## `value` /// a location to return the value #[doc(alias = "gtk_cell_area_cell_get_property")] fn cell_get_property<P: IsA<CellRenderer>>( &self, renderer: &P, property_name: &str, ) -> glib::Value; //#[doc(alias = "gtk_cell_area_cell_get_valist")] //fn cell_get_valist<P: IsA<CellRenderer>>(&self, renderer: &P, first_property_name: &str, var_args: /*Unknown conversion*//*Unimplemented*/Unsupported); //#[doc(alias = "gtk_cell_area_cell_set")] //fn cell_set<P: IsA<CellRenderer>>(&self, renderer: &P, first_prop_name: &str, : /*Unknown conversion*//*Unimplemented*/Fundamental: VarArgs); /// Sets a cell property for `renderer` in `self`. /// ## `renderer` /// a [`CellRenderer`][crate::CellRenderer] inside `self` /// ## `property_name` /// the name of the cell property to set /// ## `value` /// the value to set the cell property to #[doc(alias = "gtk_cell_area_cell_set_property")] fn cell_set_property<P: IsA<CellRenderer>>( &self, renderer: &P, property_name: &str, value: &glib::Value, ); //#[doc(alias = "gtk_cell_area_cell_set_valist")] //fn cell_set_valist<P: IsA<CellRenderer>>(&self, renderer: &P, first_property_name: &str, var_args: /*Unknown conversion*//*Unimplemented*/Unsupported); /// This is sometimes needed for cases where rows need to share /// alignments in one orientation but may be separately grouped /// in the opposing orientation. /// /// For instance, [`IconView`][crate::IconView] creates all icons (rows) to have /// the same width and the cells theirin to have the same /// horizontal alignments. However each row of icons may have /// a separate collective height. [`IconView`][crate::IconView] uses this to /// request the heights of each row based on a context which /// was already used to request all the row widths that are /// to be displayed. /// ## `context` /// the [`CellAreaContext`][crate::CellAreaContext] to copy /// /// # Returns /// /// a newly created [`CellAreaContext`][crate::CellAreaContext] copy of `context`. #[doc(alias = "gtk_cell_area_copy_context")] fn copy_context<P: IsA<CellAreaContext>>(&self, context: &P) -> Option<CellAreaContext>; /// Creates a [`CellAreaContext`][crate::CellAreaContext] to be used with `self` for /// all purposes. [`CellAreaContext`][crate::CellAreaContext] stores geometry information /// for rows for which it was operated on, it is important to use /// the same context for the same row of data at all times (i.e. /// one should render and handle events with the same [`CellAreaContext`][crate::CellAreaContext] /// which was used to request the size of those rows of data). /// /// # Returns /// /// a newly created [`CellAreaContext`][crate::CellAreaContext] which can be used with `self`. #[doc(alias = "gtk_cell_area_create_context")] fn create_context(&self) -> Option<CellAreaContext>; /// Delegates event handling to a [`CellArea`][crate::CellArea]. /// ## `context` /// the [`CellAreaContext`][crate::CellAreaContext] for this row of data. /// ## `widget` /// the [`Widget`][crate::Widget] that `self` is rendering to /// ## `event` /// the `GdkEvent` to handle /// ## `cell_area` /// the `widget` relative coordinates for `self` /// ## `flags` /// the [`CellRendererState`][crate::CellRendererState] for `self` in this row. /// /// # Returns /// /// [`true`] if the event was handled by `self`. #[doc(alias = "gtk_cell_area_event")] fn event<P: IsA<CellAreaContext>, Q: IsA<Widget>>( &self, context: &P, widget: &Q, event: &gdk::Event, cell_area: &gdk::Rectangle, flags: CellRendererState, ) -> i32; /// This should be called by the `self`’s owning layout widget /// when focus is to be passed to `self`, or moved within `self` /// for a given `direction` and row data. /// /// Implementing [`CellArea`][crate::CellArea] classes should implement this /// method to receive and navigate focus in its own way particular /// to how it lays out cells. /// ## `direction` /// the [`DirectionType`][crate::DirectionType] /// /// # Returns /// /// [`true`] if focus remains inside `self` as a result of this call. #[doc(alias = "gtk_cell_area_focus")] fn focus(&self, direction: DirectionType) -> bool; /// Calls `callback` for every [`CellRenderer`][crate::CellRenderer] in `self`. /// ## `callback` /// the `GtkCellCallback` to call /// ## `callback_data` /// user provided data pointer #[doc(alias = "gtk_cell_area_foreach")] fn foreach<P: FnMut(&CellRenderer) -> bool>(&self, callback: P); /// Calls `callback` for every [`CellRenderer`][crate::CellRenderer] in `self` with the /// allocated rectangle inside `cell_area`. /// ## `context` /// the [`CellAreaContext`][crate::CellAreaContext] for this row of data. /// ## `widget` /// the [`Widget`][crate::Widget] that `self` is rendering to /// ## `cell_area` /// the `widget` relative coordinates and size for `self` /// ## `background_area` /// the `widget` relative coordinates of the background area /// ## `callback` /// the `GtkCellAllocCallback` to call /// ## `callback_data` /// user provided data pointer #[doc(alias = "gtk_cell_area_foreach_alloc")] fn foreach_alloc< P: IsA<CellAreaContext>, Q: IsA<Widget>, R: FnMut(&CellRenderer, &gdk::Rectangle, &gdk::Rectangle) -> bool, >( &self, context: &P, widget: &Q, cell_area: &gdk::Rectangle, background_area: &gdk::Rectangle, callback: R, ); /// Derives the allocation of `renderer` inside `self` if `self` /// were to be renderered in `cell_area`. /// ## `context` /// the [`CellAreaContext`][crate::CellAreaContext] used to hold sizes for `self`. /// ## `widget` /// the [`Widget`][crate::Widget] that `self` is rendering on /// ## `renderer` /// the [`CellRenderer`][crate::CellRenderer] to get the allocation for /// ## `cell_area` /// the whole allocated area for `self` in `widget` /// for this row /// /// # Returns /// /// /// ## `allocation` /// where to store the allocation for `renderer` #[doc(alias = "gtk_cell_area_get_cell_allocation")] #[doc(alias = "get_cell_allocation")] fn cell_allocation<P: IsA<CellAreaContext>, Q: IsA<Widget>, R: IsA<CellRenderer>>( &self, context: &P, widget: &Q, renderer: &R, cell_area: &gdk::Rectangle, ) -> gdk::Rectangle; /// Gets the [`CellRenderer`][crate::CellRenderer] at `x` and `y` coordinates inside `self` and optionally /// returns the full cell allocation for it inside `cell_area`. /// ## `context` /// the [`CellAreaContext`][crate::CellAreaContext] used to hold sizes for `self`. /// ## `widget` /// the [`Widget`][crate::Widget] that `self` is rendering on /// ## `cell_area` /// the whole allocated area for `self` in `widget` /// for this row /// ## `x` /// the x position /// ## `y` /// the y position /// /// # Returns /// /// the [`CellRenderer`][crate::CellRenderer] at `x` and `y`. /// /// ## `alloc_area` /// where to store the inner allocated area of the /// returned cell renderer, or [`None`]. #[doc(alias = "gtk_cell_area_get_cell_at_position")] #[doc(alias = "get_cell_at_position")] fn cell_at_position<P: IsA<CellAreaContext>, Q: IsA<Widget>>( &self, context: &P, widget: &Q, cell_area: &gdk::Rectangle, x: i32, y: i32, ) -> (CellRenderer, gdk::Rectangle); /// Gets the current [`TreePath`][crate::TreePath] string for the currently /// applied [`TreeIter`][crate::TreeIter], this is implicitly updated when /// [`apply_attributes()`][Self::apply_attributes()] is called and can be /// used to interact with renderers from [`CellArea`][crate::CellArea] /// subclasses. /// /// # Returns /// /// The current [`TreePath`][crate::TreePath] string for the current /// attributes applied to `self`. This string belongs to the area and /// should not be freed. #[doc(alias = "gtk_cell_area_get_current_path_string")] #[doc(alias = "get_current_path_string")] fn current_path_string(&self) -> Option<glib::GString>; /// Gets the [`CellEditable`][crate::CellEditable] widget currently used /// to edit the currently edited cell. /// /// # Returns /// /// The currently active [`CellEditable`][crate::CellEditable] widget #[doc(alias = "gtk_cell_area_get_edit_widget")] #[doc(alias = "get_edit_widget")] fn edit_widget(&self) -> Option<CellEditable>; /// Gets the [`CellRenderer`][crate::CellRenderer] in `self` that is currently /// being edited. /// /// # Returns /// /// The currently edited [`CellRenderer`][crate::CellRenderer] #[doc(alias = "gtk_cell_area_get_edited_cell")] #[doc(alias = "get_edited_cell")] fn edited_cell(&self) -> Option<CellRenderer>; /// Retrieves the currently focused cell for `self` /// /// # Returns /// /// the currently focused cell in `self`. #[doc(alias = "gtk_cell_area_get_focus_cell")] #[doc(alias = "get_focus_cell")] fn focus_cell(&self) -> Option<CellRenderer>; /// Gets the [`CellRenderer`][crate::CellRenderer] which is expected to be focusable /// for which `renderer` is, or may be a sibling. /// /// This is handy for [`CellArea`][crate::CellArea] subclasses when handling events, /// after determining the renderer at the event location it can /// then chose to activate the focus cell for which the event /// cell may have been a sibling. /// ## `renderer` /// the [`CellRenderer`][crate::CellRenderer] /// /// # Returns /// /// the [`CellRenderer`][crate::CellRenderer] for which `renderer` /// is a sibling, or [`None`]. #[doc(alias = "gtk_cell_area_get_focus_from_sibling")] #[doc(alias = "get_focus_from_sibling")] fn focus_from_sibling<P: IsA<CellRenderer>>(&self, renderer: &P) -> Option<CellRenderer>; /// Gets the focus sibling cell renderers for `renderer`. /// ## `renderer` /// the [`CellRenderer`][crate::CellRenderer] expected to have focus /// /// # Returns /// /// A `GList` of `GtkCellRenderers`. /// The returned list is internal and should not be freed. #[doc(alias = "gtk_cell_area_get_focus_siblings")] #[doc(alias = "get_focus_siblings")] fn focus_siblings<P: IsA<CellRenderer>>(&self, renderer: &P) -> Vec<CellRenderer>; /// Retrieves a cell area’s initial minimum and natural height. /// /// `self` will store some geometrical information in `context` along the way; /// when requesting sizes over an arbitrary number of rows, it’s not important /// to check the `minimum_height` and `natural_height` of this call but rather to /// consult [`CellAreaContextExt::preferred_height()`][crate::prelude::CellAreaContextExt::preferred_height()] after a series of /// requests. /// ## `context` /// the [`CellAreaContext`][crate::CellAreaContext] to perform this request with /// ## `widget` /// the [`Widget`][crate::Widget] where `self` will be rendering /// /// # Returns /// /// /// ## `minimum_height` /// location to store the minimum height, or [`None`] /// /// ## `natural_height` /// location to store the natural height, or [`None`] #[doc(alias = "gtk_cell_area_get_preferred_height")] #[doc(alias = "get_preferred_height")] fn preferred_height<P: IsA<CellAreaContext>, Q: IsA<Widget>>( &self, context: &P, widget: &Q, ) -> (i32, i32); /// Retrieves a cell area’s minimum and natural height if it would be given /// the specified `width`. /// /// `self` stores some geometrical information in `context` along the way /// while calling [`preferred_width()`][Self::preferred_width()]. It’s important to /// perform a series of [`preferred_width()`][Self::preferred_width()] requests with /// `context` first and then call [`preferred_height_for_width()`][Self::preferred_height_for_width()] /// on each cell area individually to get the height for width of each /// fully requested row. /// /// If at some point, the width of a single row changes, it should be /// requested with [`preferred_width()`][Self::preferred_width()] again and then /// the full width of the requested rows checked again with /// [`CellAreaContextExt::preferred_width()`][crate::prelude::CellAreaContextExt::preferred_width()]. /// ## `context` /// the [`CellAreaContext`][crate::CellAreaContext] which has already been requested for widths. /// ## `widget` /// the [`Widget`][crate::Widget] where `self` will be rendering /// ## `width` /// the width for which to check the height of this area /// /// # Returns /// /// /// ## `minimum_height` /// location to store the minimum height, or [`None`] /// /// ## `natural_height` /// location to store the natural height, or [`None`] #[doc(alias = "gtk_cell_area_get_preferred_height_for_width")] #[doc(alias = "get_preferred_height_for_width")] fn preferred_height_for_width<P: IsA<CellAreaContext>, Q: IsA<Widget>>( &self, context: &P, widget: &Q, width: i32, ) -> (i32, i32); /// Retrieves a cell area’s initial minimum and natural width. /// /// `self` will store some geometrical information in `context` along the way; /// when requesting sizes over an arbitrary number of rows, it’s not important /// to check the `minimum_width` and `natural_width` of this call but rather to /// consult [`CellAreaContextExt::preferred_width()`][crate::prelude::CellAreaContextExt::preferred_width()] after a series of /// requests. /// ## `context` /// the [`CellAreaContext`][crate::CellAreaContext] to perform this request with /// ## `widget` /// the [`Widget`][crate::Widget] where `self` will be rendering /// /// # Returns /// /// /// ## `minimum_width` /// location to store the minimum width, or [`None`] /// /// ## `natural_width` /// location to store the natural width, or [`None`] #[doc(alias = "gtk_cell_area_get_preferred_width")] #[doc(alias = "get_preferred_width")] fn preferred_width<P: IsA<CellAreaContext>, Q: IsA<Widget>>( &self, context: &P, widget: &Q, ) -> (i32, i32); /// Retrieves a cell area’s minimum and natural width if it would be given /// the specified `height`. /// /// `self` stores some geometrical information in `context` along the way /// while calling [`preferred_height()`][Self::preferred_height()]. It’s important to /// perform a series of [`preferred_height()`][Self::preferred_height()] requests with /// `context` first and then call [`preferred_width_for_height()`][Self::preferred_width_for_height()] /// on each cell area individually to get the height for width of each /// fully requested row. /// /// If at some point, the height of a single row changes, it should be /// requested with [`preferred_height()`][Self::preferred_height()] again and then /// the full height of the requested rows checked again with /// [`CellAreaContextExt::preferred_height()`][crate::prelude::CellAreaContextExt::preferred_height()]. /// ## `context` /// the [`CellAreaContext`][crate::CellAreaContext] which has already been requested for widths. /// ## `widget` /// the [`Widget`][crate::Widget] where `self` will be rendering /// ## `height` /// the height for which to check the width of this area /// /// # Returns /// /// /// ## `minimum_width` /// location to store the minimum width, or [`None`] /// /// ## `natural_width` /// location to store the natural width, or [`None`] #[doc(alias = "gtk_cell_area_get_preferred_width_for_height")] #[doc(alias = "get_preferred_width_for_height")] fn preferred_width_for_height<P: IsA<CellAreaContext>, Q: IsA<Widget>>( &self, context: &P, widget: &Q, height: i32, ) -> (i32, i32); /// Gets whether the area prefers a height-for-width layout /// or a width-for-height layout. /// /// # Returns /// /// The [`SizeRequestMode`][crate::SizeRequestMode] preferred by `self`. #[doc(alias = "gtk_cell_area_get_request_mode")] #[doc(alias = "get_request_mode")] fn request_mode(&self) -> SizeRequestMode; /// Checks if `self` contains `renderer`. /// ## `renderer` /// the [`CellRenderer`][crate::CellRenderer] to check /// /// # Returns /// /// [`true`] if `renderer` is in the `self`. #[doc(alias = "gtk_cell_area_has_renderer")] fn has_renderer<P: IsA<CellRenderer>>(&self, renderer: &P) -> bool; /// This is a convenience function for [`CellArea`][crate::CellArea] implementations /// to get the inner area where a given [`CellRenderer`][crate::CellRenderer] will be /// rendered. It removes any padding previously added by [`request_renderer()`][Self::request_renderer()]. /// ## `widget` /// the [`Widget`][crate::Widget] that `self` is rendering onto /// ## `cell_area` /// the `widget` relative coordinates where one of `self`’s cells /// is to be placed /// /// # Returns /// /// /// ## `inner_area` /// the return location for the inner cell area #[doc(alias = "gtk_cell_area_inner_cell_area")] fn inner_cell_area<P: IsA<Widget>>( &self, widget: &P, cell_area: &gdk::Rectangle, ) -> gdk::Rectangle; /// Returns whether the area can do anything when activated, /// after applying new attributes to `self`. /// /// # Returns /// /// whether `self` can do anything when activated. #[doc(alias = "gtk_cell_area_is_activatable")] fn is_activatable(&self) -> bool; /// Returns whether `sibling` is one of `renderer`’s focus siblings /// (see [`add_focus_sibling()`][Self::add_focus_sibling()]). /// ## `renderer` /// the [`CellRenderer`][crate::CellRenderer] expected to have focus /// ## `sibling` /// the [`CellRenderer`][crate::CellRenderer] to check against `renderer`’s sibling list /// /// # Returns /// /// [`true`] if `sibling` is a focus sibling of `renderer` #[doc(alias = "gtk_cell_area_is_focus_sibling")] fn is_focus_sibling<P: IsA<CellRenderer>, Q: IsA<CellRenderer>>( &self, renderer: &P, sibling: &Q, ) -> bool; /// Removes `renderer` from `self`. /// ## `renderer` /// the [`CellRenderer`][crate::CellRenderer] to remove from `self` #[doc(alias = "gtk_cell_area_remove")] fn remove<P: IsA<CellRenderer>>(&self, renderer: &P); /// Removes `sibling` from `renderer`’s focus sibling list /// (see [`add_focus_sibling()`][Self::add_focus_sibling()]). /// ## `renderer` /// the [`CellRenderer`][crate::CellRenderer] expected to have focus /// ## `sibling` /// the [`CellRenderer`][crate::CellRenderer] to remove from `renderer`’s focus area #[doc(alias = "gtk_cell_area_remove_focus_sibling")] fn remove_focus_sibling<P: IsA<CellRenderer>, Q: IsA<CellRenderer>>( &self, renderer: &P, sibling: &Q, ); /// Renders `self`’s cells according to `self`’s layout onto `widget` at /// the given coordinates. /// ## `context` /// the [`CellAreaContext`][crate::CellAreaContext] for this row of data. /// ## `widget` /// the [`Widget`][crate::Widget] that `self` is rendering to /// ## `cr` /// the [`cairo::Context`][crate::cairo::Context] to render with /// ## `background_area` /// the `widget` relative coordinates for `self`’s background /// ## `cell_area` /// the `widget` relative coordinates for `self` /// ## `flags` /// the [`CellRendererState`][crate::CellRendererState] for `self` in this row. /// ## `paint_focus` /// whether `self` should paint focus on focused cells for focused rows or not. #[doc(alias = "gtk_cell_area_render")] fn render<P: IsA<CellAreaContext>, Q: IsA<Widget>>( &self, context: &P, widget: &Q, cr: &cairo::Context, background_area: &gdk::Rectangle, cell_area: &gdk::Rectangle, flags: CellRendererState, paint_focus: bool, ); /// This is a convenience function for [`CellArea`][crate::CellArea] implementations /// to request size for cell renderers. It’s important to use this /// function to request size and then use [`inner_cell_area()`][Self::inner_cell_area()] /// at render and event time since this function will add padding /// around the cell for focus painting. /// ## `renderer` /// the [`CellRenderer`][crate::CellRenderer] to request size for /// ## `orientation` /// the [`Orientation`][crate::Orientation] in which to request size /// ## `widget` /// the [`Widget`][crate::Widget] that `self` is rendering onto /// ## `for_size` /// the allocation contextual size to request for, or -1 if /// the base request for the orientation is to be returned. /// /// # Returns /// /// /// ## `minimum_size` /// location to store the minimum size, or [`None`] /// /// ## `natural_size` /// location to store the natural size, or [`None`] #[doc(alias = "gtk_cell_area_request_renderer")] fn request_renderer<P: IsA<CellRenderer>, Q: IsA<Widget>>( &self, renderer: &P, orientation: Orientation, widget: &Q, for_size: i32, ) -> (i32, i32); /// Explicitly sets the currently focused cell to `renderer`. /// /// This is generally called by implementations of /// `GtkCellAreaClass.focus()` or `GtkCellAreaClass.event()`, /// however it can also be used to implement functions such /// as [`TreeViewExt::set_cursor_on_cell()`][crate::prelude::TreeViewExt::set_cursor_on_cell()]. /// ## `renderer` /// the [`CellRenderer`][crate::CellRenderer] to give focus to #[doc(alias = "gtk_cell_area_set_focus_cell")] fn set_focus_cell<P: IsA<CellRenderer>>(&self, renderer: &P); /// Explicitly stops the editing of the currently edited cell. /// /// If `canceled` is [`true`], the currently edited cell renderer /// will emit the ::editing-canceled signal, otherwise the /// the ::editing-done signal will be emitted on the current /// edit widget. /// /// See [`edited_cell()`][Self::edited_cell()] and [`edit_widget()`][Self::edit_widget()]. /// ## `canceled` /// whether editing was canceled. #[doc(alias = "gtk_cell_area_stop_editing")] fn stop_editing(&self, canceled: bool); /// Indicates that editing has started on `renderer` and that `editable` /// should be added to the owning cell-layouting widget at `cell_area`. /// ## `renderer` /// the [`CellRenderer`][crate::CellRenderer] that started the edited /// ## `editable` /// the [`CellEditable`][crate::CellEditable] widget to add /// ## `cell_area` /// the [`Widget`][crate::Widget] relative [`gdk::Rectangle`][crate::gdk::Rectangle] coordinates /// where `editable` should be added /// ## `path` /// the [`TreePath`][crate::TreePath] string this edit was initiated for #[doc(alias = "add-editable")] fn connect_add_editable< F: Fn(&Self, &CellRenderer, &CellEditable, &gdk::Rectangle, TreePath) + 'static, >( &self, f: F, ) -> SignalHandlerId; /// This signal is emitted whenever applying attributes to `area` from `model` /// ## `model` /// the [`TreeModel`][crate::TreeModel] to apply the attributes from /// ## `iter` /// the [`TreeIter`][crate::TreeIter] indicating which row to apply the attributes of /// ## `is_expander` /// whether the view shows children for this row /// ## `is_expanded` /// whether the view is currently showing the children of this row #[doc(alias = "apply-attributes")] fn connect_apply_attributes<F: Fn(&Self, &TreeModel, &TreeIter, bool, bool) + 'static>( &self, f: F, ) -> SignalHandlerId; /// Indicates that focus changed on this `area`. This signal /// is emitted either as a result of focus handling or event /// handling. /// /// It's possible that the signal is emitted even if the /// currently focused renderer did not change, this is /// because focus may change to the same renderer in the /// same cell area for a different row of data. /// ## `renderer` /// the [`CellRenderer`][crate::CellRenderer] that has focus /// ## `path` /// the current [`TreePath`][crate::TreePath] string set for `area` #[doc(alias = "focus-changed")] fn connect_focus_changed<F: Fn(&Self, &CellRenderer, TreePath) + 'static>( &self, f: F, ) -> SignalHandlerId; /// Indicates that editing finished on `renderer` and that `editable` /// should be removed from the owning cell-layouting widget. /// ## `renderer` /// the [`CellRenderer`][crate::CellRenderer] that finished editeding /// ## `editable` /// the [`CellEditable`][crate::CellEditable] widget to remove #[doc(alias = "remove-editable")] fn connect_remove_editable<F: Fn(&Self, &CellRenderer, &CellEditable) + 'static>( &self, f: F, ) -> SignalHandlerId; #[doc(alias = "edit-widget")] fn connect_edit_widget_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId; #[doc(alias = "edited-cell")] fn connect_edited_cell_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId; #[doc(alias = "focus-cell")] fn connect_focus_cell_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId; } impl<O: IsA<CellArea>> CellAreaExt for O { fn activate<P: IsA<CellAreaContext>, Q: IsA<Widget>>( &self, context: &P, widget: &Q, cell_area: &gdk::Rectangle, flags: CellRendererState, edit_only: bool, ) -> bool { unsafe { from_glib(ffi::gtk_cell_area_activate( self.as_ref().to_glib_none().0, context.as_ref().to_glib_none().0, widget.as_ref().to_glib_none().0, cell_area.to_glib_none().0, flags.into_glib(), edit_only.into_glib(), )) } } fn activate_cell<P: IsA<Widget>, Q: IsA<CellRenderer>>( &self, widget: &P, renderer: &Q, event: &gdk::Event, cell_area: &gdk::Rectangle, flags: CellRendererState, ) -> bool { unsafe { from_glib(ffi::gtk_cell_area_activate_cell( self.as_ref().to_glib_none().0, widget.as_ref().to_glib_none().0, renderer.as_ref().to_glib_none().0, mut_override(event.to_glib_none().0), cell_area.to_glib_none().0, flags.into_glib(), )) } } fn add<P: IsA<CellRenderer>>(&self, renderer: &P) { unsafe { ffi::gtk_cell_area_add( self.as_ref().to_glib_none().0, renderer.as_ref().to_glib_none().0, ); } } fn add_focus_sibling<P: IsA<CellRenderer>, Q: IsA<CellRenderer>>( &self, renderer: &P, sibling: &Q, ) { unsafe { ffi::gtk_cell_area_add_focus_sibling( self.as_ref().to_glib_none().0, renderer.as_ref().to_glib_none().0, sibling.as_ref().to_glib_none().0, ); } } //fn add_with_properties<P: IsA<CellRenderer>>(&self, renderer: &P, first_prop_name: &str, : /*Unknown conversion*//*Unimplemented*/Fundamental: VarArgs) { // unsafe { TODO: call ffi:gtk_cell_area_add_with_properties() } //} fn apply_attributes<P: IsA<TreeModel>>( &self, tree_model: &P, iter: &TreeIter, is_expander: bool, is_expanded: bool, ) { unsafe { ffi::gtk_cell_area_apply_attributes( self.as_ref().to_glib_none().0, tree_model.as_ref().to_glib_none().0, mut_override(iter.to_glib_none().0), is_expander.into_glib(), is_expanded.into_glib(), ); } } fn attribute_connect<P: IsA<CellRenderer>>(&self, renderer: &P, attribute: &str, column: i32) { unsafe { ffi::gtk_cell_area_attribute_connect( self.as_ref().to_glib_none().0, renderer.as_ref().to_glib_none().0, attribute.to_glib_none().0, column, ); } } fn attribute_disconnect<P: IsA<CellRenderer>>(&self, renderer: &P, attribute: &str) { unsafe { ffi::gtk_cell_area_attribute_disconnect( self.as_ref().to_glib_none().0, renderer.as_ref().to_glib_none().0, attribute.to_glib_none().0, ); } } fn attribute_get_column<P: IsA<CellRenderer>>(&self, renderer: &P, attribute: &str) -> i32 { unsafe { ffi::gtk_cell_area_attribute_get_column( self.as_ref().to_glib_none().0, renderer.as_ref().to_glib_none().0, attribute.to_glib_none().0, ) } } //fn cell_get<P: IsA<CellRenderer>>(&self, renderer: &P, first_prop_name: &str, : /*Unknown conversion*//*Unimplemented*/Fundamental: VarArgs) { // unsafe { TODO: call ffi:gtk_cell_area_cell_get() } //} fn cell_get_property<P: IsA<CellRenderer>>( &self, renderer: &P, property_name: &str, ) -> glib::Value { unsafe { let mut value = glib::Value::uninitialized(); ffi::gtk_cell_area_cell_get_property( self.as_ref().to_glib_none().0, renderer.as_ref().to_glib_none().0, property_name.to_glib_none().0, value.to_glib_none_mut().0, ); value } } //fn cell_get_valist<P: IsA<CellRenderer>>(&self, renderer: &P, first_property_name: &str, var_args: /*Unknown conversion*//*Unimplemented*/Unsupported) { // unsafe { TODO: call ffi:gtk_cell_area_cell_get_valist() } //} //fn cell_set<P: IsA<CellRenderer>>(&self, renderer: &P, first_prop_name: &str, : /*Unknown conversion*//*Unimplemented*/Fundamental: VarArgs) { // unsafe { TODO: call ffi:gtk_cell_area_cell_set() } //} fn cell_set_property<P: IsA<CellRenderer>>( &self, renderer: &P, property_name: &str, value: &glib::Value, ) { unsafe { ffi::gtk_cell_area_cell_set_property( self.as_ref().to_glib_none().0, renderer.as_ref().to_glib_none().0, property_name.to_glib_none().0, value.to_glib_none().0, ); } } //fn cell_set_valist<P: IsA<CellRenderer>>(&self, renderer: &P, first_property_name: &str, var_args: /*Unknown conversion*//*Unimplemented*/Unsupported) { // unsafe { TODO: call ffi:gtk_cell_area_cell_set_valist() } //} fn copy_context<P: IsA<CellAreaContext>>(&self, context: &P) -> Option<CellAreaContext> { unsafe { from_glib_full(ffi::gtk_cell_area_copy_context( self.as_ref().to_glib_none().0, context.as_ref().to_glib_none().0, )) } } fn create_context(&self) -> Option<CellAreaContext> { unsafe { from_glib_full(ffi::gtk_cell_area_create_context( self.as_ref().to_glib_none().0, )) } } fn event<P: IsA<CellAreaContext>, Q: IsA<Widget>>( &self, context: &P, widget: &Q, event: &gdk::Event, cell_area: &gdk::Rectangle, flags: CellRendererState, ) -> i32 { unsafe { ffi::gtk_cell_area_event( self.as_ref().to_glib_none().0, context.as_ref().to_glib_none().0, widget.as_ref().to_glib_none().0, mut_override(event.to_glib_none().0), cell_area.to_glib_none().0, flags.into_glib(), ) } } fn focus(&self, direction: DirectionType) -> bool { unsafe { from_glib(ffi::gtk_cell_area_focus( self.as_ref().to_glib_none().0, direction.into_glib(), )) } } fn foreach<P: FnMut(&CellRenderer) -> bool>(&self, callback: P) { let callback_data: P = callback; unsafe extern "C" fn callback_func<P: FnMut(&CellRenderer) -> bool>( renderer: *mut ffi::GtkCellRenderer, data: glib::ffi::gpointer, ) -> glib::ffi::gboolean { let renderer = from_glib_borrow(renderer); let callback: *mut P = data as *const _ as usize as *mut P; let res = (*callback)(&renderer); res.into_glib() } let callback = Some(callback_func::<P> as _); let super_callback0: &P = &callback_data; unsafe { ffi::gtk_cell_area_foreach( self.as_ref().to_glib_none().0, callback, super_callback0 as *const _ as usize as *mut _, ); } } fn foreach_alloc< P: IsA<CellAreaContext>, Q: IsA<Widget>, R: FnMut(&CellRenderer, &gdk::Rectangle, &gdk::Rectangle) -> bool, >( &self, context: &P, widget: &Q, cell_area: &gdk::Rectangle, background_area: &gdk::Rectangle, callback: R, ) { let callback_data: R = callback; unsafe extern "C" fn callback_func< P: IsA<CellAreaContext>, Q: IsA<Widget>, R: FnMut(&CellRenderer, &gdk::Rectangle, &gdk::Rectangle) -> bool, >( renderer: *mut ffi::GtkCellRenderer, cell_area: *const gdk::ffi::GdkRectangle, cell_background: *const gdk::ffi::GdkRectangle, data: glib::ffi::gpointer, ) -> glib::ffi::gboolean { let renderer = from_glib_borrow(renderer); let cell_area = from_glib_borrow(cell_area); let cell_background = from_glib_borrow(cell_background); let callback: *mut R = data as *const _ as usize as *mut R; let res = (*callback)(&renderer, &cell_area, &cell_background); res.into_glib() } let callback = Some(callback_func::<P, Q, R> as _); let super_callback0: &R = &callback_data; unsafe { ffi::gtk_cell_area_foreach_alloc( self.as_ref().to_glib_none().0, context.as_ref().to_glib_none().0, widget.as_ref().to_glib_none().0, cell_area.to_glib_none().0, background_area.to_glib_none().0, callback, super_callback0 as *const _ as usize as *mut _, ); } } fn cell_allocation<P: IsA<CellAreaContext>, Q: IsA<Widget>, R: IsA<CellRenderer>>( &self, context: &P, widget: &Q, renderer: &R, cell_area: &gdk::Rectangle, ) -> gdk::Rectangle { unsafe { let mut allocation = gdk::Rectangle::uninitialized(); ffi::gtk_cell_area_get_cell_allocation( self.as_ref().to_glib_none().0, context.as_ref().to_glib_none().0, widget.as_ref().to_glib_none().0, renderer.as_ref().to_glib_none().0, cell_area.to_glib_none().0, allocation.to_glib_none_mut().0, ); allocation } } fn cell_at_position<P: IsA<CellAreaContext>, Q: IsA<Widget>>( &self, context: &P, widget: &Q, cell_area: &gdk::Rectangle, x: i32, y: i32, ) -> (CellRenderer, gdk::Rectangle) { unsafe { let mut alloc_area = gdk::Rectangle::uninitialized(); let ret = from_glib_none(ffi::gtk_cell_area_get_cell_at_position( self.as_ref().to_glib_none().0, context.as_ref().to_glib_none().0, widget.as_ref().to_glib_none().0, cell_area.to_glib_none().0, x, y, alloc_area.to_glib_none_mut().0, )); (ret, alloc_area) } } fn current_path_string(&self) -> Option<glib::GString> { unsafe { from_glib_none(ffi::gtk_cell_area_get_current_path_string( self.as_ref().to_glib_none().0, )) } } fn edit_widget(&self) -> Option<CellEditable> { unsafe { from_glib_none(ffi::gtk_cell_area_get_edit_widget( self.as_ref().to_glib_none().0, )) } } fn edited_cell(&self) -> Option<CellRenderer> { unsafe { from_glib_none(ffi::gtk_cell_area_get_edited_cell( self.as_ref().to_glib_none().0, )) } } fn focus_cell(&self) -> Option<CellRenderer> { unsafe { from_glib_none(ffi::gtk_cell_area_get_focus_cell( self.as_ref().to_glib_none().0, )) } } fn focus_from_sibling<P: IsA<CellRenderer>>(&self, renderer: &P) -> Option<CellRenderer> { unsafe { from_glib_none(ffi::gtk_cell_area_get_focus_from_sibling( self.as_ref().to_glib_none().0, renderer.as_ref().to_glib_none().0, )) } } fn focus_siblings<P: IsA<CellRenderer>>(&self, renderer: &P) -> Vec<CellRenderer> { unsafe { FromGlibPtrContainer::from_glib_none(ffi::gtk_cell_area_get_focus_siblings( self.as_ref().to_glib_none().0, renderer.as_ref().to_glib_none().0, )) } } fn preferred_height<P: IsA<CellAreaContext>, Q: IsA<Widget>>( &self, context: &P, widget: &Q, ) -> (i32, i32) { unsafe { let mut minimum_height = mem::MaybeUninit::uninit(); let mut natural_height = mem::MaybeUninit::uninit(); ffi::gtk_cell_area_get_preferred_height( self.as_ref().to_glib_none().0, context.as_ref().to_glib_none().0, widget.as_ref().to_glib_none().0, minimum_height.as_mut_ptr(), natural_height.as_mut_ptr(), ); let minimum_height = minimum_height.assume_init(); let natural_height = natural_height.assume_init(); (minimum_height, natural_height) } } fn preferred_height_for_width<P: IsA<CellAreaContext>, Q: IsA<Widget>>( &self, context: &P, widget: &Q, width: i32, ) -> (i32, i32) { unsafe { let mut minimum_height = mem::MaybeUninit::uninit(); let mut natural_height = mem::MaybeUninit::uninit(); ffi::gtk_cell_area_get_preferred_height_for_width( self.as_ref().to_glib_none().0, context.as_ref().to_glib_none().0, widget.as_ref().to_glib_none().0, width, minimum_height.as_mut_ptr(), natural_height.as_mut_ptr(), ); let minimum_height = minimum_height.assume_init(); let natural_height = natural_height.assume_init(); (minimum_height, natural_height) } } fn preferred_width<P: IsA<CellAreaContext>, Q: IsA<Widget>>( &self, context: &P, widget: &Q, ) -> (i32, i32) { unsafe { let mut minimum_width = mem::MaybeUninit::uninit(); let mut natural_width = mem::MaybeUninit::uninit(); ffi::gtk_cell_area_get_preferred_width( self.as_ref().to_glib_none().0, context.as_ref().to_glib_none().0, widget.as_ref().to_glib_none().0, minimum_width.as_mut_ptr(), natural_width.as_mut_ptr(), ); let minimum_width = minimum_width.assume_init(); let natural_width = natural_width.assume_init(); (minimum_width, natural_width) } } fn preferred_width_for_height<P: IsA<CellAreaContext>, Q: IsA<Widget>>( &self, context: &P, widget: &Q, height: i32, ) -> (i32, i32) { unsafe { let mut minimum_width = mem::MaybeUninit::uninit(); let mut natural_width = mem::MaybeUninit::uninit(); ffi::gtk_cell_area_get_preferred_width_for_height( self.as_ref().to_glib_none().0, context.as_ref().to_glib_none().0, widget.as_ref().to_glib_none().0, height, minimum_width.as_mut_ptr(), natural_width.as_mut_ptr(), ); let minimum_width = minimum_width.assume_init(); let natural_width = natural_width.assume_init(); (minimum_width, natural_width) } } fn request_mode(&self) -> SizeRequestMode { unsafe { from_glib(ffi::gtk_cell_area_get_request_mode( self.as_ref().to_glib_none().0, )) } } fn has_renderer<P: IsA<CellRenderer>>(&self, renderer: &P) -> bool { unsafe { from_glib(ffi::gtk_cell_area_has_renderer( self.as_ref().to_glib_none().0, renderer.as_ref().to_glib_none().0, )) } } fn inner_cell_area<P: IsA<Widget>>( &self, widget: &P, cell_area: &gdk::Rectangle, ) -> gdk::Rectangle { unsafe { let mut inner_area = gdk::Rectangle::uninitialized(); ffi::gtk_cell_area_inner_cell_area( self.as_ref().to_glib_none().0, widget.as_ref().to_glib_none().0, cell_area.to_glib_none().0, inner_area.to_glib_none_mut().0, ); inner_area } } fn is_activatable(&self) -> bool { unsafe { from_glib(ffi::gtk_cell_area_is_activatable( self.as_ref().to_glib_none().0, )) } } fn is_focus_sibling<P: IsA<CellRenderer>, Q: IsA<CellRenderer>>( &self, renderer: &P, sibling: &Q, ) -> bool { unsafe { from_glib(ffi::gtk_cell_area_is_focus_sibling( self.as_ref().to_glib_none().0, renderer.as_ref().to_glib_none().0, sibling.as_ref().to_glib_none().0, )) } } fn remove<P: IsA<CellRenderer>>(&self, renderer: &P) { unsafe { ffi::gtk_cell_area_remove( self.as_ref().to_glib_none().0, renderer.as_ref().to_glib_none().0, ); } } fn remove_focus_sibling<P: IsA<CellRenderer>, Q: IsA<CellRenderer>>( &self, renderer: &P, sibling: &Q, ) { unsafe { ffi::gtk_cell_area_remove_focus_sibling( self.as_ref().to_glib_none().0, renderer.as_ref().to_glib_none().0, sibling.as_ref().to_glib_none().0, ); } } fn render<P: IsA<CellAreaContext>, Q: IsA<Widget>>( &self, context: &P, widget: &Q, cr: &cairo::Context, background_area: &gdk::Rectangle, cell_area: &gdk::Rectangle, flags: CellRendererState, paint_focus: bool, ) { unsafe { ffi::gtk_cell_area_render( self.as_ref().to_glib_none().0, context.as_ref().to_glib_none().0, widget.as_ref().to_glib_none().0, mut_override(cr.to_glib_none().0), background_area.to_glib_none().0, cell_area.to_glib_none().0, flags.into_glib(), paint_focus.into_glib(), ); } } fn request_renderer<P: IsA<CellRenderer>, Q: IsA<Widget>>( &self, renderer: &P, orientation: Orientation, widget: &Q, for_size: i32, ) -> (i32, i32) { unsafe { let mut minimum_size = mem::MaybeUninit::uninit(); let mut natural_size = mem::MaybeUninit::uninit(); ffi::gtk_cell_area_request_renderer( self.as_ref().to_glib_none().0, renderer.as_ref().to_glib_none().0, orientation.into_glib(), widget.as_ref().to_glib_none().0, for_size, minimum_size.as_mut_ptr(), natural_size.as_mut_ptr(), ); let minimum_size = minimum_size.assume_init(); let natural_size = natural_size.assume_init(); (minimum_size, natural_size) } } fn set_focus_cell<P: IsA<CellRenderer>>(&self, renderer: &P) { unsafe { ffi::gtk_cell_area_set_focus_cell( self.as_ref().to_glib_none().0, renderer.as_ref().to_glib_none().0, ); } } fn stop_editing(&self, canceled: bool) { unsafe { ffi::gtk_cell_area_stop_editing(self.as_ref().to_glib_none().0, canceled.into_glib()); } } fn connect_add_editable< F: Fn(&Self, &CellRenderer, &CellEditable, &gdk::Rectangle, TreePath) + 'static, >( &self, f: F, ) -> SignalHandlerId { unsafe extern "C" fn add_editable_trampoline< P: IsA<CellArea>, F: Fn(&P, &CellRenderer, &CellEditable, &gdk::Rectangle, TreePath) + 'static, >( this: *mut ffi::GtkCellArea, renderer: *mut ffi::GtkCellRenderer, editable: *mut ffi::GtkCellEditable, cell_area: *mut gdk::ffi::GdkRectangle, path: *mut libc::c_char, f: glib::ffi::gpointer, ) { let f: &F = &*(f as *const F); let path = from_glib_full(crate::ffi::gtk_tree_path_new_from_string(path)); f( CellArea::from_glib_borrow(this).unsafe_cast_ref(), &from_glib_borrow(renderer), &from_glib_borrow(editable), &from_glib_borrow(cell_area), path, ) } unsafe { let f: Box_<F> = Box_::new(f); connect_raw( self.as_ptr() as *mut _, b"add-editable\0".as_ptr() as *const _, Some(transmute::<_, unsafe extern "C" fn()>( add_editable_trampoline::<Self, F> as *const (), )), Box_::into_raw(f), ) } } fn connect_apply_attributes<F: Fn(&Self, &TreeModel, &TreeIter, bool, bool) + 'static>( &self, f: F, ) -> SignalHandlerId { unsafe extern "C" fn apply_attributes_trampoline< P: IsA<CellArea>, F: Fn(&P, &TreeModel, &TreeIter, bool, bool) + 'static, >( this: *mut ffi::GtkCellArea, model: *mut ffi::GtkTreeModel, iter: *mut ffi::GtkTreeIter, is_expander: glib::ffi::gboolean, is_expanded: glib::ffi::gboolean, f: glib::ffi::gpointer, ) { let f: &F = &*(f as *const F); f( CellArea::from_glib_borrow(this).unsafe_cast_ref(), &from_glib_borrow(model), &from_glib_borrow(iter), from_glib(is_expander), from_glib(is_expanded), ) } unsafe { let f: Box_<F> = Box_::new(f); connect_raw( self.as_ptr() as *mut _, b"apply-attributes\0".as_ptr() as *const _, Some(transmute::<_, unsafe extern "C" fn()>( apply_attributes_trampoline::<Self, F> as *const (), )), Box_::into_raw(f), ) } } fn connect_focus_changed<F: Fn(&Self, &CellRenderer, TreePath) + 'static>( &self, f: F, ) -> SignalHandlerId { unsafe extern "C" fn focus_changed_trampoline< P: IsA<CellArea>, F: Fn(&P, &CellRenderer, TreePath) + 'static, >( this: *mut ffi::GtkCellArea, renderer: *mut ffi::GtkCellRenderer, path: *mut libc::c_char, f: glib::ffi::gpointer, ) { let f: &F = &*(f as *const F); let path = from_glib_full(crate::ffi::gtk_tree_path_new_from_string(path)); f( CellArea::from_glib_borrow(this).unsafe_cast_ref(), &from_glib_borrow(renderer), path, ) } unsafe { let f: Box_<F> = Box_::new(f); connect_raw( self.as_ptr() as *mut _, b"focus-changed\0".as_ptr() as *const _, Some(transmute::<_, unsafe extern "C" fn()>( focus_changed_trampoline::<Self, F> as *const (), )), Box_::into_raw(f), ) } } fn connect_remove_editable<F: Fn(&Self, &CellRenderer, &CellEditable) + 'static>( &self, f: F, ) -> SignalHandlerId { unsafe extern "C" fn remove_editable_trampoline< P: IsA<CellArea>, F: Fn(&P, &CellRenderer, &CellEditable) + 'static, >( this: *mut ffi::GtkCellArea, renderer: *mut ffi::GtkCellRenderer, editable: *mut ffi::GtkCellEditable, f: glib::ffi::gpointer, ) { let f: &F = &*(f as *const F); f( CellArea::from_glib_borrow(this).unsafe_cast_ref(), &from_glib_borrow(renderer), &from_glib_borrow(editable), ) } unsafe { let f: Box_<F> = Box_::new(f); connect_raw( self.as_ptr() as *mut _, b"remove-editable\0".as_ptr() as *const _, Some(transmute::<_, unsafe extern "C" fn()>( remove_editable_trampoline::<Self, F> as *const (), )), Box_::into_raw(f), ) } } fn connect_edit_widget_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId { unsafe extern "C" fn notify_edit_widget_trampoline< P: IsA<CellArea>, F: Fn(&P) + 'static, >( this: *mut ffi::GtkCellArea, _param_spec: glib::ffi::gpointer, f: glib::ffi::gpointer, ) { let f: &F = &*(f as *const F); f(CellArea::from_glib_borrow(this).unsafe_cast_ref()) } unsafe { let f: Box_<F> = Box_::new(f); connect_raw( self.as_ptr() as *mut _, b"notify::edit-widget\0".as_ptr() as *const _, Some(transmute::<_, unsafe extern "C" fn()>( notify_edit_widget_trampoline::<Self, F> as *const (), )), Box_::into_raw(f), ) } } fn connect_edited_cell_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId { unsafe extern "C" fn notify_edited_cell_trampoline< P: IsA<CellArea>, F: Fn(&P) + 'static, >( this: *mut ffi::GtkCellArea, _param_spec: glib::ffi::gpointer, f: glib::ffi::gpointer, ) { let f: &F = &*(f as *const F); f(CellArea::from_glib_borrow(this).unsafe_cast_ref()) } unsafe { let f: Box_<F> = Box_::new(f); connect_raw( self.as_ptr() as *mut _, b"notify::edited-cell\0".as_ptr() as *const _, Some(transmute::<_, unsafe extern "C" fn()>( notify_edited_cell_trampoline::<Self, F> as *const (), )), Box_::into_raw(f), ) } } fn connect_focus_cell_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId { unsafe extern "C" fn notify_focus_cell_trampoline<P: IsA<CellArea>, F: Fn(&P) + 'static>( this: *mut ffi::GtkCellArea, _param_spec: glib::ffi::gpointer, f: glib::ffi::gpointer, ) { let f: &F = &*(f as *const F); f(CellArea::from_glib_borrow(this).unsafe_cast_ref()) } unsafe { let f: Box_<F> = Box_::new(f); connect_raw( self.as_ptr() as *mut _, b"notify::focus-cell\0".as_ptr() as *const _, Some(transmute::<_, unsafe extern "C" fn()>( notify_focus_cell_trampoline::<Self, F> as *const (), )), Box_::into_raw(f), ) } } } impl fmt::Display for CellArea { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { f.write_str("CellArea") } }