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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.git)
// DO NOT EDIT
use crate::CellArea;
use crate::CellRenderer;
use crate::TreeIter;
use crate::TreeModel;
use glib::object::IsA;
use glib::translate::*;
use std::boxed::Box as Box_;
use std::fmt;
glib::wrapper! {
/// An interface for packing cells
///
/// [`CellLayout`][crate::CellLayout] is an interface to be implemented by all objects which
/// want to provide a [`TreeViewColumn`][crate::TreeViewColumn] like API for packing cells,
/// setting attributes and data funcs.
///
/// One of the notable features provided by implementations of
/// [`CellLayout`][crate::CellLayout] are attributes. Attributes let you set the properties
/// in flexible ways. They can just be set to constant values like regular
/// properties. But they can also be mapped to a column of the underlying
/// tree model with gtk_cell_layout_set_attributes(), which means that the value
/// of the attribute can change from cell to cell as they are rendered by
/// the cell renderer. Finally, it is possible to specify a function with
/// gtk_cell_layout_set_cell_data_func() that is called to determine the
/// value of the attribute for each cell that is rendered.
///
/// # GtkCellLayouts as GtkBuildable
///
/// Implementations of GtkCellLayout which also implement the GtkBuildable
/// interface ([`CellView`][crate::CellView], [`IconView`][crate::IconView], [`ComboBox`][crate::ComboBox],
/// [`EntryCompletion`][crate::EntryCompletion], [`TreeViewColumn`][crate::TreeViewColumn]) accept [`CellRenderer`][crate::CellRenderer] objects
/// as `<child>` elements in UI definitions. They support a custom `<attributes>`
/// element for their children, which can contain multiple `<attribute>`
/// elements. Each `<attribute>` element has a name attribute which specifies
/// a property of the cell renderer; the content of the element is the
/// attribute value.
///
/// This is an example of a UI definition fragment specifying attributes:
///
/// ```xml
/// <object class="GtkCellView">
/// <child>
/// <object class="GtkCellRendererText"/>
/// <attributes>
/// <attribute name="text">0</attribute>
/// </attributes>
/// </child>
/// </object>
/// ```
///
/// Furthermore for implementations of [`CellLayout`][crate::CellLayout] that use a [`CellArea`][crate::CellArea]
/// to lay out cells (all [`CellLayout`][crate::CellLayout]s in GTK use a [`CellArea`][crate::CellArea])
/// [cell properties](class.CellArea.html#cell-properties) can also be defined
/// in the format by specifying the custom `<cell-packing>` attribute which can
/// contain multiple `<property>` elements.
///
/// Here is a UI definition fragment specifying cell properties:
///
/// ```xml
/// <object class="GtkTreeViewColumn">
/// <child>
/// <object class="GtkCellRendererText"/>
/// <cell-packing>
/// <property name="align">True</property>
/// <property name="expand">False</property>
/// </cell-packing>
/// </child>
/// </object>
/// ```
///
/// # Subclassing GtkCellLayout implementations
///
/// When subclassing a widget that implements [`CellLayout`][crate::CellLayout] like
/// [`IconView`][crate::IconView] or [`ComboBox`][crate::ComboBox], there are some considerations related
/// to the fact that these widgets internally use a [`CellArea`][crate::CellArea].
/// The cell area is exposed as a construct-only property by these
/// widgets. This means that it is possible to e.g. do
///
/// **⚠️ The following code is in c ⚠️**
///
/// ```c
/// GtkWIdget *combo =
/// g_object_new (GTK_TYPE_COMBO_BOX, "cell-area", my_cell_area, NULL);
/// ```
///
/// to use a custom cell area with a combo box. But construct properties
/// are only initialized after instance `init()`
/// functions have run, which means that using functions which rely on
/// the existence of the cell area in your subclass `init()` function will
/// cause the default cell area to be instantiated. In this case, a provided
/// construct property value will be ignored (with a warning, to alert
/// you to the problem).
///
/// **⚠️ The following code is in c ⚠️**
///
/// ```c
/// static void
/// my_combo_box_init (MyComboBox *b)
/// {
/// GtkCellRenderer *cell;
///
/// cell = gtk_cell_renderer_pixbuf_new ();
///
/// // The following call causes the default cell area for combo boxes,
/// // a GtkCellAreaBox, to be instantiated
/// gtk_cell_layout_pack_start (GTK_CELL_LAYOUT (b), cell, FALSE);
/// ...
/// }
///
/// GtkWidget *
/// my_combo_box_new (GtkCellArea *area)
/// {
/// // This call is going to cause a warning about area being ignored
/// return g_object_new (MY_TYPE_COMBO_BOX, "cell-area", area, NULL);
/// }
/// ```
///
/// If supporting alternative cell areas with your derived widget is
/// not important, then this does not have to concern you. If you want
/// to support alternative cell areas, you can do so by moving the
/// problematic calls out of `init()` and into a `constructor()`
/// for your class.
///
/// # Implements
///
/// [`CellLayoutExt`][trait@crate::prelude::CellLayoutExt], [`CellLayoutExtManual`][trait@crate::prelude::CellLayoutExtManual]
#[doc(alias = "GtkCellLayout")]
pub struct CellLayout(Interface<ffi::GtkCellLayout, ffi::GtkCellLayoutIface>);
match fn {
type_ => || ffi::gtk_cell_layout_get_type(),
}
}
impl CellLayout {
pub const NONE: Option<&'static CellLayout> = None;
}
/// Trait containing all [`struct@CellLayout`] methods.
///
/// # Implementors
///
/// [`CellAreaBox`][struct@crate::CellAreaBox], [`CellArea`][struct@crate::CellArea], [`CellLayout`][struct@crate::CellLayout], [`CellView`][struct@crate::CellView], [`ComboBoxText`][struct@crate::ComboBoxText], [`ComboBox`][struct@crate::ComboBox], [`EntryCompletion`][struct@crate::EntryCompletion], [`IconView`][struct@crate::IconView], [`TreeViewColumn`][struct@crate::TreeViewColumn]
pub trait CellLayoutExt: 'static {
/// Adds an attribute mapping to the list in @self.
///
/// The @column is the column of the model to get a value from, and the
/// @attribute is the property on @cell to be set from that value. So for
/// example if column 2 of the model contains strings, you could have the
/// “text” attribute of a [`CellRendererText`][crate::CellRendererText] get its values from column 2.
/// In this context "attribute" and "property" are used interchangeably.
/// ## `cell`
/// a [`CellRenderer`][crate::CellRenderer]
/// ## `attribute`
/// a property on the renderer
/// ## `column`
/// the column position on the model to get the attribute from
#[doc(alias = "gtk_cell_layout_add_attribute")]
fn add_attribute(&self, cell: &impl IsA<CellRenderer>, attribute: &str, column: i32);
/// Unsets all the mappings on all renderers on @self and
/// removes all renderers from @self.
#[doc(alias = "gtk_cell_layout_clear")]
fn clear(&self);
/// Clears all existing attributes previously set with
/// gtk_cell_layout_set_attributes().
/// ## `cell`
/// a [`CellRenderer`][crate::CellRenderer] to clear the attribute mapping on
#[doc(alias = "gtk_cell_layout_clear_attributes")]
fn clear_attributes(&self, cell: &impl IsA<CellRenderer>);
/// Returns the underlying [`CellArea`][crate::CellArea] which might be @self
/// if called on a [`CellArea`][crate::CellArea] or might be [`None`] if no [`CellArea`][crate::CellArea]
/// is used by @self.
///
/// # Returns
///
/// the cell area used by @self
#[doc(alias = "gtk_cell_layout_get_area")]
#[doc(alias = "get_area")]
fn area(&self) -> Option<CellArea>;
/// Returns the cell renderers which have been added to @self.
///
/// # Returns
///
///
/// a list of cell renderers. The list, but not the renderers has
/// been newly allocated and should be freed with g_list_free()
/// when no longer needed.
#[doc(alias = "gtk_cell_layout_get_cells")]
#[doc(alias = "get_cells")]
fn cells(&self) -> Vec<CellRenderer>;
/// Adds the @cell to the end of @self. If @expand is [`false`], then the
/// @cell is allocated no more space than it needs. Any unused space is
/// divided evenly between cells for which @expand is [`true`].
///
/// Note that reusing the same cell renderer is not supported.
/// ## `cell`
/// a [`CellRenderer`][crate::CellRenderer]
/// ## `expand`
/// [`true`] if @cell is to be given extra space allocated to @self
#[doc(alias = "gtk_cell_layout_pack_end")]
fn pack_end(&self, cell: &impl IsA<CellRenderer>, expand: bool);
/// Packs the @cell into the beginning of @self. If @expand is [`false`],
/// then the @cell is allocated no more space than it needs. Any unused space
/// is divided evenly between cells for which @expand is [`true`].
///
/// Note that reusing the same cell renderer is not supported.
/// ## `cell`
/// a [`CellRenderer`][crate::CellRenderer]
/// ## `expand`
/// [`true`] if @cell is to be given extra space allocated to @self
#[doc(alias = "gtk_cell_layout_pack_start")]
fn pack_start(&self, cell: &impl IsA<CellRenderer>, expand: bool);
/// Re-inserts @cell at @position.
///
/// Note that @cell has already to be packed into @self
/// for this to function properly.
/// ## `cell`
/// a [`CellRenderer`][crate::CellRenderer] to reorder
/// ## `position`
/// new position to insert @cell at
#[doc(alias = "gtk_cell_layout_reorder")]
fn reorder(&self, cell: &impl IsA<CellRenderer>, position: i32);
/// Sets the [`CellLayout`][crate::CellLayout]DataFunc to use for @self.
///
/// This function is used instead of the standard attributes mapping
/// for setting the column value, and should set the value of @self’s
/// cell renderer(s) as appropriate.
///
/// @func may be [`None`] to remove a previously set function.
/// ## `cell`
/// a [`CellRenderer`][crate::CellRenderer]
/// ## `func`
/// the [`CellLayout`][crate::CellLayout]DataFunc to use
/// ## `func_data`
/// user data for @func
#[doc(alias = "gtk_cell_layout_set_cell_data_func")]
fn set_cell_data_func<P: Fn(&CellLayout, &CellRenderer, &TreeModel, &TreeIter) + 'static>(
&self,
cell: &impl IsA<CellRenderer>,
func: P,
);
}
impl<O: IsA<CellLayout>> CellLayoutExt for O {
fn add_attribute(&self, cell: &impl IsA<CellRenderer>, attribute: &str, column: i32) {
unsafe {
ffi::gtk_cell_layout_add_attribute(
self.as_ref().to_glib_none().0,
cell.as_ref().to_glib_none().0,
attribute.to_glib_none().0,
column,
);
}
}
fn clear(&self) {
unsafe {
ffi::gtk_cell_layout_clear(self.as_ref().to_glib_none().0);
}
}
fn clear_attributes(&self, cell: &impl IsA<CellRenderer>) {
unsafe {
ffi::gtk_cell_layout_clear_attributes(
self.as_ref().to_glib_none().0,
cell.as_ref().to_glib_none().0,
);
}
}
fn area(&self) -> Option<CellArea> {
unsafe {
from_glib_none(ffi::gtk_cell_layout_get_area(
self.as_ref().to_glib_none().0,
))
}
}
fn cells(&self) -> Vec<CellRenderer> {
unsafe {
FromGlibPtrContainer::from_glib_container(ffi::gtk_cell_layout_get_cells(
self.as_ref().to_glib_none().0,
))
}
}
fn pack_end(&self, cell: &impl IsA<CellRenderer>, expand: bool) {
unsafe {
ffi::gtk_cell_layout_pack_end(
self.as_ref().to_glib_none().0,
cell.as_ref().to_glib_none().0,
expand.into_glib(),
);
}
}
fn pack_start(&self, cell: &impl IsA<CellRenderer>, expand: bool) {
unsafe {
ffi::gtk_cell_layout_pack_start(
self.as_ref().to_glib_none().0,
cell.as_ref().to_glib_none().0,
expand.into_glib(),
);
}
}
fn reorder(&self, cell: &impl IsA<CellRenderer>, position: i32) {
unsafe {
ffi::gtk_cell_layout_reorder(
self.as_ref().to_glib_none().0,
cell.as_ref().to_glib_none().0,
position,
);
}
}
fn set_cell_data_func<P: Fn(&CellLayout, &CellRenderer, &TreeModel, &TreeIter) + 'static>(
&self,
cell: &impl IsA<CellRenderer>,
func: P,
) {
let func_data: Box_<P> = Box_::new(func);
unsafe extern "C" fn func_func<
P: Fn(&CellLayout, &CellRenderer, &TreeModel, &TreeIter) + 'static,
>(
cell_layout: *mut ffi::GtkCellLayout,
cell: *mut ffi::GtkCellRenderer,
tree_model: *mut ffi::GtkTreeModel,
iter: *mut ffi::GtkTreeIter,
data: glib::ffi::gpointer,
) {
let cell_layout = from_glib_borrow(cell_layout);
let cell = from_glib_borrow(cell);
let tree_model = from_glib_borrow(tree_model);
let iter = from_glib_borrow(iter);
let callback: &P = &*(data as *mut _);
(*callback)(&cell_layout, &cell, &tree_model, &iter);
}
let func = Some(func_func::<P> as _);
unsafe extern "C" fn destroy_func<
P: Fn(&CellLayout, &CellRenderer, &TreeModel, &TreeIter) + 'static,
>(
data: glib::ffi::gpointer,
) {
let _callback: Box_<P> = Box_::from_raw(data as *mut _);
}
let destroy_call4 = Some(destroy_func::<P> as _);
let super_callback0: Box_<P> = func_data;
unsafe {
ffi::gtk_cell_layout_set_cell_data_func(
self.as_ref().to_glib_none().0,
cell.as_ref().to_glib_none().0,
func,
Box_::into_raw(super_callback0) as *mut _,
destroy_call4,
);
}
}
}
impl fmt::Display for CellLayout {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.write_str("CellLayout")
}
}