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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
#![allow(deprecated)]
use crate::{
Accessible, Align, Allocation, Buildable, ConstraintTarget, DirectionType, EventController,
LayoutManager, Native, Orientation, Overflow, PickFlags, Requisition, Root, Settings,
SizeRequestMode, Snapshot, StateFlags, StyleContext, TextDirection, Tooltip,
};
use glib::{
prelude::*,
signal::{connect_raw, SignalHandlerId},
translate::*,
};
use std::boxed::Box as Box_;
glib::wrapper! {
/// The base class for all widgets.
///
/// [`Widget`][crate::Widget] is the base class all widgets in GTK derive from. It manages the
/// widget lifecycle, layout, states and style.
///
/// ### Height-for-width Geometry Management
///
/// GTK uses a height-for-width (and width-for-height) geometry management
/// system. Height-for-width means that a widget can change how much
/// vertical space it needs, depending on the amount of horizontal space
/// that it is given (and similar for width-for-height). The most common
/// example is a label that reflows to fill up the available width, wraps
/// to fewer lines, and therefore needs less height.
///
/// Height-for-width geometry management is implemented in GTK by way
/// of two virtual methods:
///
/// - [`WidgetImpl::request_mode()`][crate::subclass::prelude::WidgetImpl::request_mode()]
/// - [`WidgetImpl::measure()`][crate::subclass::prelude::WidgetImpl::measure()]
///
/// There are some important things to keep in mind when implementing
/// height-for-width and when using it in widget implementations.
///
/// If you implement a direct [`Widget`][crate::Widget] subclass that supports
/// height-for-width or width-for-height geometry management for itself
/// or its child widgets, the [`WidgetImpl::request_mode()`][crate::subclass::prelude::WidgetImpl::request_mode()] virtual
/// function must be implemented as well and return the widget's preferred
/// request mode. The default implementation of this virtual function
/// returns [`SizeRequestMode::ConstantSize`][crate::SizeRequestMode::ConstantSize], which means that the widget will
/// only ever get -1 passed as the for_size value to its
/// [`WidgetImpl::measure()`][crate::subclass::prelude::WidgetImpl::measure()] implementation.
///
/// The geometry management system will query a widget hierarchy in
/// only one orientation at a time. When widgets are initially queried
/// for their minimum sizes it is generally done in two initial passes
/// in the [`SizeRequestMode`][crate::SizeRequestMode] chosen by the toplevel.
///
/// For example, when queried in the normal [`SizeRequestMode::HeightForWidth`][crate::SizeRequestMode::HeightForWidth] mode:
///
/// First, the default minimum and natural width for each widget
/// in the interface will be computed using [`WidgetExt::measure()`][crate::prelude::WidgetExt::measure()] with an
/// orientation of [`Orientation::Horizontal`][crate::Orientation::Horizontal] and a for_size of -1.
/// Because the preferred widths for each widget depend on the preferred
/// widths of their children, this information propagates up the hierarchy,
/// and finally a minimum and natural width is determined for the entire
/// toplevel. Next, the toplevel will use the minimum width to query for the
/// minimum height contextual to that width using [`WidgetExt::measure()`][crate::prelude::WidgetExt::measure()] with an
/// orientation of [`Orientation::Vertical`][crate::Orientation::Vertical] and a for_size of the just computed
/// width. This will also be a highly recursive operation. The minimum height
/// for the minimum width is normally used to set the minimum size constraint
/// on the toplevel.
///
/// After the toplevel window has initially requested its size in both
/// dimensions it can go on to allocate itself a reasonable size (or a size
/// previously specified with [`GtkWindowExt::set_default_size()`][crate::prelude::GtkWindowExt::set_default_size()]). During the
/// recursive allocation process it’s important to note that request cycles
/// will be recursively executed while widgets allocate their children.
/// Each widget, once allocated a size, will go on to first share the
/// space in one orientation among its children and then request each child's
/// height for its target allocated width or its width for allocated height,
/// depending. In this way a [`Widget`][crate::Widget] will typically be requested its size
/// a number of times before actually being allocated a size. The size a
/// widget is finally allocated can of course differ from the size it has
/// requested. For this reason, [`Widget`][crate::Widget] caches a small number of results
/// to avoid re-querying for the same sizes in one allocation cycle.
///
/// If a widget does move content around to intelligently use up the
/// allocated size then it must support the request in both
/// [`SizeRequestMode`][crate::SizeRequestMode]s even if the widget in question only
/// trades sizes in a single orientation.
///
/// For instance, a [`Label`][crate::Label] that does height-for-width word wrapping
/// will not expect to have [`WidgetImpl::measure()`][crate::subclass::prelude::WidgetImpl::measure()] with an orientation of
/// [`Orientation::Vertical`][crate::Orientation::Vertical] called because that call is specific to a
/// width-for-height request. In this case the label must return the height
/// required for its own minimum possible width. By following this rule any
/// widget that handles height-for-width or width-for-height requests will
/// always be allocated at least enough space to fit its own content.
///
/// Here are some examples of how a [`SizeRequestMode::HeightForWidth`][crate::SizeRequestMode::HeightForWidth] widget
/// generally deals with width-for-height requests:
///
/// **⚠️ The following code is in c ⚠️**
///
/// ```c
/// static void
/// foo_widget_measure (GtkWidget *widget,
/// GtkOrientation orientation,
/// int for_size,
/// int *minimum_size,
/// int *natural_size,
/// int *minimum_baseline,
/// int *natural_baseline)
/// {
/// if (orientation == GTK_ORIENTATION_HORIZONTAL)
/// {
/// // Calculate minimum and natural width
/// }
/// else // VERTICAL
/// {
/// if (i_am_in_height_for_width_mode)
/// {
/// int min_width, dummy;
///
/// // First, get the minimum width of our widget
/// GTK_WIDGET_GET_CLASS (widget)->measure (widget, GTK_ORIENTATION_HORIZONTAL, -1,
/// &min_width, &dummy, &dummy, &dummy);
///
/// // Now use the minimum width to retrieve the minimum and natural height to display
/// // that width.
/// GTK_WIDGET_GET_CLASS (widget)->measure (widget, GTK_ORIENTATION_VERTICAL, min_width,
/// minimum_size, natural_size, &dummy, &dummy);
/// }
/// else
/// {
/// // ... some widgets do both.
/// }
/// }
/// }
/// ```
///
/// Often a widget needs to get its own request during size request or
/// allocation. For example, when computing height it may need to also
/// compute width. Or when deciding how to use an allocation, the widget
/// may need to know its natural size. In these cases, the widget should
/// be careful to call its virtual methods directly, like in the code
/// example above.
///
/// It will not work to use the wrapper function [`WidgetExt::measure()`][crate::prelude::WidgetExt::measure()]
/// inside your own [`WidgetImpl::size_allocate()`][crate::subclass::prelude::WidgetImpl::size_allocate()] implementation.
/// These return a request adjusted by [`SizeGroup`][crate::SizeGroup], the widget's
/// align and expand flags, as well as its CSS style.
///
/// If a widget used the wrappers inside its virtual method implementations,
/// then the adjustments (such as widget margins) would be applied
/// twice. GTK therefore does not allow this and will warn if you try
/// to do it.
///
/// Of course if you are getting the size request for another widget, such
/// as a child widget, you must use [`WidgetExt::measure()`][crate::prelude::WidgetExt::measure()]; otherwise, you
/// would not properly consider widget margins, [`SizeGroup`][crate::SizeGroup], and
/// so forth.
///
/// GTK also supports baseline vertical alignment of widgets. This
/// means that widgets are positioned such that the typographical baseline of
/// widgets in the same row are aligned. This happens if a widget supports
/// baselines, has a vertical alignment using baselines, and is inside
/// a widget that supports baselines and has a natural “row” that it aligns to
/// the baseline, or a baseline assigned to it by the grandparent.
///
/// Baseline alignment support for a widget is also done by the
/// [`WidgetImpl::measure()`][crate::subclass::prelude::WidgetImpl::measure()] virtual function. It allows you to report
/// both a minimum and natural size.
///
/// If a widget ends up baseline aligned it will be allocated all the space in
/// the parent as if it was [`Align::Fill`][crate::Align::Fill], but the selected baseline can be
/// found via [`WidgetExt::baseline()`][crate::prelude::WidgetExt::baseline()]. If the baseline has a
/// value other than -1 you need to align the widget such that the baseline
/// appears at the position.
///
/// ### GtkWidget as GtkBuildable
///
/// The [`Widget`][crate::Widget] implementation of the [`Buildable`][crate::Buildable] interface
/// supports various custom elements to specify additional aspects of widgets
/// that are not directly expressed as properties.
///
/// If the widget uses a [`LayoutManager`][crate::LayoutManager], [`Widget`][crate::Widget] supports
/// a custom `<layout>` element, used to define layout properties:
///
/// ```xml
/// <object class="GtkGrid" id="my_grid">
/// <child>
/// <object class="GtkLabel" id="label1">
/// <property name="label">Description</property>
/// <layout>
/// <property name="column">0</property>
/// <property name="row">0</property>
/// <property name="row-span">1</property>
/// <property name="column-span">1</property>
/// </layout>
/// </object>
/// </child>
/// <child>
/// <object class="GtkEntry" id="description_entry">
/// <layout>
/// <property name="column">1</property>
/// <property name="row">0</property>
/// <property name="row-span">1</property>
/// <property name="column-span">1</property>
/// </layout>
/// </object>
/// </child>
/// </object>
/// ```
///
/// [`Widget`][crate::Widget] allows style information such as style classes to
/// be associated with widgets, using the custom `<style>` element:
///
/// ```xml
/// <object class="GtkButton" id="button1">
/// <style>
/// <class name="my-special-button-class"/>
/// <class name="dark-button"/>
/// </style>
/// </object>
/// ```
///
/// [`Widget`][crate::Widget] allows defining accessibility information, such as properties,
/// relations, and states, using the custom `<accessibility>` element:
///
/// ```xml
/// <object class="GtkButton" id="button1">
/// <accessibility>
/// <property name="label">Download</property>
/// <relation name="labelled-by">label1</relation>
/// </accessibility>
/// </object>
/// ```
///
/// ### Building composite widgets from template XML
///
/// `GtkWidget `exposes some facilities to automate the procedure
/// of creating composite widgets using "templates".
///
/// To create composite widgets with [`Builder`][crate::Builder] XML, one must associate
/// the interface description with the widget class at class initialization
/// time using [`WidgetClassExt::set_template()`][crate::subclass::prelude::WidgetClassExt::set_template()].
///
/// The interface description semantics expected in composite template descriptions
/// is slightly different from regular [`Builder`][crate::Builder] XML.
///
/// Unlike regular interface descriptions, [`WidgetClassExt::set_template()`][crate::subclass::prelude::WidgetClassExt::set_template()]
/// will expect a `<template>` tag as a direct child of the toplevel
/// `<interface>` tag. The `<template>` tag must specify the “class” attribute
/// which must be the type name of the widget. Optionally, the “parent”
/// attribute may be specified to specify the direct parent type of the widget
/// type; this is ignored by [`Builder`][crate::Builder] but can be used by UI design tools to
/// introspect what kind of properties and internal children exist for a given
/// type when the actual type does not exist.
///
/// The XML which is contained inside the `<template>` tag behaves as if it were
/// added to the `<object>` tag defining the widget itself. You may set properties
/// on a widget by inserting `<property>` tags into the `<template>` tag, and also
/// add `<child>` tags to add children and extend a widget in the normal way you
/// would with `<object>` tags.
///
/// Additionally, `<object>` tags can also be added before and after the initial
/// `<template>` tag in the normal way, allowing one to define auxiliary objects
/// which might be referenced by other widgets declared as children of the
/// `<template>` tag.
///
/// Since, unlike the `<object>` tag, the `<template>` tag does not contain an
/// “id” attribute, if you need to refer to the instance of the object itself that
/// the template will create, simply refer to the template class name in an
/// applicable element content.
///
/// Here is an example of a template definition, which includes an example of
/// this in the `<signal>` tag:
///
/// ```xml
/// <interface>
/// <template class="FooWidget" parent="GtkBox">
/// <property name="orientation">horizontal</property>
/// <property name="spacing">4</property>
/// <child>
/// <object class="GtkButton" id="hello_button">
/// <property name="label">Hello World</property>
/// <signal name="clicked" handler="hello_button_clicked" object="FooWidget" swapped="yes"/>
/// </object>
/// </child>
/// <child>
/// <object class="GtkButton" id="goodbye_button">
/// <property name="label">Goodbye World</property>
/// </object>
/// </child>
/// </template>
/// </interface>
/// ```
///
/// Typically, you'll place the template fragment into a file that is
/// bundled with your project, using `GResource`. In order to load the
/// template, you need to call [`WidgetClassExt::set_template_from_resource()`][crate::subclass::prelude::WidgetClassExt::set_template_from_resource()]
/// from the class initialization of your [`Widget`][crate::Widget] type:
///
/// **⚠️ The following code is in c ⚠️**
///
/// ```c
/// static void
/// foo_widget_class_init (FooWidgetClass *klass)
/// {
/// // ...
///
/// gtk_widget_class_set_template_from_resource (GTK_WIDGET_CLASS (klass),
/// "/com/example/ui/foowidget.ui");
/// }
/// ```
///
/// You will also need to call `Gtk::Widget::init_template()` from the
/// instance initialization function:
///
/// **⚠️ The following code is in c ⚠️**
///
/// ```c
/// static void
/// foo_widget_init (FooWidget *self)
/// {
/// gtk_widget_init_template (GTK_WIDGET (self));
///
/// // Initialize the rest of the widget...
/// }
/// ```
///
/// as well as calling `Gtk::Widget::dispose_template()` from the dispose
/// function:
///
/// **⚠️ The following code is in c ⚠️**
///
/// ```c
/// static void
/// foo_widget_dispose (GObject *gobject)
/// {
/// FooWidget *self = FOO_WIDGET (gobject);
///
/// // Dispose objects for which you have a reference...
///
/// // Clear the template children for this widget type
/// gtk_widget_dispose_template (GTK_WIDGET (self), FOO_TYPE_WIDGET);
///
/// G_OBJECT_CLASS (foo_widget_parent_class)->dispose (gobject);
/// }
/// ```
///
/// You can access widgets defined in the template using the
/// `Gtk::Widget::get_template_child()` function, but you will typically declare
/// a pointer in the instance private data structure of your type using the same
/// name as the widget in the template definition, and call
/// [`WidgetClassExt::bind_template_child_full()`][crate::subclass::prelude::WidgetClassExt::bind_template_child_full()] (or one of its wrapper macros
/// `widget_class_bind_template_child()` and `widget_class_bind_template_child_private()`)
/// with that name, e.g.
///
/// **⚠️ The following code is in c ⚠️**
///
/// ```c
/// typedef struct {
/// GtkWidget *hello_button;
/// GtkWidget *goodbye_button;
/// } FooWidgetPrivate;
///
/// G_DEFINE_TYPE_WITH_PRIVATE (FooWidget, foo_widget, GTK_TYPE_BOX)
///
/// static void
/// foo_widget_dispose (GObject *gobject)
/// {
/// gtk_widget_dispose_template (GTK_WIDGET (gobject), FOO_TYPE_WIDGET);
///
/// G_OBJECT_CLASS (foo_widget_parent_class)->dispose (gobject);
/// }
///
/// static void
/// foo_widget_class_init (FooWidgetClass *klass)
/// {
/// // ...
/// G_OBJECT_CLASS (klass)->dispose = foo_widget_dispose;
///
/// gtk_widget_class_set_template_from_resource (GTK_WIDGET_CLASS (klass),
/// "/com/example/ui/foowidget.ui");
/// gtk_widget_class_bind_template_child_private (GTK_WIDGET_CLASS (klass),
/// FooWidget, hello_button);
/// gtk_widget_class_bind_template_child_private (GTK_WIDGET_CLASS (klass),
/// FooWidget, goodbye_button);
/// }
///
/// static void
/// foo_widget_init (FooWidget *widget)
/// {
/// gtk_widget_init_template (GTK_WIDGET (widget));
/// }
/// ```
///
/// You can also use [`WidgetClassExt::bind_template_callback_full()`][crate::subclass::prelude::WidgetClassExt::bind_template_callback_full()] (or
/// is wrapper macro `widget_class_bind_template_callback()`) to connect
/// a signal callback defined in the template with a function visible in the
/// scope of the class, e.g.
///
/// **⚠️ The following code is in c ⚠️**
///
/// ```c
/// // the signal handler has the instance and user data swapped
/// // because of the swapped="yes" attribute in the template XML
/// static void
/// hello_button_clicked (FooWidget *self,
/// GtkButton *button)
/// {
/// g_print ("Hello, world!\n");
/// }
///
/// static void
/// foo_widget_class_init (FooWidgetClass *klass)
/// {
/// // ...
/// gtk_widget_class_set_template_from_resource (GTK_WIDGET_CLASS (klass),
/// "/com/example/ui/foowidget.ui");
/// gtk_widget_class_bind_template_callback (GTK_WIDGET_CLASS (klass), hello_button_clicked);
/// }
/// ```
///
/// This is an Abstract Base Class, you cannot instantiate it.
///
/// ## Properties
///
///
/// #### `can-focus`
/// Whether the widget or any of its descendents can accept
/// the input focus.
///
/// This property is meant to be set by widget implementations,
/// typically in their instance init function.
///
/// Readable | Writeable
///
///
/// #### `can-target`
/// Whether the widget can receive pointer events.
///
/// Readable | Writeable
///
///
/// #### `css-classes`
/// A list of css classes applied to this widget.
///
/// Readable | Writeable
///
///
/// #### `css-name`
/// The name of this widget in the CSS tree.
///
/// This property is meant to be set by widget implementations,
/// typically in their instance init function.
///
/// Readable | Writeable | Construct Only
///
///
/// #### `cursor`
/// The cursor used by @widget.
///
/// Readable | Writeable
///
///
/// #### `focus-on-click`
/// Whether the widget should grab focus when it is clicked with the mouse.
///
/// This property is only relevant for widgets that can take focus.
///
/// Readable | Writeable
///
///
/// #### `focusable`
/// Whether this widget itself will accept the input focus.
///
/// Readable | Writeable
///
///
/// #### `halign`
/// How to distribute horizontal space if widget gets extra space.
///
/// Readable | Writeable
///
///
/// #### `has-default`
/// Whether the widget is the default widget.
///
/// Readable
///
///
/// #### `has-focus`
/// Whether the widget has the input focus.
///
/// Readable
///
///
/// #### `has-tooltip`
/// Enables or disables the emission of the ::query-tooltip signal on @widget.
///
/// A value of [`true`] indicates that @widget can have a tooltip, in this case
/// the widget will be queried using [`query-tooltip`][struct@crate::Widget#query-tooltip] to
/// determine whether it will provide a tooltip or not.
///
/// Readable | Writeable
///
///
/// #### `height-request`
/// Override for height request of the widget.
///
/// If this is -1, the natural request will be used.
///
/// Readable | Writeable
///
///
/// #### `hexpand`
/// Whether to expand horizontally.
///
/// Readable | Writeable
///
///
/// #### `hexpand-set`
/// Whether to use the `hexpand` property.
///
/// Readable | Writeable
///
///
/// #### `layout-manager`
/// The [`LayoutManager`][crate::LayoutManager] instance to use to compute the preferred size
/// of the widget, and allocate its children.
///
/// This property is meant to be set by widget implementations,
/// typically in their instance init function.
///
/// Readable | Writeable
///
///
/// #### `margin-bottom`
/// Margin on bottom side of widget.
///
/// This property adds margin outside of the widget's normal size
/// request, the margin will be added in addition to the size from
/// [`WidgetExt::set_size_request()`][crate::prelude::WidgetExt::set_size_request()] for example.
///
/// Readable | Writeable
///
///
/// #### `margin-end`
/// Margin on end of widget, horizontally.
///
/// This property supports left-to-right and right-to-left text
/// directions.
///
/// This property adds margin outside of the widget's normal size
/// request, the margin will be added in addition to the size from
/// [`WidgetExt::set_size_request()`][crate::prelude::WidgetExt::set_size_request()] for example.
///
/// Readable | Writeable
///
///
/// #### `margin-start`
/// Margin on start of widget, horizontally.
///
/// This property supports left-to-right and right-to-left text
/// directions.
///
/// This property adds margin outside of the widget's normal size
/// request, the margin will be added in addition to the size from
/// [`WidgetExt::set_size_request()`][crate::prelude::WidgetExt::set_size_request()] for example.
///
/// Readable | Writeable
///
///
/// #### `margin-top`
/// Margin on top side of widget.
///
/// This property adds margin outside of the widget's normal size
/// request, the margin will be added in addition to the size from
/// [`WidgetExt::set_size_request()`][crate::prelude::WidgetExt::set_size_request()] for example.
///
/// Readable | Writeable
///
///
/// #### `name`
/// The name of the widget.
///
/// Readable | Writeable
///
///
/// #### `opacity`
/// The requested opacity of the widget.
///
/// Readable | Writeable
///
///
/// #### `overflow`
/// How content outside the widget's content area is treated.
///
/// This property is meant to be set by widget implementations,
/// typically in their instance init function.
///
/// Readable | Writeable
///
///
/// #### `parent`
/// The parent widget of this widget.
///
/// Readable
///
///
/// #### `receives-default`
/// Whether the widget will receive the default action when it is focused.
///
/// Readable | Writeable
///
///
/// #### `root`
/// The [`Root`][crate::Root] widget of the widget tree containing this widget.
///
/// This will be [`None`] if the widget is not contained in a root widget.
///
/// Readable
///
///
/// #### `scale-factor`
/// The scale factor of the widget.
///
/// Readable
///
///
/// #### `sensitive`
/// Whether the widget responds to input.
///
/// Readable | Writeable
///
///
/// #### `tooltip-markup`
/// Sets the text of tooltip to be the given string, which is marked up
/// with Pango markup.
///
/// Also see [`Tooltip::set_markup()`][crate::Tooltip::set_markup()].
///
/// This is a convenience property which will take care of getting the
/// tooltip shown if the given string is not [`None`]:
/// [`has-tooltip`][struct@crate::Widget#has-tooltip] will automatically be set to [`true`]
/// and there will be taken care of [`query-tooltip`][struct@crate::Widget#query-tooltip] in
/// the default signal handler.
///
/// Note that if both [`tooltip-text`][struct@crate::Widget#tooltip-text] and
/// [`tooltip-markup`][struct@crate::Widget#tooltip-markup] are set, the last one wins.
///
/// Readable | Writeable
///
///
/// #### `tooltip-text`
/// Sets the text of tooltip to be the given string.
///
/// Also see [`Tooltip::set_text()`][crate::Tooltip::set_text()].
///
/// This is a convenience property which will take care of getting the
/// tooltip shown if the given string is not [`None`]:
/// [`has-tooltip`][struct@crate::Widget#has-tooltip] will automatically be set to [`true`]
/// and there will be taken care of [`query-tooltip`][struct@crate::Widget#query-tooltip] in
/// the default signal handler.
///
/// Note that if both [`tooltip-text`][struct@crate::Widget#tooltip-text] and
/// [`tooltip-markup`][struct@crate::Widget#tooltip-markup] are set, the last one wins.
///
/// Readable | Writeable
///
///
/// #### `valign`
/// How to distribute vertical space if widget gets extra space.
///
/// Readable | Writeable
///
///
/// #### `vexpand`
/// Whether to expand vertically.
///
/// Readable | Writeable
///
///
/// #### `vexpand-set`
/// Whether to use the `vexpand` property.
///
/// Readable | Writeable
///
///
/// #### `visible`
/// Whether the widget is visible.
///
/// Readable | Writeable
///
///
/// #### `width-request`
/// Override for width request of the widget.
///
/// If this is -1, the natural request will be used.
///
/// Readable | Writeable
/// <details><summary><h4>Accessible</h4></summary>
///
///
/// #### `accessible-role`
/// The accessible role of the given [`Accessible`][crate::Accessible] implementation.
///
/// The accessible role cannot be changed once set.
///
/// Readable | Writeable
/// </details>
///
/// ## Signals
///
///
/// #### `destroy`
/// Signals that all holders of a reference to the widget should release
/// the reference that they hold.
///
/// May result in finalization of the widget if all references are released.
///
/// This signal is not suitable for saving widget state.
///
///
///
///
/// #### `direction-changed`
/// Emitted when the text direction of a widget changes.
///
///
///
///
/// #### `hide`
/// Emitted when @widget is hidden.
///
///
///
///
/// #### `keynav-failed`
/// Emitted if keyboard navigation fails.
///
/// See [`WidgetExt::keynav_failed()`][crate::prelude::WidgetExt::keynav_failed()] for details.
///
///
///
///
/// #### `map`
/// Emitted when @widget is going to be mapped.
///
/// A widget is mapped when the widget is visible (which is controlled with
/// [`visible`][struct@crate::Widget#visible]) and all its parents up to the toplevel widget
/// are also visible.
///
/// The ::map signal can be used to determine whether a widget will be drawn,
/// for instance it can resume an animation that was stopped during the
/// emission of [`unmap`][struct@crate::Widget#unmap].
///
///
///
///
/// #### `mnemonic-activate`
/// Emitted when a widget is activated via a mnemonic.
///
/// The default handler for this signal activates @widget if @group_cycling
/// is [`false`], or just makes @widget grab focus if @group_cycling is [`true`].
///
///
///
///
/// #### `move-focus`
/// Emitted when the focus is moved.
///
/// The ::move-focus signal is a [keybinding signal](class.SignalAction.html).
///
/// The default bindings for this signal are <kbd>Tab</kbd> to move forward,
/// and <kbd>Shift</kbd>+<kbd>Tab</kbd> to move backward.
///
/// Action
///
///
/// #### `query-tooltip`
/// Emitted when the widget’s tooltip is about to be shown.
///
/// This happens when the [`has-tooltip`][struct@crate::Widget#has-tooltip] property
/// is [`true`] and the hover timeout has expired with the cursor hovering
/// "above" @widget; or emitted when @widget got focus in keyboard mode.
///
/// Using the given coordinates, the signal handler should determine
/// whether a tooltip should be shown for @widget. If this is the case
/// [`true`] should be returned, [`false`] otherwise. Note that if
/// @keyboard_mode is [`true`], the values of @x and @y are undefined and
/// should not be used.
///
/// The signal handler is free to manipulate @tooltip with the therefore
/// destined function calls.
///
///
///
///
/// #### `realize`
/// Emitted when @widget is associated with a [`gdk::Surface`][crate::gdk::Surface].
///
/// This means that [`WidgetExt::realize()`][crate::prelude::WidgetExt::realize()] has been called
/// or the widget has been mapped (that is, it is going to be drawn).
///
///
///
///
/// #### `show`
/// Emitted when @widget is shown.
///
///
///
///
/// #### `state-flags-changed`
/// Emitted when the widget state changes.
///
/// See [`WidgetExt::state_flags()`][crate::prelude::WidgetExt::state_flags()].
///
///
///
///
/// #### `unmap`
/// Emitted when @widget is going to be unmapped.
///
/// A widget is unmapped when either it or any of its parents up to the
/// toplevel widget have been set as hidden.
///
/// As ::unmap indicates that a widget will not be shown any longer,
/// it can be used to, for example, stop an animation on the widget.
///
///
///
///
/// #### `unrealize`
/// Emitted when the [`gdk::Surface`][crate::gdk::Surface] associated with @widget is destroyed.
///
/// This means that [`WidgetExt::unrealize()`][crate::prelude::WidgetExt::unrealize()] has been called
/// or the widget has been unmapped (that is, it is going to be hidden).
///
///
///
/// # Implements
///
/// [`WidgetExt`][trait@crate::prelude::WidgetExt], [`trait@glib::ObjectExt`], [`AccessibleExt`][trait@crate::prelude::AccessibleExt], [`BuildableExt`][trait@crate::prelude::BuildableExt], [`ConstraintTargetExt`][trait@crate::prelude::ConstraintTargetExt], [`WidgetExtManual`][trait@crate::prelude::WidgetExtManual], [`AccessibleExtManual`][trait@crate::prelude::AccessibleExtManual]
#[doc(alias = "GtkWidget")]
pub struct Widget(Object<ffi::GtkWidget, ffi::GtkWidgetClass>) @implements Accessible, Buildable, ConstraintTarget;
match fn {
type_ => || ffi::gtk_widget_get_type(),
}
}
impl Widget {
pub const NONE: Option<&'static Widget> = None;
/// Obtains the current default reading direction.
///
/// See [`set_default_direction()`][Self::set_default_direction()].
///
/// # Returns
///
/// the current default direction.
#[doc(alias = "gtk_widget_get_default_direction")]
#[doc(alias = "get_default_direction")]
pub fn default_direction() -> TextDirection {
assert_initialized_main_thread!();
unsafe { from_glib(ffi::gtk_widget_get_default_direction()) }
}
/// Sets the default reading direction for widgets.
///
/// See [`WidgetExt::set_direction()`][crate::prelude::WidgetExt::set_direction()].
/// ## `dir`
/// the new default direction. This cannot be [`TextDirection::None`][crate::TextDirection::None].
#[doc(alias = "gtk_widget_set_default_direction")]
pub fn set_default_direction(dir: TextDirection) {
assert_initialized_main_thread!();
unsafe {
ffi::gtk_widget_set_default_direction(dir.into_glib());
}
}
}
impl std::fmt::Display for Widget {
#[inline]
fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result {
f.write_str(&WidgetExt::widget_name(self))
}
}
mod sealed {
pub trait Sealed {}
impl<T: super::IsA<super::Widget>> Sealed for T {}
}
/// Trait containing all [`struct@Widget`] methods.
///
/// # Implementors
///
/// [`ActionBar`][struct@crate::ActionBar], [`Actionable`][struct@crate::Actionable], [`AppChooserButton`][struct@crate::AppChooserButton], [`AppChooserWidget`][struct@crate::AppChooserWidget], [`AppChooser`][struct@crate::AppChooser], [`AspectFrame`][struct@crate::AspectFrame], [`Box`][struct@crate::Box], [`Button`][struct@crate::Button], [`Calendar`][struct@crate::Calendar], [`CellEditable`][struct@crate::CellEditable], [`CellView`][struct@crate::CellView], [`CenterBox`][struct@crate::CenterBox], [`CheckButton`][struct@crate::CheckButton], [`ColorButton`][struct@crate::ColorButton], [`ColorChooserWidget`][struct@crate::ColorChooserWidget], [`ColorDialogButton`][struct@crate::ColorDialogButton], [`ColumnView`][struct@crate::ColumnView], [`ComboBox`][struct@crate::ComboBox], [`DragIcon`][struct@crate::DragIcon], [`DrawingArea`][struct@crate::DrawingArea], [`DropDown`][struct@crate::DropDown], [`EditableLabel`][struct@crate::EditableLabel], [`Editable`][struct@crate::Editable], [`Entry`][struct@crate::Entry], [`Expander`][struct@crate::Expander], [`FileChooserWidget`][struct@crate::FileChooserWidget], [`Fixed`][struct@crate::Fixed], [`FlowBoxChild`][struct@crate::FlowBoxChild], [`FlowBox`][struct@crate::FlowBox], [`FontButton`][struct@crate::FontButton], [`FontChooserWidget`][struct@crate::FontChooserWidget], [`FontDialogButton`][struct@crate::FontDialogButton], [`Frame`][struct@crate::Frame], [`GLArea`][struct@crate::GLArea], [`GraphicsOffload`][struct@crate::GraphicsOffload], [`Grid`][struct@crate::Grid], [`HeaderBar`][struct@crate::HeaderBar], [`IconView`][struct@crate::IconView], [`Image`][struct@crate::Image], [`InfoBar`][struct@crate::InfoBar], [`Inscription`][struct@crate::Inscription], [`Label`][struct@crate::Label], [`LevelBar`][struct@crate::LevelBar], [`ListBase`][struct@crate::ListBase], [`ListBoxRow`][struct@crate::ListBoxRow], [`ListBox`][struct@crate::ListBox], [`MediaControls`][struct@crate::MediaControls], [`MenuButton`][struct@crate::MenuButton], [`Native`][struct@crate::Native], [`Notebook`][struct@crate::Notebook], [`Overlay`][struct@crate::Overlay], [`Paned`][struct@crate::Paned], [`PasswordEntry`][struct@crate::PasswordEntry], [`Picture`][struct@crate::Picture], [`PopoverMenuBar`][struct@crate::PopoverMenuBar], [`Popover`][struct@crate::Popover], [`ProgressBar`][struct@crate::ProgressBar], [`Range`][struct@crate::Range], [`Revealer`][struct@crate::Revealer], [`Root`][struct@crate::Root], [`ScaleButton`][struct@crate::ScaleButton], [`Scrollbar`][struct@crate::Scrollbar], [`ScrolledWindow`][struct@crate::ScrolledWindow], [`SearchBar`][struct@crate::SearchBar], [`SearchEntry`][struct@crate::SearchEntry], [`Separator`][struct@crate::Separator], [`ShortcutLabel`][struct@crate::ShortcutLabel], [`ShortcutsShortcut`][struct@crate::ShortcutsShortcut], [`SpinButton`][struct@crate::SpinButton], [`Spinner`][struct@crate::Spinner], [`StackSidebar`][struct@crate::StackSidebar], [`StackSwitcher`][struct@crate::StackSwitcher], [`Stack`][struct@crate::Stack], [`Statusbar`][struct@crate::Statusbar], [`Switch`][struct@crate::Switch], [`TextView`][struct@crate::TextView], [`Text`][struct@crate::Text], [`TreeExpander`][struct@crate::TreeExpander], [`TreeView`][struct@crate::TreeView], [`Video`][struct@crate::Video], [`Viewport`][struct@crate::Viewport], [`Widget`][struct@crate::Widget], [`WindowControls`][struct@crate::WindowControls], [`WindowHandle`][struct@crate::WindowHandle], [`Window`][struct@crate::Window]
pub trait WidgetExt: IsA<Widget> + sealed::Sealed + 'static {
/// Enable or disable an action installed with
/// gtk_widget_class_install_action().
/// ## `action_name`
/// action name, such as "clipboard.paste"
/// ## `enabled`
/// whether the action is now enabled
#[doc(alias = "gtk_widget_action_set_enabled")]
fn action_set_enabled(&self, action_name: &str, enabled: bool) {
unsafe {
ffi::gtk_widget_action_set_enabled(
self.as_ref().to_glib_none().0,
action_name.to_glib_none().0,
enabled.into_glib(),
);
}
}
/// For widgets that can be “activated” (buttons, menu items, etc.),
/// this function activates them.
///
/// The activation will emit the signal set using
/// [`WidgetClassExt::set_activate_signal()`][crate::subclass::prelude::WidgetClassExt::set_activate_signal()] during class initialization.
///
/// Activation is what happens when you press <kbd>Enter</kbd>
/// on a widget during key navigation.
///
/// If you wish to handle the activation keybinding yourself, it is
/// recommended to use [`WidgetClassExt::add_shortcut()`][crate::subclass::prelude::WidgetClassExt::add_shortcut()] with an action
/// created with [`SignalAction::new()`][crate::SignalAction::new()].
///
/// If @self isn't activatable, the function returns [`false`].
///
/// # Returns
///
/// [`true`] if the widget was activatable
#[doc(alias = "gtk_widget_activate")]
fn activate(&self) -> bool {
unsafe { from_glib(ffi::gtk_widget_activate(self.as_ref().to_glib_none().0)) }
}
/// Looks up the action in the action groups associated with
/// @self and its ancestors, and activates it.
///
/// If the action is in an action group added with
/// [`insert_action_group()`][Self::insert_action_group()], the @name is expected
/// to be prefixed with the prefix that was used when the group was
/// inserted.
///
/// The arguments must match the actions expected parameter type,
/// as returned by `g_action_get_parameter_type()`.
/// ## `name`
/// the name of the action to activate
/// ## `args`
/// parameters to use
///
/// # Returns
///
/// [`true`] if the action was activated, [`false`] if the
/// action does not exist.
#[doc(alias = "gtk_widget_activate_action_variant")]
#[doc(alias = "activate_action_variant")]
fn activate_action(
&self,
name: &str,
args: Option<&glib::Variant>,
) -> Result<(), glib::error::BoolError> {
unsafe {
glib::result_from_gboolean!(
ffi::gtk_widget_activate_action_variant(
self.as_ref().to_glib_none().0,
name.to_glib_none().0,
args.to_glib_none().0
),
"Action does not exist"
)
}
}
/// Activates the `default.activate` action from @self.
#[doc(alias = "gtk_widget_activate_default")]
fn activate_default(&self) {
unsafe {
ffi::gtk_widget_activate_default(self.as_ref().to_glib_none().0);
}
}
/// Adds @controller to @self so that it will receive events.
///
/// You will usually want to call this function right after
/// creating any kind of [`EventController`][crate::EventController].
/// ## `controller`
/// a [`EventController`][crate::EventController] that hasn't been
/// added to a widget yet
#[doc(alias = "gtk_widget_add_controller")]
fn add_controller(&self, controller: impl IsA<EventController>) {
unsafe {
ffi::gtk_widget_add_controller(
self.as_ref().to_glib_none().0,
controller.upcast().into_glib_ptr(),
);
}
}
/// Adds a style class to @self.
///
/// After calling this function, the widget’s style will match
/// for @css_class, according to CSS matching rules.
///
/// Use [`remove_css_class()`][Self::remove_css_class()] to remove the
/// style again.
/// ## `css_class`
/// The style class to add to @self, without
/// the leading '.' used for notation of style classes
#[doc(alias = "gtk_widget_add_css_class")]
fn add_css_class(&self, css_class: &str) {
unsafe {
ffi::gtk_widget_add_css_class(
self.as_ref().to_glib_none().0,
css_class.to_glib_none().0,
);
}
}
/// Adds a widget to the list of mnemonic labels for this widget.
///
/// See [`list_mnemonic_labels()`][Self::list_mnemonic_labels()]. Note the
/// list of mnemonic labels for the widget is cleared when the
/// widget is destroyed, so the caller must make sure to update
/// its internal state at this point as well.
/// ## `label`
/// a [`Widget`][crate::Widget] that acts as a mnemonic label for @self
#[doc(alias = "gtk_widget_add_mnemonic_label")]
fn add_mnemonic_label(&self, label: &impl IsA<Widget>) {
unsafe {
ffi::gtk_widget_add_mnemonic_label(
self.as_ref().to_glib_none().0,
label.as_ref().to_glib_none().0,
);
}
}
/// This function is only used by [`Widget`][crate::Widget] subclasses, to
/// assign a size, position and (optionally) baseline to their
/// child widgets.
///
/// In this function, the allocation and baseline may be adjusted.
/// The given allocation will be forced to be bigger than the
/// widget's minimum size, as well as at least 0×0 in size.
///
/// For a version that does not take a transform, see
/// [`size_allocate()`][Self::size_allocate()].
/// ## `width`
/// New width of @self
/// ## `height`
/// New height of @self
/// ## `baseline`
/// New baseline of @self, or -1
/// ## `transform`
/// Transformation to be applied to @self
#[doc(alias = "gtk_widget_allocate")]
fn allocate(&self, width: i32, height: i32, baseline: i32, transform: Option<gsk::Transform>) {
unsafe {
ffi::gtk_widget_allocate(
self.as_ref().to_glib_none().0,
width,
height,
baseline,
transform.into_glib_ptr(),
);
}
}
/// Called by widgets as the user moves around the window using
/// keyboard shortcuts.
///
/// The @direction argument indicates what kind of motion is taking place (up,
/// down, left, right, tab forward, tab backward).
///
/// This function calls the [`WidgetImpl::focus()`][crate::subclass::prelude::WidgetImpl::focus()] virtual function; widgets
/// can override the virtual function in order to implement appropriate focus
/// behavior.
///
/// The default `focus()` virtual function for a widget should return `TRUE` if
/// moving in @direction left the focus on a focusable location inside that
/// widget, and `FALSE` if moving in @direction moved the focus outside the
/// widget. When returning `TRUE`, widgets normally call [`grab_focus()`][Self::grab_focus()]
/// to place the focus accordingly; when returning `FALSE`, they don’t modify
/// the current focus location.
///
/// This function is used by custom widget implementations; if you're
/// writing an app, you’d use [`grab_focus()`][Self::grab_focus()] to move
/// the focus to a particular widget.
/// ## `direction`
/// direction of focus movement
///
/// # Returns
///
/// [`true`] if focus ended up inside @self
#[doc(alias = "gtk_widget_child_focus")]
fn child_focus(&self, direction: DirectionType) -> bool {
unsafe {
from_glib(ffi::gtk_widget_child_focus(
self.as_ref().to_glib_none().0,
direction.into_glib(),
))
}
}
/// Computes the bounds for @self in the coordinate space of @target.
///
/// The bounds of widget are (the bounding box of) the region that it is
/// expected to draw in. See the [coordinate system](coordinates.html)
/// overview to learn more.
///
/// If the operation is successful, [`true`] is returned. If @self has no
/// bounds or the bounds cannot be expressed in @target's coordinate space
/// (for example if both widgets are in different windows), [`false`] is
/// returned and @bounds is set to the zero rectangle.
///
/// It is valid for @self and @target to be the same widget.
/// ## `target`
/// the [`Widget`][crate::Widget]
///
/// # Returns
///
/// [`true`] if the bounds could be computed
///
/// ## `out_bounds`
/// the rectangle taking the bounds
#[doc(alias = "gtk_widget_compute_bounds")]
fn compute_bounds(&self, target: &impl IsA<Widget>) -> Option<graphene::Rect> {
unsafe {
let mut out_bounds = graphene::Rect::uninitialized();
let ret = from_glib(ffi::gtk_widget_compute_bounds(
self.as_ref().to_glib_none().0,
target.as_ref().to_glib_none().0,
out_bounds.to_glib_none_mut().0,
));
if ret {
Some(out_bounds)
} else {
None
}
}
}
/// Computes whether a container should give this widget
/// extra space when possible.
///
/// Containers should check this, rather than looking at
/// [`hexpands()`][Self::hexpands()] or [`vexpands()`][Self::vexpands()].
///
/// This function already checks whether the widget is visible, so
/// visibility does not need to be checked separately. Non-visible
/// widgets are not expanded.
///
/// The computed expand value uses either the expand setting explicitly
/// set on the widget itself, or, if none has been explicitly set,
/// the widget may expand if some of its children do.
/// ## `orientation`
/// expand direction
///
/// # Returns
///
/// whether widget tree rooted here should be expanded
#[doc(alias = "gtk_widget_compute_expand")]
fn compute_expand(&self, orientation: Orientation) -> bool {
unsafe {
from_glib(ffi::gtk_widget_compute_expand(
self.as_ref().to_glib_none().0,
orientation.into_glib(),
))
}
}
/// Translates the given @point in @self's coordinates to coordinates
/// relative to @target’s coordinate system.
///
/// In order to perform this operation, both widgets must share a
/// common ancestor.
/// ## `target`
/// the [`Widget`][crate::Widget] to transform into
/// ## `point`
/// a point in @self's coordinate system
///
/// # Returns
///
/// [`true`] if the point could be determined, [`false`] on failure.
/// In this case, 0 is stored in @out_point.
///
/// ## `out_point`
/// Set to the corresponding coordinates in
/// @target's coordinate system
#[doc(alias = "gtk_widget_compute_point")]
fn compute_point(
&self,
target: &impl IsA<Widget>,
point: &graphene::Point,
) -> Option<graphene::Point> {
unsafe {
let mut out_point = graphene::Point::uninitialized();
let ret = from_glib(ffi::gtk_widget_compute_point(
self.as_ref().to_glib_none().0,
target.as_ref().to_glib_none().0,
point.to_glib_none().0,
out_point.to_glib_none_mut().0,
));
if ret {
Some(out_point)
} else {
None
}
}
}
/// Computes a matrix suitable to describe a transformation from
/// @self's coordinate system into @target's coordinate system.
///
/// The transform can not be computed in certain cases, for example
/// when @self and @target do not share a common ancestor. In that
/// case @out_transform gets set to the identity matrix.
///
/// To learn more about widget coordinate systems, see the coordinate
/// system [overview](coordinates.html).
/// ## `target`
/// the target widget that the matrix will transform to
///
/// # Returns
///
/// [`true`] if the transform could be computed, [`false`] otherwise
///
/// ## `out_transform`
/// location to
/// store the final transformation
#[doc(alias = "gtk_widget_compute_transform")]
fn compute_transform(&self, target: &impl IsA<Widget>) -> Option<graphene::Matrix> {
unsafe {
let mut out_transform = graphene::Matrix::uninitialized();
let ret = from_glib(ffi::gtk_widget_compute_transform(
self.as_ref().to_glib_none().0,
target.as_ref().to_glib_none().0,
out_transform.to_glib_none_mut().0,
));
if ret {
Some(out_transform)
} else {
None
}
}
}
/// Tests if the point at (@x, @y) is contained in @self.
///
/// The coordinates for (@x, @y) must be in widget coordinates, so
/// (0, 0) is assumed to be the top left of @self's content area.
/// ## `x`
/// X coordinate to test, relative to @self's origin
/// ## `y`
/// Y coordinate to test, relative to @self's origin
///
/// # Returns
///
/// [`true`] if @self contains (@x, @y).
#[doc(alias = "gtk_widget_contains")]
fn contains(&self, x: f64, y: f64) -> bool {
unsafe {
from_glib(ffi::gtk_widget_contains(
self.as_ref().to_glib_none().0,
x,
y,
))
}
}
/// Creates a new [`pango::Context`][crate::pango::Context] with the appropriate font map,
/// font options, font description, and base direction for drawing
/// text for this widget.
///
/// See also [`pango_context()`][Self::pango_context()].
///
/// # Returns
///
/// the new [`pango::Context`][crate::pango::Context]
#[doc(alias = "gtk_widget_create_pango_context")]
fn create_pango_context(&self) -> pango::Context {
unsafe {
from_glib_full(ffi::gtk_widget_create_pango_context(
self.as_ref().to_glib_none().0,
))
}
}
/// Creates a new [`pango::Layout`][crate::pango::Layout] with the appropriate font map,
/// font description, and base direction for drawing text for
/// this widget.
///
/// If you keep a [`pango::Layout`][crate::pango::Layout] created in this way around,
/// you need to re-create it when the widget [`pango::Context`][crate::pango::Context]
/// is replaced. This can be tracked by listening to changes
/// of the [`root`][struct@crate::Widget#root] property on the widget.
/// ## `text`
/// text to set on the layout
///
/// # Returns
///
/// the new [`pango::Layout`][crate::pango::Layout]
#[doc(alias = "gtk_widget_create_pango_layout")]
fn create_pango_layout(&self, text: Option<&str>) -> pango::Layout {
unsafe {
from_glib_full(ffi::gtk_widget_create_pango_layout(
self.as_ref().to_glib_none().0,
text.to_glib_none().0,
))
}
}
/// Checks to see if a drag movement has passed the GTK drag threshold.
/// ## `start_x`
/// X coordinate of start of drag
/// ## `start_y`
/// Y coordinate of start of drag
/// ## `current_x`
/// current X coordinate
/// ## `current_y`
/// current Y coordinate
///
/// # Returns
///
/// [`true`] if the drag threshold has been passed.
#[doc(alias = "gtk_drag_check_threshold")]
fn drag_check_threshold(
&self,
start_x: i32,
start_y: i32,
current_x: i32,
current_y: i32,
) -> bool {
unsafe {
from_glib(ffi::gtk_drag_check_threshold(
self.as_ref().to_glib_none().0,
start_x,
start_y,
current_x,
current_y,
))
}
}
/// Notifies the user about an input-related error on this widget.
///
/// If the [`gtk-error-bell`][struct@crate::Settings#gtk-error-bell] setting is [`true`],
/// it calls `Gdk::Surface::beep()`, otherwise it does nothing.
///
/// Note that the effect of `Gdk::Surface::beep()` can be configured
/// in many ways, depending on the windowing backend and the desktop
/// environment or window manager that is used.
#[doc(alias = "gtk_widget_error_bell")]
fn error_bell(&self) {
unsafe {
ffi::gtk_widget_error_bell(self.as_ref().to_glib_none().0);
}
}
/// Returns the baseline that has currently been allocated to @self.
///
/// This function is intended to be used when implementing handlers
/// for the [`Widget`][crate::Widget]Class.snapshot() function, and when allocating
/// child widgets in [`Widget`][crate::Widget]Class.size_allocate().
///
/// # Deprecated since 4.12
///
/// Use [`baseline()`][Self::baseline()] instead
///
/// # Returns
///
/// the baseline of the @self, or -1 if none
#[cfg_attr(feature = "v4_12", deprecated = "Since 4.12")]
#[allow(deprecated)]
#[doc(alias = "gtk_widget_get_allocated_baseline")]
#[doc(alias = "get_allocated_baseline")]
fn allocated_baseline(&self) -> i32 {
unsafe { ffi::gtk_widget_get_allocated_baseline(self.as_ref().to_glib_none().0) }
}
/// Returns the height that has currently been allocated to @self.
///
/// To learn more about widget sizes, see the coordinate
/// system [overview](coordinates.html).
///
/// # Deprecated since 4.12
///
/// Use [`height()`][Self::height()] instead
///
/// # Returns
///
/// the height of the @self
#[cfg_attr(feature = "v4_12", deprecated = "Since 4.12")]
#[allow(deprecated)]
#[doc(alias = "gtk_widget_get_allocated_height")]
#[doc(alias = "get_allocated_height")]
fn allocated_height(&self) -> i32 {
unsafe { ffi::gtk_widget_get_allocated_height(self.as_ref().to_glib_none().0) }
}
/// Returns the width that has currently been allocated to @self.
///
/// To learn more about widget sizes, see the coordinate
/// system [overview](coordinates.html).
///
/// # Deprecated since 4.12
///
/// Use [`width()`][Self::width()] instead
///
/// # Returns
///
/// the width of the @self
#[cfg_attr(feature = "v4_12", deprecated = "Since 4.12")]
#[allow(deprecated)]
#[doc(alias = "gtk_widget_get_allocated_width")]
#[doc(alias = "get_allocated_width")]
fn allocated_width(&self) -> i32 {
unsafe { ffi::gtk_widget_get_allocated_width(self.as_ref().to_glib_none().0) }
}
/// Retrieves the widget’s allocation.
///
/// Note, when implementing a layout container: a widget’s allocation
/// will be its “adjusted” allocation, that is, the widget’s parent
/// typically calls [`size_allocate()`][Self::size_allocate()] with an allocation,
/// and that allocation is then adjusted (to handle margin
/// and alignment for example) before assignment to the widget.
/// [`allocation()`][Self::allocation()] returns the adjusted allocation that
/// was actually assigned to the widget. The adjusted allocation is
/// guaranteed to be completely contained within the
/// [`size_allocate()`][Self::size_allocate()] allocation, however.
///
/// So a layout container is guaranteed that its children stay inside
/// the assigned bounds, but not that they have exactly the bounds the
/// container assigned.
///
/// # Deprecated since 4.12
///
/// Use [`compute_bounds()`][Self::compute_bounds()],
/// [`width()`][Self::width()] or [`height()`][Self::height()] instead.
///
/// # Returns
///
///
/// ## `allocation`
/// a pointer to a `GtkAllocation` to copy to
#[cfg_attr(feature = "v4_12", deprecated = "Since 4.12")]
#[allow(deprecated)]
#[doc(alias = "gtk_widget_get_allocation")]
#[doc(alias = "get_allocation")]
fn allocation(&self) -> Allocation {
unsafe {
let mut allocation = Allocation::uninitialized();
ffi::gtk_widget_get_allocation(
self.as_ref().to_glib_none().0,
allocation.to_glib_none_mut().0,
);
allocation
}
}
/// Gets the first ancestor of @self with type @widget_type.
///
/// For example, `gtk_widget_get_ancestor (widget, GTK_TYPE_BOX)`
/// gets the first [`Box`][crate::Box] that’s an ancestor of @self. No
/// reference will be added to the returned widget; it should
/// not be unreferenced.
///
/// Note that unlike [`is_ancestor()`][Self::is_ancestor()], this function
/// considers @self to be an ancestor of itself.
/// ## `widget_type`
/// ancestor type
///
/// # Returns
///
/// the ancestor widget
#[doc(alias = "gtk_widget_get_ancestor")]
#[doc(alias = "get_ancestor")]
#[must_use]
fn ancestor(&self, widget_type: glib::types::Type) -> Option<Widget> {
unsafe {
from_glib_none(ffi::gtk_widget_get_ancestor(
self.as_ref().to_glib_none().0,
widget_type.into_glib(),
))
}
}
/// Returns the baseline that has currently been allocated to @self.
///
/// This function is intended to be used when implementing handlers
/// for the [`Widget`][crate::Widget]Class.snapshot() function, and when allocating
/// child widgets in [`Widget`][crate::Widget]Class.size_allocate().
///
/// # Returns
///
/// the baseline of the @self, or -1 if none
#[cfg(feature = "v4_12")]
#[cfg_attr(docsrs, doc(cfg(feature = "v4_12")))]
#[doc(alias = "gtk_widget_get_baseline")]
#[doc(alias = "get_baseline")]
fn baseline(&self) -> i32 {
unsafe { ffi::gtk_widget_get_baseline(self.as_ref().to_glib_none().0) }
}
/// Determines whether the input focus can enter @self or any
/// of its children.
///
/// See [`set_focusable()`][Self::set_focusable()].
///
/// # Returns
///
/// [`true`] if the input focus can enter @self, [`false`] otherwise
#[doc(alias = "gtk_widget_get_can_focus")]
#[doc(alias = "get_can_focus")]
fn can_focus(&self) -> bool {
unsafe {
from_glib(ffi::gtk_widget_get_can_focus(
self.as_ref().to_glib_none().0,
))
}
}
/// Queries whether @self can be the target of pointer events.
///
/// # Returns
///
/// [`true`] if @self can receive pointer events
#[doc(alias = "gtk_widget_get_can_target")]
#[doc(alias = "get_can_target")]
fn can_target(&self) -> bool {
unsafe {
from_glib(ffi::gtk_widget_get_can_target(
self.as_ref().to_glib_none().0,
))
}
}
/// Gets the value set with gtk_widget_set_child_visible().
///
/// If you feel a need to use this function, your code probably
/// needs reorganization.
///
/// This function is only useful for container implementations
/// and should never be called by an application.
///
/// # Returns
///
/// [`true`] if the widget is mapped with the parent.
#[doc(alias = "gtk_widget_get_child_visible")]
#[doc(alias = "get_child_visible")]
fn is_child_visible(&self) -> bool {
unsafe {
from_glib(ffi::gtk_widget_get_child_visible(
self.as_ref().to_glib_none().0,
))
}
}
/// Gets the clipboard object for @self.
///
/// This is a utility function to get the clipboard object for the
/// [`gdk::Display`][crate::gdk::Display] that @self is using.
///
/// Note that this function always works, even when @self is not
/// realized yet.
///
/// # Returns
///
/// the appropriate clipboard object
#[doc(alias = "gtk_widget_get_clipboard")]
#[doc(alias = "get_clipboard")]
fn clipboard(&self) -> gdk::Clipboard {
unsafe {
from_glib_none(ffi::gtk_widget_get_clipboard(
self.as_ref().to_glib_none().0,
))
}
}
/// Gets the current foreground color for the widget’s
/// CSS style.
///
/// This function should only be used in snapshot
/// implementations that need to do custom
/// drawing with the foreground color.
///
/// # Returns
///
///
/// ## `color`
/// return location for the color
#[cfg(feature = "v4_10")]
#[cfg_attr(docsrs, doc(cfg(feature = "v4_10")))]
#[doc(alias = "gtk_widget_get_color")]
#[doc(alias = "get_color")]
fn color(&self) -> gdk::RGBA {
unsafe {
let mut color = gdk::RGBA::uninitialized();
ffi::gtk_widget_get_color(self.as_ref().to_glib_none().0, color.to_glib_none_mut().0);
color
}
}
/// Returns the list of style classes applied to @self.
///
/// # Returns
///
/// a [`None`]-terminated list of
/// css classes currently applied to @self. The returned
/// list must freed using g_strfreev().
#[doc(alias = "gtk_widget_get_css_classes")]
#[doc(alias = "get_css_classes")]
fn css_classes(&self) -> Vec<glib::GString> {
unsafe {
FromGlibPtrContainer::from_glib_full(ffi::gtk_widget_get_css_classes(
self.as_ref().to_glib_none().0,
))
}
}
/// Returns the CSS name that is used for @self.
///
/// # Returns
///
/// the CSS name
#[doc(alias = "gtk_widget_get_css_name")]
#[doc(alias = "get_css_name")]
fn css_name(&self) -> glib::GString {
unsafe { from_glib_none(ffi::gtk_widget_get_css_name(self.as_ref().to_glib_none().0)) }
}
/// Queries the cursor set on @self.
///
/// See [`set_cursor()`][Self::set_cursor()] for details.
///
/// # Returns
///
/// the cursor
/// currently in use or [`None`] if the cursor is inherited
#[doc(alias = "gtk_widget_get_cursor")]
#[doc(alias = "get_cursor")]
fn cursor(&self) -> Option<gdk::Cursor> {
unsafe { from_glib_none(ffi::gtk_widget_get_cursor(self.as_ref().to_glib_none().0)) }
}
/// Gets the reading direction for a particular widget.
///
/// See [`set_direction()`][Self::set_direction()].
///
/// # Returns
///
/// the reading direction for the widget.
#[doc(alias = "gtk_widget_get_direction")]
#[doc(alias = "get_direction")]
fn direction(&self) -> TextDirection {
unsafe {
from_glib(ffi::gtk_widget_get_direction(
self.as_ref().to_glib_none().0,
))
}
}
/// Get the [`gdk::Display`][crate::gdk::Display] for the toplevel window associated with
/// this widget.
///
/// This function can only be called after the widget has been
/// added to a widget hierarchy with a [`Window`][crate::Window] at the top.
///
/// In general, you should only create display specific
/// resources when a widget has been realized, and you should
/// free those resources when the widget is unrealized.
///
/// # Returns
///
/// the [`gdk::Display`][crate::gdk::Display] for the toplevel
/// for this widget.
#[doc(alias = "gtk_widget_get_display")]
#[doc(alias = "get_display")]
fn display(&self) -> gdk::Display {
unsafe { from_glib_none(ffi::gtk_widget_get_display(self.as_ref().to_glib_none().0)) }
}
/// Returns the widget’s first child.
///
/// This API is primarily meant for widget implementations.
///
/// # Returns
///
/// The widget's first child
#[doc(alias = "gtk_widget_get_first_child")]
#[doc(alias = "get_first_child")]
#[must_use]
fn first_child(&self) -> Option<Widget> {
unsafe {
from_glib_none(ffi::gtk_widget_get_first_child(
self.as_ref().to_glib_none().0,
))
}
}
/// Returns the current focus child of @self.
///
/// # Returns
///
/// The current focus
/// child of @self
#[doc(alias = "gtk_widget_get_focus_child")]
#[doc(alias = "get_focus_child")]
#[must_use]
fn focus_child(&self) -> Option<Widget> {
unsafe {
from_glib_none(ffi::gtk_widget_get_focus_child(
self.as_ref().to_glib_none().0,
))
}
}
/// Returns whether the widget should grab focus when it is clicked
/// with the mouse.
///
/// See [`set_focus_on_click()`][Self::set_focus_on_click()].
///
/// # Returns
///
/// [`true`] if the widget should grab focus when it is
/// clicked with the mouse
#[doc(alias = "gtk_widget_get_focus_on_click")]
#[doc(alias = "get_focus_on_click")]
fn gets_focus_on_click(&self) -> bool {
unsafe {
from_glib(ffi::gtk_widget_get_focus_on_click(
self.as_ref().to_glib_none().0,
))
}
}
/// Determines whether @self can own the input focus.
///
/// See [`set_focusable()`][Self::set_focusable()].
///
/// # Returns
///
/// [`true`] if @self can own the input focus, [`false`] otherwise
#[doc(alias = "gtk_widget_get_focusable")]
#[doc(alias = "get_focusable")]
fn is_focusable(&self) -> bool {
unsafe {
from_glib(ffi::gtk_widget_get_focusable(
self.as_ref().to_glib_none().0,
))
}
}
/// Gets the font map of @self.
///
/// See [`set_font_map()`][Self::set_font_map()].
///
/// # Returns
///
/// A [`pango::FontMap`][crate::pango::FontMap]
#[doc(alias = "gtk_widget_get_font_map")]
#[doc(alias = "get_font_map")]
fn font_map(&self) -> Option<pango::FontMap> {
unsafe { from_glib_none(ffi::gtk_widget_get_font_map(self.as_ref().to_glib_none().0)) }
}
/// Returns the [`cairo::FontOptions`][crate::cairo::FontOptions] of widget.
///
/// Seee [`set_font_options()`][Self::set_font_options()].
///
/// # Deprecated since 4.16
///
///
/// # Returns
///
/// the [`cairo::FontOptions`][crate::cairo::FontOptions] of widget
#[cfg_attr(feature = "v4_16", deprecated = "Since 4.16")]
#[allow(deprecated)]
#[doc(alias = "gtk_widget_get_font_options")]
#[doc(alias = "get_font_options")]
fn font_options(&self) -> Option<cairo::FontOptions> {
unsafe {
from_glib_none(ffi::gtk_widget_get_font_options(
self.as_ref().to_glib_none().0,
))
}
}
/// Obtains the frame clock for a widget.
///
/// The frame clock is a global “ticker” that can be used to drive
/// animations and repaints. The most common reason to get the frame
/// clock is to call [`FrameClock::frame_time()`][crate::gdk::FrameClock::frame_time()], in order
/// to get a time to use for animating. For example you might record
/// the start of the animation with an initial value from
/// [`FrameClock::frame_time()`][crate::gdk::FrameClock::frame_time()], and then update the animation
/// by calling [`FrameClock::frame_time()`][crate::gdk::FrameClock::frame_time()] again during each repaint.
///
/// [`FrameClock::request_phase()`][crate::gdk::FrameClock::request_phase()] will result in a new frame on the
/// clock, but won’t necessarily repaint any widgets. To repaint a
/// widget, you have to use [`queue_draw()`][Self::queue_draw()] which invalidates
/// the widget (thus scheduling it to receive a draw on the next
/// frame). gtk_widget_queue_draw() will also end up requesting a frame
/// on the appropriate frame clock.
///
/// A widget’s frame clock will not change while the widget is
/// mapped. Reparenting a widget (which implies a temporary unmap) can
/// change the widget’s frame clock.
///
/// Unrealized widgets do not have a frame clock.
///
/// # Returns
///
/// a [`gdk::FrameClock`][crate::gdk::FrameClock]
#[doc(alias = "gtk_widget_get_frame_clock")]
#[doc(alias = "get_frame_clock")]
fn frame_clock(&self) -> Option<gdk::FrameClock> {
unsafe {
from_glib_none(ffi::gtk_widget_get_frame_clock(
self.as_ref().to_glib_none().0,
))
}
}
/// Gets the horizontal alignment of @self.
///
/// For backwards compatibility reasons this method will never return
/// one of the baseline alignments, but instead it will convert it to
/// `GTK_ALIGN_FILL` or `GTK_ALIGN_CENTER`.
///
/// Baselines are not supported for horizontal alignment.
///
/// # Returns
///
/// the horizontal alignment of @self
#[doc(alias = "gtk_widget_get_halign")]
#[doc(alias = "get_halign")]
fn halign(&self) -> Align {
unsafe { from_glib(ffi::gtk_widget_get_halign(self.as_ref().to_glib_none().0)) }
}
/// Returns the current value of the `has-tooltip` property.
///
/// # Returns
///
/// current value of `has-tooltip` on @self.
#[doc(alias = "gtk_widget_get_has_tooltip")]
#[doc(alias = "get_has_tooltip")]
fn has_tooltip(&self) -> bool {
unsafe {
from_glib(ffi::gtk_widget_get_has_tooltip(
self.as_ref().to_glib_none().0,
))
}
}
/// Returns the content height of the widget.
///
/// This function returns the height passed to its
/// size-allocate implementation, which is the height you
/// should be using in [`WidgetImpl::snapshot()`][crate::subclass::prelude::WidgetImpl::snapshot()].
///
/// For pointer events, see [`contains()`][Self::contains()].
///
/// To learn more about widget sizes, see the coordinate
/// system [overview](coordinates.html).
///
/// # Returns
///
/// The height of @self
#[doc(alias = "gtk_widget_get_height")]
#[doc(alias = "get_height")]
fn height(&self) -> i32 {
unsafe { ffi::gtk_widget_get_height(self.as_ref().to_glib_none().0) }
}
/// Gets whether the widget would like any available extra horizontal
/// space.
///
/// When a user resizes a [`Window`][crate::Window], widgets with expand=TRUE
/// generally receive the extra space. For example, a list or
/// scrollable area or document in your window would often be set to
/// expand.
///
/// Containers should use [`compute_expand()`][Self::compute_expand()] rather
/// than this function, to see whether a widget, or any of its children,
/// has the expand flag set. If any child of a widget wants to
/// expand, the parent may ask to expand also.
///
/// This function only looks at the widget’s own hexpand flag, rather
/// than computing whether the entire widget tree rooted at this widget
/// wants to expand.
///
/// # Returns
///
/// whether hexpand flag is set
#[doc(alias = "gtk_widget_get_hexpand")]
#[doc(alias = "get_hexpand")]
fn hexpands(&self) -> bool {
unsafe { from_glib(ffi::gtk_widget_get_hexpand(self.as_ref().to_glib_none().0)) }
}
/// Gets whether gtk_widget_set_hexpand() has been used
/// to explicitly set the expand flag on this widget.
///
/// If [`hexpand`][struct@crate::Widget#hexpand] property is set, then it
/// overrides any computed expand value based on child widgets.
/// If `hexpand` is not set, then the expand value depends on
/// whether any children of the widget would like to expand.
///
/// There are few reasons to use this function, but it’s here
/// for completeness and consistency.
///
/// # Returns
///
/// whether hexpand has been explicitly set
#[doc(alias = "gtk_widget_get_hexpand_set")]
#[doc(alias = "get_hexpand_set")]
fn is_hexpand_set(&self) -> bool {
unsafe {
from_glib(ffi::gtk_widget_get_hexpand_set(
self.as_ref().to_glib_none().0,
))
}
}
/// Returns the widget’s last child.
///
/// This API is primarily meant for widget implementations.
///
/// # Returns
///
/// The widget's last child
#[doc(alias = "gtk_widget_get_last_child")]
#[doc(alias = "get_last_child")]
#[must_use]
fn last_child(&self) -> Option<Widget> {
unsafe {
from_glib_none(ffi::gtk_widget_get_last_child(
self.as_ref().to_glib_none().0,
))
}
}
/// Retrieves the layout manager used by @self.
///
/// See [`set_layout_manager()`][Self::set_layout_manager()].
///
/// # Returns
///
/// a [`LayoutManager`][crate::LayoutManager]
#[doc(alias = "gtk_widget_get_layout_manager")]
#[doc(alias = "get_layout_manager")]
fn layout_manager(&self) -> Option<LayoutManager> {
unsafe {
from_glib_none(ffi::gtk_widget_get_layout_manager(
self.as_ref().to_glib_none().0,
))
}
}
/// Whether the widget is mapped.
///
/// # Returns
///
/// [`true`] if the widget is mapped, [`false`] otherwise.
#[doc(alias = "gtk_widget_get_mapped")]
#[doc(alias = "get_mapped")]
fn is_mapped(&self) -> bool {
unsafe { from_glib(ffi::gtk_widget_get_mapped(self.as_ref().to_glib_none().0)) }
}
/// Gets the bottom margin of @self.
///
/// # Returns
///
/// The bottom margin of @self
#[doc(alias = "gtk_widget_get_margin_bottom")]
#[doc(alias = "get_margin_bottom")]
fn margin_bottom(&self) -> i32 {
unsafe { ffi::gtk_widget_get_margin_bottom(self.as_ref().to_glib_none().0) }
}
/// Gets the end margin of @self.
///
/// # Returns
///
/// The end margin of @self
#[doc(alias = "gtk_widget_get_margin_end")]
#[doc(alias = "get_margin_end")]
fn margin_end(&self) -> i32 {
unsafe { ffi::gtk_widget_get_margin_end(self.as_ref().to_glib_none().0) }
}
/// Gets the start margin of @self.
///
/// # Returns
///
/// The start margin of @self
#[doc(alias = "gtk_widget_get_margin_start")]
#[doc(alias = "get_margin_start")]
fn margin_start(&self) -> i32 {
unsafe { ffi::gtk_widget_get_margin_start(self.as_ref().to_glib_none().0) }
}
/// Gets the top margin of @self.
///
/// # Returns
///
/// The top margin of @self
#[doc(alias = "gtk_widget_get_margin_top")]
#[doc(alias = "get_margin_top")]
fn margin_top(&self) -> i32 {
unsafe { ffi::gtk_widget_get_margin_top(self.as_ref().to_glib_none().0) }
}
/// Retrieves the name of a widget.
///
/// See [`set_widget_name()`][Self::set_widget_name()] for the significance of widget names.
///
/// # Returns
///
/// name of the widget. This string is owned by GTK and
/// should not be modified or freed
#[doc(alias = "gtk_widget_get_name")]
#[doc(alias = "get_name")]
fn widget_name(&self) -> glib::GString {
unsafe { from_glib_none(ffi::gtk_widget_get_name(self.as_ref().to_glib_none().0)) }
}
/// Returns the nearest [`Native`][crate::Native] ancestor of @self.
///
/// This function will return [`None`] if the widget is not
/// contained inside a widget tree with a native ancestor.
///
/// [`Native`][crate::Native] widgets will return themselves here.
///
/// # Returns
///
/// the [`Native`][crate::Native] ancestor of @self
#[doc(alias = "gtk_widget_get_native")]
#[doc(alias = "get_native")]
fn native(&self) -> Option<Native> {
unsafe { from_glib_none(ffi::gtk_widget_get_native(self.as_ref().to_glib_none().0)) }
}
/// Returns the widget’s next sibling.
///
/// This API is primarily meant for widget implementations.
///
/// # Returns
///
/// The widget's next sibling
#[doc(alias = "gtk_widget_get_next_sibling")]
#[doc(alias = "get_next_sibling")]
#[must_use]
fn next_sibling(&self) -> Option<Widget> {
unsafe {
from_glib_none(ffi::gtk_widget_get_next_sibling(
self.as_ref().to_glib_none().0,
))
}
}
/// #Fetches the requested opacity for this widget.
///
/// See [`set_opacity()`][Self::set_opacity()].
///
/// # Returns
///
/// the requested opacity for this widget.
#[doc(alias = "gtk_widget_get_opacity")]
#[doc(alias = "get_opacity")]
fn opacity(&self) -> f64 {
unsafe { ffi::gtk_widget_get_opacity(self.as_ref().to_glib_none().0) }
}
/// Returns the widget’s overflow value.
///
/// # Returns
///
/// The widget's overflow.
#[doc(alias = "gtk_widget_get_overflow")]
#[doc(alias = "get_overflow")]
fn overflow(&self) -> Overflow {
unsafe { from_glib(ffi::gtk_widget_get_overflow(self.as_ref().to_glib_none().0)) }
}
/// Gets a [`pango::Context`][crate::pango::Context] with the appropriate font map, font description,
/// and base direction for this widget.
///
/// Unlike the context returned by [`create_pango_context()`][Self::create_pango_context()],
/// this context is owned by the widget (it can be used until the screen
/// for the widget changes or the widget is removed from its toplevel),
/// and will be updated to match any changes to the widget’s attributes.
/// This can be tracked by listening to changes of the
/// [`root`][struct@crate::Widget#root] property on the widget.
///
/// # Returns
///
/// the [`pango::Context`][crate::pango::Context] for the widget.
#[doc(alias = "gtk_widget_get_pango_context")]
#[doc(alias = "get_pango_context")]
fn pango_context(&self) -> pango::Context {
unsafe {
from_glib_none(ffi::gtk_widget_get_pango_context(
self.as_ref().to_glib_none().0,
))
}
}
/// Returns the parent widget of @self.
///
/// # Returns
///
/// the parent widget of @self
#[doc(alias = "gtk_widget_get_parent")]
#[doc(alias = "get_parent")]
#[must_use]
fn parent(&self) -> Option<Widget> {
unsafe { from_glib_none(ffi::gtk_widget_get_parent(self.as_ref().to_glib_none().0)) }
}
/// Retrieves the minimum and natural size of a widget, taking
/// into account the widget’s preference for height-for-width management.
///
/// This is used to retrieve a suitable size by container widgets which do
/// not impose any restrictions on the child placement. It can be used
/// to deduce toplevel window and menu sizes as well as child widgets in
/// free-form containers such as [`Fixed`][crate::Fixed].
///
/// Handle with care. Note that the natural height of a height-for-width
/// widget will generally be a smaller size than the minimum height, since
/// the required height for the natural width is generally smaller than the
/// required height for the minimum width.
///
/// Use [`measure()`][Self::measure()] if you want to support baseline alignment.
///
/// # Returns
///
///
/// ## `minimum_size`
/// location for storing the minimum size
///
/// ## `natural_size`
/// location for storing the natural size
#[doc(alias = "gtk_widget_get_preferred_size")]
#[doc(alias = "get_preferred_size")]
fn preferred_size(&self) -> (Requisition, Requisition) {
unsafe {
let mut minimum_size = Requisition::uninitialized();
let mut natural_size = Requisition::uninitialized();
ffi::gtk_widget_get_preferred_size(
self.as_ref().to_glib_none().0,
minimum_size.to_glib_none_mut().0,
natural_size.to_glib_none_mut().0,
);
(minimum_size, natural_size)
}
}
/// Returns the widget’s previous sibling.
///
/// This API is primarily meant for widget implementations.
///
/// # Returns
///
/// The widget's previous sibling
#[doc(alias = "gtk_widget_get_prev_sibling")]
#[doc(alias = "get_prev_sibling")]
#[must_use]
fn prev_sibling(&self) -> Option<Widget> {
unsafe {
from_glib_none(ffi::gtk_widget_get_prev_sibling(
self.as_ref().to_glib_none().0,
))
}
}
/// Gets the primary clipboard of @self.
///
/// This is a utility function to get the primary clipboard object
/// for the [`gdk::Display`][crate::gdk::Display] that @self is using.
///
/// Note that this function always works, even when @self is not
/// realized yet.
///
/// # Returns
///
/// the appropriate clipboard object
#[doc(alias = "gtk_widget_get_primary_clipboard")]
#[doc(alias = "get_primary_clipboard")]
fn primary_clipboard(&self) -> gdk::Clipboard {
unsafe {
from_glib_none(ffi::gtk_widget_get_primary_clipboard(
self.as_ref().to_glib_none().0,
))
}
}
/// Determines whether @self is realized.
///
/// # Returns
///
/// [`true`] if @self is realized, [`false`] otherwise
#[doc(alias = "gtk_widget_get_realized")]
#[doc(alias = "get_realized")]
fn is_realized(&self) -> bool {
unsafe { from_glib(ffi::gtk_widget_get_realized(self.as_ref().to_glib_none().0)) }
}
/// Determines whether @self is always treated as the default widget
/// within its toplevel when it has the focus, even if another widget
/// is the default.
///
/// See [`set_receives_default()`][Self::set_receives_default()].
///
/// # Returns
///
/// [`true`] if @self acts as the default widget when focused,
/// [`false`] otherwise
#[doc(alias = "gtk_widget_get_receives_default")]
#[doc(alias = "get_receives_default")]
fn receives_default(&self) -> bool {
unsafe {
from_glib(ffi::gtk_widget_get_receives_default(
self.as_ref().to_glib_none().0,
))
}
}
/// Gets whether the widget prefers a height-for-width layout
/// or a width-for-height layout.
///
/// Single-child widgets generally propagate the preference of
/// their child, more complex widgets need to request something
/// either in context of their children or in context of their
/// allocation capabilities.
///
/// # Returns
///
/// The [`SizeRequestMode`][crate::SizeRequestMode] preferred by @self.
#[doc(alias = "gtk_widget_get_request_mode")]
#[doc(alias = "get_request_mode")]
fn request_mode(&self) -> SizeRequestMode {
unsafe {
from_glib(ffi::gtk_widget_get_request_mode(
self.as_ref().to_glib_none().0,
))
}
}
/// Returns the [`Root`][crate::Root] widget of @self.
///
/// This function will return [`None`] if the widget is not contained
/// inside a widget tree with a root widget.
///
/// [`Root`][crate::Root] widgets will return themselves here.
///
/// # Returns
///
/// the root widget of @self
#[doc(alias = "gtk_widget_get_root")]
#[doc(alias = "get_root")]
fn root(&self) -> Option<Root> {
unsafe { from_glib_none(ffi::gtk_widget_get_root(self.as_ref().to_glib_none().0)) }
}
/// Retrieves the internal scale factor that maps from window
/// coordinates to the actual device pixels.
///
/// On traditional systems this is 1, on high density outputs,
/// it can be a higher value (typically 2).
///
/// See `Gdk::Surface::get_scale_factor()`.
///
/// # Returns
///
/// the scale factor for @self
#[doc(alias = "gtk_widget_get_scale_factor")]
#[doc(alias = "get_scale_factor")]
fn scale_factor(&self) -> i32 {
unsafe { ffi::gtk_widget_get_scale_factor(self.as_ref().to_glib_none().0) }
}
/// Returns the widget’s sensitivity.
///
/// This function returns the value that has been set using
/// [`set_sensitive()`][Self::set_sensitive()]).
///
/// The effective sensitivity of a widget is however determined
/// by both its own and its parent widget’s sensitivity.
/// See [`is_sensitive()`][Self::is_sensitive()].
///
/// # Returns
///
/// [`true`] if the widget is sensitive
#[doc(alias = "gtk_widget_get_sensitive")]
fn get_sensitive(&self) -> bool {
unsafe {
from_glib(ffi::gtk_widget_get_sensitive(
self.as_ref().to_glib_none().0,
))
}
}
/// Gets the settings object holding the settings used for this widget.
///
/// Note that this function can only be called when the [`Widget`][crate::Widget]
/// is attached to a toplevel, since the settings object is specific
/// to a particular [`gdk::Display`][crate::gdk::Display]. If you want to monitor the widget for
/// changes in its settings, connect to the `notify::display` signal.
///
/// # Returns
///
/// the relevant [`Settings`][crate::Settings] object
#[doc(alias = "gtk_widget_get_settings")]
#[doc(alias = "get_settings")]
fn settings(&self) -> Settings {
unsafe { from_glib_none(ffi::gtk_widget_get_settings(self.as_ref().to_glib_none().0)) }
}
/// Returns the content width or height of the widget.
///
/// Which dimension is returned depends on @orientation.
///
/// This is equivalent to calling [`width()`][Self::width()]
/// for [`Orientation::Horizontal`][crate::Orientation::Horizontal] or [`height()`][Self::height()]
/// for [`Orientation::Vertical`][crate::Orientation::Vertical], but can be used when
/// writing orientation-independent code, such as when
/// implementing [`Orientable`][crate::Orientable] widgets.
///
/// To learn more about widget sizes, see the coordinate
/// system [overview](coordinates.html).
/// ## `orientation`
/// the orientation to query
///
/// # Returns
///
/// The size of @self in @orientation.
#[doc(alias = "gtk_widget_get_size")]
#[doc(alias = "get_size")]
fn size(&self, orientation: Orientation) -> i32 {
unsafe { ffi::gtk_widget_get_size(self.as_ref().to_glib_none().0, orientation.into_glib()) }
}
/// Gets the size request that was explicitly set for the widget using
/// gtk_widget_set_size_request().
///
/// A value of -1 stored in @width or @height indicates that that
/// dimension has not been set explicitly and the natural requisition
/// of the widget will be used instead. See
/// [`set_size_request()`][Self::set_size_request()]. To get the size a widget will
/// actually request, call [`measure()`][Self::measure()] instead of
/// this function.
///
/// # Returns
///
///
/// ## `width`
/// return location for width
///
/// ## `height`
/// return location for height
#[doc(alias = "gtk_widget_get_size_request")]
#[doc(alias = "get_size_request")]
fn size_request(&self) -> (i32, i32) {
unsafe {
let mut width = std::mem::MaybeUninit::uninit();
let mut height = std::mem::MaybeUninit::uninit();
ffi::gtk_widget_get_size_request(
self.as_ref().to_glib_none().0,
width.as_mut_ptr(),
height.as_mut_ptr(),
);
(width.assume_init(), height.assume_init())
}
}
/// Returns the widget state as a flag set.
///
/// It is worth mentioning that the effective [`StateFlags::INSENSITIVE`][crate::StateFlags::INSENSITIVE]
/// state will be returned, that is, also based on parent insensitivity,
/// even if @self itself is sensitive.
///
/// Also note that if you are looking for a way to obtain the
/// [`StateFlags`][crate::StateFlags] to pass to a [`StyleContext`][crate::StyleContext]
/// method, you should look at [`StyleContextExt::state()`][crate::prelude::StyleContextExt::state()].
///
/// # Returns
///
/// The state flags for widget
#[doc(alias = "gtk_widget_get_state_flags")]
#[doc(alias = "get_state_flags")]
fn state_flags(&self) -> StateFlags {
unsafe {
from_glib(ffi::gtk_widget_get_state_flags(
self.as_ref().to_glib_none().0,
))
}
}
/// Returns the style context associated to @self.
///
/// The returned object is guaranteed to be the same
/// for the lifetime of @self.
///
/// # Deprecated since 4.10
///
/// Style contexts will be removed in GTK 5
///
/// # Returns
///
/// the widget’s [`StyleContext`][crate::StyleContext]
#[cfg_attr(feature = "v4_10", deprecated = "Since 4.10")]
#[allow(deprecated)]
#[doc(alias = "gtk_widget_get_style_context")]
#[doc(alias = "get_style_context")]
fn style_context(&self) -> StyleContext {
unsafe {
from_glib_none(ffi::gtk_widget_get_style_context(
self.as_ref().to_glib_none().0,
))
}
}
/// Gets the contents of the tooltip for @self.
///
/// If the tooltip has not been set using
/// [`set_tooltip_markup()`][Self::set_tooltip_markup()], this
/// function returns [`None`].
///
/// # Returns
///
/// the tooltip text
#[doc(alias = "gtk_widget_get_tooltip_markup")]
#[doc(alias = "get_tooltip_markup")]
fn tooltip_markup(&self) -> Option<glib::GString> {
unsafe {
from_glib_none(ffi::gtk_widget_get_tooltip_markup(
self.as_ref().to_glib_none().0,
))
}
}
/// Gets the contents of the tooltip for @self.
///
/// If the @self's tooltip was set using
/// [`set_tooltip_markup()`][Self::set_tooltip_markup()],
/// this function will return the escaped text.
///
/// # Returns
///
/// the tooltip text
#[doc(alias = "gtk_widget_get_tooltip_text")]
#[doc(alias = "get_tooltip_text")]
fn tooltip_text(&self) -> Option<glib::GString> {
unsafe {
from_glib_none(ffi::gtk_widget_get_tooltip_text(
self.as_ref().to_glib_none().0,
))
}
}
/// Gets the vertical alignment of @self.
///
/// # Returns
///
/// the vertical alignment of @self
#[doc(alias = "gtk_widget_get_valign")]
#[doc(alias = "get_valign")]
fn valign(&self) -> Align {
unsafe { from_glib(ffi::gtk_widget_get_valign(self.as_ref().to_glib_none().0)) }
}
/// Gets whether the widget would like any available extra vertical
/// space.
///
/// See [`hexpands()`][Self::hexpands()] for more detail.
///
/// # Returns
///
/// whether vexpand flag is set
#[doc(alias = "gtk_widget_get_vexpand")]
#[doc(alias = "get_vexpand")]
fn vexpands(&self) -> bool {
unsafe { from_glib(ffi::gtk_widget_get_vexpand(self.as_ref().to_glib_none().0)) }
}
/// Gets whether gtk_widget_set_vexpand() has been used to
/// explicitly set the expand flag on this widget.
///
/// See [`is_hexpand_set()`][Self::is_hexpand_set()] for more detail.
///
/// # Returns
///
/// whether vexpand has been explicitly set
#[doc(alias = "gtk_widget_get_vexpand_set")]
#[doc(alias = "get_vexpand_set")]
fn is_vexpand_set(&self) -> bool {
unsafe {
from_glib(ffi::gtk_widget_get_vexpand_set(
self.as_ref().to_glib_none().0,
))
}
}
/// Determines whether the widget is visible.
///
/// If you want to take into account whether the widget’s
/// parent is also marked as visible, use
/// [`is_visible()`][Self::is_visible()] instead.
///
/// This function does not check if the widget is
/// obscured in any way.
///
/// See [`set_visible()`][Self::set_visible()].
///
/// # Returns
///
/// [`true`] if the widget is visible
#[doc(alias = "gtk_widget_get_visible")]
fn get_visible(&self) -> bool {
unsafe { from_glib(ffi::gtk_widget_get_visible(self.as_ref().to_glib_none().0)) }
}
/// Returns the content width of the widget.
///
/// This function returns the width passed to its
/// size-allocate implementation, which is the width you
/// should be using in [`WidgetImpl::snapshot()`][crate::subclass::prelude::WidgetImpl::snapshot()].
///
/// For pointer events, see [`contains()`][Self::contains()].
///
/// To learn more about widget sizes, see the coordinate
/// system [overview](coordinates.html).
///
/// # Returns
///
/// The width of @self
#[doc(alias = "gtk_widget_get_width")]
#[doc(alias = "get_width")]
fn width(&self) -> i32 {
unsafe { ffi::gtk_widget_get_width(self.as_ref().to_glib_none().0) }
}
/// Causes @self to have the keyboard focus for the [`Window`][crate::Window] it's inside.
///
/// If @self is not focusable, or its [`WidgetImpl::grab_focus()`][crate::subclass::prelude::WidgetImpl::grab_focus()]
/// implementation cannot transfer the focus to a descendant of @self
/// that is focusable, it will not take focus and [`false`] will be returned.
///
/// Calling [`grab_focus()`][Self::grab_focus()] on an already focused widget
/// is allowed, should not have an effect, and return [`true`].
///
/// # Returns
///
/// [`true`] if focus is now inside @self.
#[doc(alias = "gtk_widget_grab_focus")]
fn grab_focus(&self) -> bool {
unsafe { from_glib(ffi::gtk_widget_grab_focus(self.as_ref().to_glib_none().0)) }
}
/// Returns whether @css_class is currently applied to @self.
/// ## `css_class`
/// A style class, without the leading '.'
/// used for notation of style classes
///
/// # Returns
///
/// [`true`] if @css_class is currently applied to @self,
/// [`false`] otherwise.
#[doc(alias = "gtk_widget_has_css_class")]
fn has_css_class(&self, css_class: &str) -> bool {
unsafe {
from_glib(ffi::gtk_widget_has_css_class(
self.as_ref().to_glib_none().0,
css_class.to_glib_none().0,
))
}
}
/// Determines whether @self is the current default widget
/// within its toplevel.
///
/// # Returns
///
/// [`true`] if @self is the current default widget
/// within its toplevel, [`false`] otherwise
#[doc(alias = "gtk_widget_has_default")]
fn has_default(&self) -> bool {
unsafe { from_glib(ffi::gtk_widget_has_default(self.as_ref().to_glib_none().0)) }
}
/// Determines if the widget has the global input focus.
///
/// See [`is_focus()`][Self::is_focus()] for the difference between
/// having the global input focus, and only having the focus
/// within a toplevel.
///
/// # Returns
///
/// [`true`] if the widget has the global input focus.
#[doc(alias = "gtk_widget_has_focus")]
fn has_focus(&self) -> bool {
unsafe { from_glib(ffi::gtk_widget_has_focus(self.as_ref().to_glib_none().0)) }
}
/// Determines if the widget should show a visible indication that
/// it has the global input focus.
///
/// This is a convenience function that takes into account whether
/// focus indication should currently be shown in the toplevel window
/// of @self. See [`GtkWindowExt::gets_focus_visible()`][crate::prelude::GtkWindowExt::gets_focus_visible()] for more
/// information about focus indication.
///
/// To find out if the widget has the global input focus, use
/// [`has_focus()`][Self::has_focus()].
///
/// # Returns
///
/// [`true`] if the widget should display a “focus rectangle”
#[doc(alias = "gtk_widget_has_visible_focus")]
fn has_visible_focus(&self) -> bool {
unsafe {
from_glib(ffi::gtk_widget_has_visible_focus(
self.as_ref().to_glib_none().0,
))
}
}
/// Reverses the effects of gtk_widget_show().
///
/// This is causing the widget to be hidden (invisible to the user).
///
/// # Deprecated since 4.10
///
/// Use [`set_visible()`][Self::set_visible()] instead
#[cfg_attr(feature = "v4_10", deprecated = "Since 4.10")]
#[allow(deprecated)]
#[doc(alias = "gtk_widget_hide")]
fn hide(&self) {
unsafe {
ffi::gtk_widget_hide(self.as_ref().to_glib_none().0);
}
}
/// Returns whether the widget is currently being destroyed.
///
/// This information can sometimes be used to avoid doing
/// unnecessary work.
///
/// # Returns
///
/// [`true`] if @self is being destroyed
#[doc(alias = "gtk_widget_in_destruction")]
fn in_destruction(&self) -> bool {
unsafe {
from_glib(ffi::gtk_widget_in_destruction(
self.as_ref().to_glib_none().0,
))
}
}
/// Inserts @group into @self.
///
/// Children of @self that implement [`Actionable`][crate::Actionable] can
/// then be associated with actions in @group by setting their
/// “action-name” to @prefix.`action-name`.
///
/// Note that inheritance is defined for individual actions. I.e.
/// even if you insert a group with prefix @prefix, actions with
/// the same prefix will still be inherited from the parent, unless
/// the group contains an action with the same name.
///
/// If @group is [`None`], a previously inserted group for @name is
/// removed from @self.
/// ## `name`
/// the prefix for actions in @group
/// ## `group`
/// a `GActionGroup`, or [`None`] to remove
/// the previously inserted group for @name
#[doc(alias = "gtk_widget_insert_action_group")]
fn insert_action_group(&self, name: &str, group: Option<&impl IsA<gio::ActionGroup>>) {
unsafe {
ffi::gtk_widget_insert_action_group(
self.as_ref().to_glib_none().0,
name.to_glib_none().0,
group.map(|p| p.as_ref()).to_glib_none().0,
);
}
}
/// Inserts @self into the child widget list of @parent.
///
/// It will be placed after @previous_sibling, or at the beginning if
/// @previous_sibling is [`None`].
///
/// After calling this function, `gtk_widget_get_prev_sibling(widget)`
/// will return @previous_sibling.
///
/// If @parent is already set as the parent widget of @self, this
/// function can also be used to reorder @self in the child widget
/// list of @parent.
///
/// This API is primarily meant for widget implementations; if you are
/// just using a widget, you *must* use its own API for adding children.
/// ## `parent`
/// the parent [`Widget`][crate::Widget] to insert @self into
/// ## `previous_sibling`
/// the new previous sibling of @self
#[doc(alias = "gtk_widget_insert_after")]
fn insert_after(&self, parent: &impl IsA<Widget>, previous_sibling: Option<&impl IsA<Widget>>) {
unsafe {
ffi::gtk_widget_insert_after(
self.as_ref().to_glib_none().0,
parent.as_ref().to_glib_none().0,
previous_sibling.map(|p| p.as_ref()).to_glib_none().0,
);
}
}
/// Inserts @self into the child widget list of @parent.
///
/// It will be placed before @next_sibling, or at the end if
/// @next_sibling is [`None`].
///
/// After calling this function, `gtk_widget_get_next_sibling(widget)`
/// will return @next_sibling.
///
/// If @parent is already set as the parent widget of @self, this function
/// can also be used to reorder @self in the child widget list of @parent.
///
/// This API is primarily meant for widget implementations; if you are
/// just using a widget, you *must* use its own API for adding children.
/// ## `parent`
/// the parent [`Widget`][crate::Widget] to insert @self into
/// ## `next_sibling`
/// the new next sibling of @self
#[doc(alias = "gtk_widget_insert_before")]
fn insert_before(&self, parent: &impl IsA<Widget>, next_sibling: Option<&impl IsA<Widget>>) {
unsafe {
ffi::gtk_widget_insert_before(
self.as_ref().to_glib_none().0,
parent.as_ref().to_glib_none().0,
next_sibling.map(|p| p.as_ref()).to_glib_none().0,
);
}
}
/// Determines whether @self is somewhere inside @ancestor,
/// possibly with intermediate containers.
/// ## `ancestor`
/// another [`Widget`][crate::Widget]
///
/// # Returns
///
/// [`true`] if @ancestor contains @self as a child,
/// grandchild, great grandchild, etc.
#[doc(alias = "gtk_widget_is_ancestor")]
fn is_ancestor(&self, ancestor: &impl IsA<Widget>) -> bool {
unsafe {
from_glib(ffi::gtk_widget_is_ancestor(
self.as_ref().to_glib_none().0,
ancestor.as_ref().to_glib_none().0,
))
}
}
/// Determines whether @self can be drawn to.
///
/// A widget can be drawn if it is mapped and visible.
///
/// # Returns
///
/// [`true`] if @self is drawable, [`false`] otherwise
#[doc(alias = "gtk_widget_is_drawable")]
fn is_drawable(&self) -> bool {
unsafe { from_glib(ffi::gtk_widget_is_drawable(self.as_ref().to_glib_none().0)) }
}
/// Determines if the widget is the focus widget within its
/// toplevel.
///
/// This does not mean that the [`has-focus`][struct@crate::Widget#has-focus]
/// property is necessarily set; [`has-focus`][struct@crate::Widget#has-focus]
/// will only be set if the toplevel widget additionally has the
/// global input focus.
///
/// # Returns
///
/// [`true`] if the widget is the focus widget.
#[doc(alias = "gtk_widget_is_focus")]
fn is_focus(&self) -> bool {
unsafe { from_glib(ffi::gtk_widget_is_focus(self.as_ref().to_glib_none().0)) }
}
/// Returns the widget’s effective sensitivity.
///
/// This means it is sensitive itself and also its
/// parent widget is sensitive.
///
/// # Returns
///
/// [`true`] if the widget is effectively sensitive
#[doc(alias = "gtk_widget_is_sensitive")]
fn is_sensitive(&self) -> bool {
unsafe { from_glib(ffi::gtk_widget_is_sensitive(self.as_ref().to_glib_none().0)) }
}
/// Determines whether the widget and all its parents are marked as
/// visible.
///
/// This function does not check if the widget is obscured in any way.
///
/// See also [`get_visible()`][Self::get_visible()] and
/// [`set_visible()`][Self::set_visible()].
///
/// # Returns
///
/// [`true`] if the widget and all its parents are visible
#[doc(alias = "gtk_widget_is_visible")]
fn is_visible(&self) -> bool {
unsafe { from_glib(ffi::gtk_widget_is_visible(self.as_ref().to_glib_none().0)) }
}
/// Emits the `::keynav-failed` signal on the widget.
///
/// This function should be called whenever keyboard navigation
/// within a single widget hits a boundary.
///
/// The return value of this function should be interpreted
/// in a way similar to the return value of
/// [`child_focus()`][Self::child_focus()]. When [`true`] is returned,
/// stay in the widget, the failed keyboard navigation is OK
/// and/or there is nowhere we can/should move the focus to.
/// When [`false`] is returned, the caller should continue with
/// keyboard navigation outside the widget, e.g. by calling
/// [`child_focus()`][Self::child_focus()] on the widget’s toplevel.
///
/// The default [`keynav-failed`][struct@crate::Widget#keynav-failed] handler returns
/// [`false`] for [`DirectionType::TabForward`][crate::DirectionType::TabForward] and [`DirectionType::TabBackward`][crate::DirectionType::TabBackward].
/// For the other values of [`DirectionType`][crate::DirectionType] it returns [`true`].
///
/// Whenever the default handler returns [`true`], it also calls
/// [`error_bell()`][Self::error_bell()] to notify the user of the
/// failed keyboard navigation.
///
/// A use case for providing an own implementation of ::keynav-failed
/// (either by connecting to it or by overriding it) would be a row of
/// [`Entry`][crate::Entry] widgets where the user should be able to navigate
/// the entire row with the cursor keys, as e.g. known from user
/// interfaces that require entering license keys.
/// ## `direction`
/// direction of focus movement
///
/// # Returns
///
/// [`true`] if stopping keyboard navigation is fine, [`false`]
/// if the emitting widget should try to handle the keyboard
/// navigation attempt in its parent container(s).
#[doc(alias = "gtk_widget_keynav_failed")]
fn keynav_failed(&self, direction: DirectionType) -> bool {
unsafe {
from_glib(ffi::gtk_widget_keynav_failed(
self.as_ref().to_glib_none().0,
direction.into_glib(),
))
}
}
/// Returns the widgets for which this widget is the target of a
/// mnemonic.
///
/// Typically, these widgets will be labels. See, for example,
/// [`Label::set_mnemonic_widget()`][crate::Label::set_mnemonic_widget()].
///
/// The widgets in the list are not individually referenced.
/// If you want to iterate through the list and perform actions
/// involving callbacks that might destroy the widgets, you
/// must call `g_list_foreach (result, (GFunc)g_object_ref, NULL)`
/// first, and then unref all the widgets afterwards.
///
/// # Returns
///
/// the list
/// of mnemonic labels; free this list with g_list_free() when you
/// are done with it.
#[doc(alias = "gtk_widget_list_mnemonic_labels")]
fn list_mnemonic_labels(&self) -> Vec<Widget> {
unsafe {
FromGlibPtrContainer::from_glib_container(ffi::gtk_widget_list_mnemonic_labels(
self.as_ref().to_glib_none().0,
))
}
}
/// Causes a widget to be mapped if it isn’t already.
///
/// This function is only for use in widget implementations.
#[doc(alias = "gtk_widget_map")]
fn map(&self) {
unsafe {
ffi::gtk_widget_map(self.as_ref().to_glib_none().0);
}
}
/// Measures @self in the orientation @orientation and for the given @for_size.
///
/// As an example, if @orientation is [`Orientation::Horizontal`][crate::Orientation::Horizontal] and @for_size
/// is 300, this functions will compute the minimum and natural width of @self
/// if it is allocated at a height of 300 pixels.
///
/// See [GtkWidget’s geometry management section](class.Widget.html#height-for-width-geometry-management) for
/// a more details on implementing `GtkWidgetClass.measure()`.
/// ## `orientation`
/// the orientation to measure
/// ## `for_size`
/// Size for the opposite of @orientation, i.e.
/// if @orientation is [`Orientation::Horizontal`][crate::Orientation::Horizontal], this is
/// the height the widget should be measured with. The [`Orientation::Vertical`][crate::Orientation::Vertical]
/// case is analogous. This way, both height-for-width and width-for-height
/// requests can be implemented. If no size is known, -1 can be passed.
///
/// # Returns
///
///
/// ## `minimum`
/// location to store the minimum size
///
/// ## `natural`
/// location to store the natural size
///
/// ## `minimum_baseline`
/// location to store the baseline
/// position for the minimum size, or -1 to report no baseline
///
/// ## `natural_baseline`
/// location to store the baseline
/// position for the natural size, or -1 to report no baseline
#[doc(alias = "gtk_widget_measure")]
fn measure(&self, orientation: Orientation, for_size: i32) -> (i32, i32, i32, i32) {
unsafe {
let mut minimum = std::mem::MaybeUninit::uninit();
let mut natural = std::mem::MaybeUninit::uninit();
let mut minimum_baseline = std::mem::MaybeUninit::uninit();
let mut natural_baseline = std::mem::MaybeUninit::uninit();
ffi::gtk_widget_measure(
self.as_ref().to_glib_none().0,
orientation.into_glib(),
for_size,
minimum.as_mut_ptr(),
natural.as_mut_ptr(),
minimum_baseline.as_mut_ptr(),
natural_baseline.as_mut_ptr(),
);
(
minimum.assume_init(),
natural.assume_init(),
minimum_baseline.assume_init(),
natural_baseline.assume_init(),
)
}
}
/// Emits the ::mnemonic-activate signal.
///
/// See [`mnemonic-activate`][struct@crate::Widget#mnemonic-activate].
/// ## `group_cycling`
/// [`true`] if there are other widgets with the same mnemonic
///
/// # Returns
///
/// [`true`] if the signal has been handled
#[doc(alias = "gtk_widget_mnemonic_activate")]
fn mnemonic_activate(&self, group_cycling: bool) -> bool {
unsafe {
from_glib(ffi::gtk_widget_mnemonic_activate(
self.as_ref().to_glib_none().0,
group_cycling.into_glib(),
))
}
}
/// Returns a `GListModel` to track the children of @self.
///
/// Calling this function will enable extra internal bookkeeping
/// to track children and emit signals on the returned listmodel.
/// It may slow down operations a lot.
///
/// Applications should try hard to avoid calling this function
/// because of the slowdowns.
///
/// # Returns
///
///
/// a `GListModel` tracking @self's children
#[doc(alias = "gtk_widget_observe_children")]
fn observe_children(&self) -> gio::ListModel {
unsafe {
from_glib_full(ffi::gtk_widget_observe_children(
self.as_ref().to_glib_none().0,
))
}
}
/// Returns a `GListModel` to track the [`EventController`][crate::EventController]s
/// of @self.
///
/// Calling this function will enable extra internal bookkeeping
/// to track controllers and emit signals on the returned listmodel.
/// It may slow down operations a lot.
///
/// Applications should try hard to avoid calling this function
/// because of the slowdowns.
///
/// # Returns
///
///
/// a `GListModel` tracking @self's controllers
#[doc(alias = "gtk_widget_observe_controllers")]
fn observe_controllers(&self) -> gio::ListModel {
unsafe {
from_glib_full(ffi::gtk_widget_observe_controllers(
self.as_ref().to_glib_none().0,
))
}
}
/// Finds the descendant of @self closest to the point (@x, @y).
///
/// The point must be given in widget coordinates, so (0, 0) is assumed
/// to be the top left of @self's content area.
///
/// Usually widgets will return [`None`] if the given coordinate is not
/// contained in @self checked via [`contains()`][Self::contains()].
/// Otherwise they will recursively try to find a child that does
/// not return [`None`]. Widgets are however free to customize their
/// picking algorithm.
///
/// This function is used on the toplevel to determine the widget
/// below the mouse cursor for purposes of hover highlighting and
/// delivering events.
/// ## `x`
/// X coordinate to test, relative to @self's origin
/// ## `y`
/// Y coordinate to test, relative to @self's origin
/// ## `flags`
/// Flags to influence what is picked
///
/// # Returns
///
/// The widget descendant at
/// the given point
#[doc(alias = "gtk_widget_pick")]
#[must_use]
fn pick(&self, x: f64, y: f64, flags: PickFlags) -> Option<Widget> {
unsafe {
from_glib_none(ffi::gtk_widget_pick(
self.as_ref().to_glib_none().0,
x,
y,
flags.into_glib(),
))
}
}
/// Flags the widget for a rerun of the [`WidgetImpl::size_allocate()`][crate::subclass::prelude::WidgetImpl::size_allocate()]
/// function.
///
/// Use this function instead of [`queue_resize()`][Self::queue_resize()]
/// when the @self's size request didn't change but it wants to
/// reposition its contents.
///
/// An example user of this function is [`set_halign()`][Self::set_halign()].
///
/// This function is only for use in widget implementations.
#[doc(alias = "gtk_widget_queue_allocate")]
fn queue_allocate(&self) {
unsafe {
ffi::gtk_widget_queue_allocate(self.as_ref().to_glib_none().0);
}
}
/// Schedules this widget to be redrawn in the paint phase
/// of the current or the next frame.
///
/// This means @self's [`WidgetImpl::snapshot()`][crate::subclass::prelude::WidgetImpl::snapshot()]
/// implementation will be called.
#[doc(alias = "gtk_widget_queue_draw")]
fn queue_draw(&self) {
unsafe {
ffi::gtk_widget_queue_draw(self.as_ref().to_glib_none().0);
}
}
/// Flags a widget to have its size renegotiated.
///
/// This should be called when a widget for some reason has a new
/// size request. For example, when you change the text in a
/// [`Label`][crate::Label], the label queues a resize to ensure there’s
/// enough space for the new text.
///
/// Note that you cannot call gtk_widget_queue_resize() on a widget
/// from inside its implementation of the [`WidgetImpl::size_allocate()`][crate::subclass::prelude::WidgetImpl::size_allocate()]
/// virtual method. Calls to gtk_widget_queue_resize() from inside
/// [`WidgetImpl::size_allocate()`][crate::subclass::prelude::WidgetImpl::size_allocate()] will be silently ignored.
///
/// This function is only for use in widget implementations.
#[doc(alias = "gtk_widget_queue_resize")]
fn queue_resize(&self) {
unsafe {
ffi::gtk_widget_queue_resize(self.as_ref().to_glib_none().0);
}
}
/// Creates the GDK resources associated with a widget.
///
/// Normally realization happens implicitly; if you show a widget
/// and all its parent containers, then the widget will be realized
/// and mapped automatically.
///
/// Realizing a widget requires all the widget’s parent widgets to be
/// realized; calling this function realizes the widget’s parents
/// in addition to @self itself. If a widget is not yet inside a
/// toplevel window when you realize it, bad things will happen.
///
/// This function is primarily used in widget implementations, and
/// isn’t very useful otherwise. Many times when you think you might
/// need it, a better approach is to connect to a signal that will be
/// called after the widget is realized automatically, such as
/// [`realize`][struct@crate::Widget#realize].
#[doc(alias = "gtk_widget_realize")]
fn realize(&self) {
unsafe {
ffi::gtk_widget_realize(self.as_ref().to_glib_none().0);
}
}
/// Removes @controller from @self, so that it doesn't process
/// events anymore.
///
/// It should not be used again.
///
/// Widgets will remove all event controllers automatically when they
/// are destroyed, there is normally no need to call this function.
/// ## `controller`
/// a [`EventController`][crate::EventController]
#[doc(alias = "gtk_widget_remove_controller")]
fn remove_controller(&self, controller: &impl IsA<EventController>) {
unsafe {
ffi::gtk_widget_remove_controller(
self.as_ref().to_glib_none().0,
controller.as_ref().to_glib_none().0,
);
}
}
/// Removes a style from @self.
///
/// After this, the style of @self will stop matching for @css_class.
/// ## `css_class`
/// The style class to remove from @self, without
/// the leading '.' used for notation of style classes
#[doc(alias = "gtk_widget_remove_css_class")]
fn remove_css_class(&self, css_class: &str) {
unsafe {
ffi::gtk_widget_remove_css_class(
self.as_ref().to_glib_none().0,
css_class.to_glib_none().0,
);
}
}
/// Removes a widget from the list of mnemonic labels for this widget.
///
/// See [`list_mnemonic_labels()`][Self::list_mnemonic_labels()]. The widget must
/// have previously been added to the list with
/// [`add_mnemonic_label()`][Self::add_mnemonic_label()].
/// ## `label`
/// a [`Widget`][crate::Widget] that was previously set as a mnemonic
/// label for @self with [`add_mnemonic_label()`][Self::add_mnemonic_label()]
#[doc(alias = "gtk_widget_remove_mnemonic_label")]
fn remove_mnemonic_label(&self, label: &impl IsA<Widget>) {
unsafe {
ffi::gtk_widget_remove_mnemonic_label(
self.as_ref().to_glib_none().0,
label.as_ref().to_glib_none().0,
);
}
}
/// Specifies whether the input focus can enter the widget
/// or any of its children.
///
/// Applications should set @can_focus to [`false`] to mark a
/// widget as for pointer/touch use only.
///
/// Note that having @can_focus be [`true`] is only one of the
/// necessary conditions for being focusable. A widget must
/// also be sensitive and focusable and not have an ancestor
/// that is marked as not can-focus in order to receive input
/// focus.
///
/// See [`grab_focus()`][Self::grab_focus()] for actually setting
/// the input focus on a widget.
/// ## `can_focus`
/// whether or not the input focus can enter
/// the widget or any of its children
#[doc(alias = "gtk_widget_set_can_focus")]
fn set_can_focus(&self, can_focus: bool) {
unsafe {
ffi::gtk_widget_set_can_focus(self.as_ref().to_glib_none().0, can_focus.into_glib());
}
}
/// Sets whether @self can be the target of pointer events.
/// ## `can_target`
/// whether this widget should be able to
/// receive pointer events
#[doc(alias = "gtk_widget_set_can_target")]
fn set_can_target(&self, can_target: bool) {
unsafe {
ffi::gtk_widget_set_can_target(self.as_ref().to_glib_none().0, can_target.into_glib());
}
}
/// Sets whether @self should be mapped along with its parent.
///
/// The child visibility can be set for widget before it is added
/// to a container with [`set_parent()`][Self::set_parent()], to avoid
/// mapping children unnecessary before immediately unmapping them.
/// However it will be reset to its default state of [`true`] when the
/// widget is removed from a container.
///
/// Note that changing the child visibility of a widget does not
/// queue a resize on the widget. Most of the time, the size of
/// a widget is computed from all visible children, whether or
/// not they are mapped. If this is not the case, the container
/// can queue a resize itself.
///
/// This function is only useful for container implementations
/// and should never be called by an application.
/// ## `child_visible`
/// if [`true`], @self should be mapped along
/// with its parent.
#[doc(alias = "gtk_widget_set_child_visible")]
fn set_child_visible(&self, child_visible: bool) {
unsafe {
ffi::gtk_widget_set_child_visible(
self.as_ref().to_glib_none().0,
child_visible.into_glib(),
);
}
}
/// Clear all style classes applied to @self
/// and replace them with @classes.
/// ## `classes`
///
/// [`None`]-terminated list of style classes to apply to @self.
#[doc(alias = "gtk_widget_set_css_classes")]
fn set_css_classes(&self, classes: &[&str]) {
unsafe {
ffi::gtk_widget_set_css_classes(
self.as_ref().to_glib_none().0,
classes.to_glib_none().0,
);
}
}
/// Sets the cursor to be shown when pointer devices point
/// towards @self.
///
/// If the @cursor is NULL, @self will use the cursor
/// inherited from the parent widget.
/// ## `cursor`
/// the new cursor
#[doc(alias = "gtk_widget_set_cursor")]
fn set_cursor(&self, cursor: Option<&gdk::Cursor>) {
unsafe {
ffi::gtk_widget_set_cursor(self.as_ref().to_glib_none().0, cursor.to_glib_none().0);
}
}
/// Sets a named cursor to be shown when pointer devices point
/// towards @self.
///
/// This is a utility function that creates a cursor via
/// [`gdk::Cursor::from_name()`][crate::gdk::Cursor::from_name()] and then sets it on @self
/// with [`set_cursor()`][Self::set_cursor()]. See those functions for
/// details.
///
/// On top of that, this function allows @name to be [`None`], which
/// will do the same as calling [`set_cursor()`][Self::set_cursor()]
/// with a [`None`] cursor.
/// ## `name`
/// The name of the cursor
#[doc(alias = "gtk_widget_set_cursor_from_name")]
fn set_cursor_from_name(&self, name: Option<&str>) {
unsafe {
ffi::gtk_widget_set_cursor_from_name(
self.as_ref().to_glib_none().0,
name.to_glib_none().0,
);
}
}
/// Sets the reading direction on a particular widget.
///
/// This direction controls the primary direction for widgets
/// containing text, and also the direction in which the children
/// of a container are packed. The ability to set the direction is
/// present in order so that correct localization into languages with
/// right-to-left reading directions can be done. Generally, applications
/// will let the default reading direction present, except for containers
/// where the containers are arranged in an order that is explicitly
/// visual rather than logical (such as buttons for text justification).
///
/// If the direction is set to [`TextDirection::None`][crate::TextDirection::None], then the value
/// set by [`Widget::set_default_direction()`][crate::Widget::set_default_direction()] will be used.
/// ## `dir`
/// the new direction
#[doc(alias = "gtk_widget_set_direction")]
fn set_direction(&self, dir: TextDirection) {
unsafe {
ffi::gtk_widget_set_direction(self.as_ref().to_glib_none().0, dir.into_glib());
}
}
/// Set @child as the current focus child of @self.
///
/// This function is only suitable for widget implementations.
/// If you want a certain widget to get the input focus, call
/// [`grab_focus()`][Self::grab_focus()] on it.
/// ## `child`
/// a direct child widget of @self or [`None`]
/// to unset the focus child of @self
#[doc(alias = "gtk_widget_set_focus_child")]
fn set_focus_child(&self, child: Option<&impl IsA<Widget>>) {
unsafe {
ffi::gtk_widget_set_focus_child(
self.as_ref().to_glib_none().0,
child.map(|p| p.as_ref()).to_glib_none().0,
);
}
}
/// Sets whether the widget should grab focus when it is clicked
/// with the mouse.
///
/// Making mouse clicks not grab focus is useful in places like
/// toolbars where you don’t want the keyboard focus removed from
/// the main area of the application.
/// ## `focus_on_click`
/// whether the widget should grab focus when clicked
/// with the mouse
#[doc(alias = "gtk_widget_set_focus_on_click")]
fn set_focus_on_click(&self, focus_on_click: bool) {
unsafe {
ffi::gtk_widget_set_focus_on_click(
self.as_ref().to_glib_none().0,
focus_on_click.into_glib(),
);
}
}
/// Specifies whether @self can own the input focus.
///
/// Widget implementations should set @focusable to [`true`] in
/// their init() function if they want to receive keyboard input.
///
/// Note that having @focusable be [`true`] is only one of the
/// necessary conditions for being focusable. A widget must
/// also be sensitive and can-focus and not have an ancestor
/// that is marked as not can-focus in order to receive input
/// focus.
///
/// See [`grab_focus()`][Self::grab_focus()] for actually setting
/// the input focus on a widget.
/// ## `focusable`
/// whether or not @self can own the input focus
#[doc(alias = "gtk_widget_set_focusable")]
fn set_focusable(&self, focusable: bool) {
unsafe {
ffi::gtk_widget_set_focusable(self.as_ref().to_glib_none().0, focusable.into_glib());
}
}
/// Sets the font map to use for Pango rendering.
///
/// The font map is the object that is used to look up fonts.
/// Setting a custom font map can be useful in special situations,
/// e.g. when you need to add application-specific fonts to the set
/// of available fonts.
///
/// When not set, the widget will inherit the font map from its parent.
/// ## `font_map`
/// a [`pango::FontMap`][crate::pango::FontMap], or [`None`] to unset any
/// previously set font map
#[doc(alias = "gtk_widget_set_font_map")]
fn set_font_map(&self, font_map: Option<&impl IsA<pango::FontMap>>) {
unsafe {
ffi::gtk_widget_set_font_map(
self.as_ref().to_glib_none().0,
font_map.map(|p| p.as_ref()).to_glib_none().0,
);
}
}
/// Sets the [`cairo::FontOptions`][crate::cairo::FontOptions] used for Pango rendering
/// in this widget.
///
/// When not set, the default font options for the [`gdk::Display`][crate::gdk::Display]
/// will be used.
///
/// # Deprecated since 4.16
///
/// ## `options`
/// a [`cairo::FontOptions`][crate::cairo::FontOptions]
/// to unset any previously set default font options
#[cfg_attr(feature = "v4_16", deprecated = "Since 4.16")]
#[allow(deprecated)]
#[doc(alias = "gtk_widget_set_font_options")]
fn set_font_options(&self, options: Option<&cairo::FontOptions>) {
unsafe {
ffi::gtk_widget_set_font_options(
self.as_ref().to_glib_none().0,
options.to_glib_none().0,
);
}
}
/// Sets the horizontal alignment of @self.
/// ## `align`
/// the horizontal alignment
#[doc(alias = "gtk_widget_set_halign")]
fn set_halign(&self, align: Align) {
unsafe {
ffi::gtk_widget_set_halign(self.as_ref().to_glib_none().0, align.into_glib());
}
}
/// Sets the `has-tooltip` property on @self to @has_tooltip.
/// ## `has_tooltip`
/// whether or not @self has a tooltip.
#[doc(alias = "gtk_widget_set_has_tooltip")]
fn set_has_tooltip(&self, has_tooltip: bool) {
unsafe {
ffi::gtk_widget_set_has_tooltip(
self.as_ref().to_glib_none().0,
has_tooltip.into_glib(),
);
}
}
/// Sets whether the widget would like any available extra horizontal
/// space.
///
/// When a user resizes a [`Window`][crate::Window], widgets with expand=TRUE
/// generally receive the extra space. For example, a list or
/// scrollable area or document in your window would often be set to
/// expand.
///
/// Call this function to set the expand flag if you would like your
/// widget to become larger horizontally when the window has extra
/// room.
///
/// By default, widgets automatically expand if any of their children
/// want to expand. (To see if a widget will automatically expand given
/// its current children and state, call [`compute_expand()`][Self::compute_expand()].
/// A container can decide how the expandability of children affects the
/// expansion of the container by overriding the compute_expand virtual
/// method on [`Widget`][crate::Widget].).
///
/// Setting hexpand explicitly with this function will override the
/// automatic expand behavior.
///
/// This function forces the widget to expand or not to expand,
/// regardless of children. The override occurs because
/// [`set_hexpand()`][Self::set_hexpand()] sets the hexpand-set property (see
/// [`set_hexpand_set()`][Self::set_hexpand_set()]) which causes the widget’s hexpand
/// value to be used, rather than looking at children and widget state.
/// ## `expand`
/// whether to expand
#[doc(alias = "gtk_widget_set_hexpand")]
fn set_hexpand(&self, expand: bool) {
unsafe {
ffi::gtk_widget_set_hexpand(self.as_ref().to_glib_none().0, expand.into_glib());
}
}
/// Sets whether the hexpand flag will be used.
///
/// The [`hexpand-set`][struct@crate::Widget#hexpand-set] property will be set
/// automatically when you call [`set_hexpand()`][Self::set_hexpand()]
/// to set hexpand, so the most likely reason to use this function
/// would be to unset an explicit expand flag.
///
/// If hexpand is set, then it overrides any computed
/// expand value based on child widgets. If hexpand is not
/// set, then the expand value depends on whether any
/// children of the widget would like to expand.
///
/// There are few reasons to use this function, but it’s here
/// for completeness and consistency.
/// ## `set`
/// value for hexpand-set property
#[doc(alias = "gtk_widget_set_hexpand_set")]
fn set_hexpand_set(&self, set: bool) {
unsafe {
ffi::gtk_widget_set_hexpand_set(self.as_ref().to_glib_none().0, set.into_glib());
}
}
/// Sets the layout manager delegate instance that provides an
/// implementation for measuring and allocating the children of @self.
/// ## `layout_manager`
/// a [`LayoutManager`][crate::LayoutManager]
#[doc(alias = "gtk_widget_set_layout_manager")]
fn set_layout_manager(&self, layout_manager: Option<impl IsA<LayoutManager>>) {
unsafe {
ffi::gtk_widget_set_layout_manager(
self.as_ref().to_glib_none().0,
layout_manager.map(|p| p.upcast()).into_glib_ptr(),
);
}
}
/// Sets the bottom margin of @self.
/// ## `margin`
/// the bottom margin
#[doc(alias = "gtk_widget_set_margin_bottom")]
fn set_margin_bottom(&self, margin: i32) {
unsafe {
ffi::gtk_widget_set_margin_bottom(self.as_ref().to_glib_none().0, margin);
}
}
/// Sets the end margin of @self.
/// ## `margin`
/// the end margin
#[doc(alias = "gtk_widget_set_margin_end")]
fn set_margin_end(&self, margin: i32) {
unsafe {
ffi::gtk_widget_set_margin_end(self.as_ref().to_glib_none().0, margin);
}
}
/// Sets the start margin of @self.
/// ## `margin`
/// the start margin
#[doc(alias = "gtk_widget_set_margin_start")]
fn set_margin_start(&self, margin: i32) {
unsafe {
ffi::gtk_widget_set_margin_start(self.as_ref().to_glib_none().0, margin);
}
}
/// Sets the top margin of @self.
/// ## `margin`
/// the top margin
#[doc(alias = "gtk_widget_set_margin_top")]
fn set_margin_top(&self, margin: i32) {
unsafe {
ffi::gtk_widget_set_margin_top(self.as_ref().to_glib_none().0, margin);
}
}
/// Sets a widgets name.
///
/// Setting a name allows you to refer to the widget from a
/// CSS file. You can apply a style to widgets with a particular name
/// in the CSS file. See the documentation for the CSS syntax (on the
/// same page as the docs for [`StyleContext`][crate::StyleContext].
///
/// Note that the CSS syntax has certain special characters to delimit
/// and represent elements in a selector (period, #, >, *...), so using
/// these will make your widget impossible to match by name. Any combination
/// of alphanumeric symbols, dashes and underscores will suffice.
/// ## `name`
/// name for the widget
#[doc(alias = "gtk_widget_set_name")]
#[doc(alias = "set_name")]
fn set_widget_name(&self, name: &str) {
unsafe {
ffi::gtk_widget_set_name(self.as_ref().to_glib_none().0, name.to_glib_none().0);
}
}
/// Request the @self to be rendered partially transparent.
///
/// An opacity of 0 is fully transparent and an opacity of 1
/// is fully opaque.
///
/// Opacity works on both toplevel widgets and child widgets, although
/// there are some limitations: For toplevel widgets, applying opacity
/// depends on the capabilities of the windowing system. On X11, this
/// has any effect only on X displays with a compositing manager,
/// see gdk_display_is_composited(). On Windows and Wayland it should
/// always work, although setting a window’s opacity after the window
/// has been shown may cause some flicker.
///
/// Note that the opacity is inherited through inclusion — if you set
/// a toplevel to be partially translucent, all of its content will
/// appear translucent, since it is ultimatively rendered on that
/// toplevel. The opacity value itself is not inherited by child
/// widgets (since that would make widgets deeper in the hierarchy
/// progressively more translucent). As a consequence, [`Popover`][crate::Popover]s
/// and other [`Native`][crate::Native] widgets with their own surface will use their
/// own opacity value, and thus by default appear non-translucent,
/// even if they are attached to a toplevel that is translucent.
/// ## `opacity`
/// desired opacity, between 0 and 1
#[doc(alias = "gtk_widget_set_opacity")]
fn set_opacity(&self, opacity: f64) {
unsafe {
ffi::gtk_widget_set_opacity(self.as_ref().to_glib_none().0, opacity);
}
}
/// Sets how @self treats content that is drawn outside the
/// widget's content area.
///
/// See the definition of [`Overflow`][crate::Overflow] for details.
///
/// This setting is provided for widget implementations and
/// should not be used by application code.
///
/// The default value is [`Overflow::Visible`][crate::Overflow::Visible].
/// ## `overflow`
/// desired overflow
#[doc(alias = "gtk_widget_set_overflow")]
fn set_overflow(&self, overflow: Overflow) {
unsafe {
ffi::gtk_widget_set_overflow(self.as_ref().to_glib_none().0, overflow.into_glib());
}
}
/// Sets @parent as the parent widget of @self.
///
/// This takes care of details such as updating the state and style
/// of the child to reflect its new location and resizing the parent.
/// The opposite function is [`unparent()`][Self::unparent()].
///
/// This function is useful only when implementing subclasses of
/// [`Widget`][crate::Widget].
/// ## `parent`
/// parent widget
#[doc(alias = "gtk_widget_set_parent")]
fn set_parent(&self, parent: &impl IsA<Widget>) {
unsafe {
ffi::gtk_widget_set_parent(
self.as_ref().to_glib_none().0,
parent.as_ref().to_glib_none().0,
);
}
}
/// Specifies whether @self will be treated as the default
/// widget within its toplevel when it has the focus, even if
/// another widget is the default.
/// ## `receives_default`
/// whether or not @self can be a default widget.
#[doc(alias = "gtk_widget_set_receives_default")]
fn set_receives_default(&self, receives_default: bool) {
unsafe {
ffi::gtk_widget_set_receives_default(
self.as_ref().to_glib_none().0,
receives_default.into_glib(),
);
}
}
/// Sets the sensitivity of a widget.
///
/// A widget is sensitive if the user can interact with it.
/// Insensitive widgets are “grayed out” and the user can’t
/// interact with them. Insensitive widgets are known as
/// “inactive”, “disabled”, or “ghosted” in some other toolkits.
/// ## `sensitive`
/// [`true`] to make the widget sensitive
#[doc(alias = "gtk_widget_set_sensitive")]
fn set_sensitive(&self, sensitive: bool) {
unsafe {
ffi::gtk_widget_set_sensitive(self.as_ref().to_glib_none().0, sensitive.into_glib());
}
}
/// Sets the minimum size of a widget.
///
/// That is, the widget’s size request will be at least @width
/// by @height. You can use this function to force a widget to
/// be larger than it normally would be.
///
/// In most cases, [`GtkWindowExt::set_default_size()`][crate::prelude::GtkWindowExt::set_default_size()] is a better
/// choice for toplevel windows than this function; setting the default
/// size will still allow users to shrink the window. Setting the size
/// request will force them to leave the window at least as large as
/// the size request.
///
/// Note the inherent danger of setting any fixed size - themes,
/// translations into other languages, different fonts, and user action
/// can all change the appropriate size for a given widget. So, it's
/// basically impossible to hardcode a size that will always be
/// correct.
///
/// The size request of a widget is the smallest size a widget can
/// accept while still functioning well and drawing itself correctly.
/// However in some strange cases a widget may be allocated less than
/// its requested size, and in many cases a widget may be allocated more
/// space than it requested.
///
/// If the size request in a given direction is -1 (unset), then
/// the “natural” size request of the widget will be used instead.
///
/// The size request set here does not include any margin from the
/// properties
/// [`margin-start`][struct@crate::Widget#margin-start],
/// [`margin-end`][struct@crate::Widget#margin-end],
/// [`margin-top`][struct@crate::Widget#margin-top], and
/// [`margin-bottom`][struct@crate::Widget#margin-bottom], but it does include pretty
/// much all other padding or border properties set by any subclass
/// of [`Widget`][crate::Widget].
/// ## `width`
/// width @self should request, or -1 to unset
/// ## `height`
/// height @self should request, or -1 to unset
#[doc(alias = "gtk_widget_set_size_request")]
fn set_size_request(&self, width: i32, height: i32) {
unsafe {
ffi::gtk_widget_set_size_request(self.as_ref().to_glib_none().0, width, height);
}
}
/// Turns on flag values in the current widget state.
///
/// Typical widget states are insensitive, prelighted, etc.
///
/// This function accepts the values [`StateFlags::DIR_LTR`][crate::StateFlags::DIR_LTR] and
/// [`StateFlags::DIR_RTL`][crate::StateFlags::DIR_RTL] but ignores them. If you want to set
/// the widget's direction, use [`set_direction()`][Self::set_direction()].
///
/// This function is for use in widget implementations.
/// ## `flags`
/// State flags to turn on
/// ## `clear`
/// Whether to clear state before turning on @flags
#[doc(alias = "gtk_widget_set_state_flags")]
fn set_state_flags(&self, flags: StateFlags, clear: bool) {
unsafe {
ffi::gtk_widget_set_state_flags(
self.as_ref().to_glib_none().0,
flags.into_glib(),
clear.into_glib(),
);
}
}
/// Sets @markup as the contents of the tooltip, which is marked
/// up with Pango markup.
///
/// This function will take care of setting the
/// [`has-tooltip`][struct@crate::Widget#has-tooltip] as a side effect, and of the
/// default handler for the [`query-tooltip`][struct@crate::Widget#query-tooltip] signal.
///
/// See also [`Tooltip::set_markup()`][crate::Tooltip::set_markup()].
/// ## `markup`
/// the contents of the tooltip for @self
#[doc(alias = "gtk_widget_set_tooltip_markup")]
fn set_tooltip_markup(&self, markup: Option<&str>) {
unsafe {
ffi::gtk_widget_set_tooltip_markup(
self.as_ref().to_glib_none().0,
markup.to_glib_none().0,
);
}
}
/// Sets @text as the contents of the tooltip.
///
/// If @text contains any markup, it will be escaped.
///
/// This function will take care of setting
/// [`has-tooltip`][struct@crate::Widget#has-tooltip] as a side effect,
/// and of the default handler for the
/// [`query-tooltip`][struct@crate::Widget#query-tooltip] signal.
///
/// See also [`Tooltip::set_text()`][crate::Tooltip::set_text()].
/// ## `text`
/// the contents of the tooltip for @self
#[doc(alias = "gtk_widget_set_tooltip_text")]
fn set_tooltip_text(&self, text: Option<&str>) {
unsafe {
ffi::gtk_widget_set_tooltip_text(self.as_ref().to_glib_none().0, text.to_glib_none().0);
}
}
/// Sets the vertical alignment of @self.
/// ## `align`
/// the vertical alignment
#[doc(alias = "gtk_widget_set_valign")]
fn set_valign(&self, align: Align) {
unsafe {
ffi::gtk_widget_set_valign(self.as_ref().to_glib_none().0, align.into_glib());
}
}
/// Sets whether the widget would like any available extra vertical
/// space.
///
/// See [`set_hexpand()`][Self::set_hexpand()] for more detail.
/// ## `expand`
/// whether to expand
#[doc(alias = "gtk_widget_set_vexpand")]
fn set_vexpand(&self, expand: bool) {
unsafe {
ffi::gtk_widget_set_vexpand(self.as_ref().to_glib_none().0, expand.into_glib());
}
}
/// Sets whether the vexpand flag will be used.
///
/// See [`set_hexpand_set()`][Self::set_hexpand_set()] for more detail.
/// ## `set`
/// value for vexpand-set property
#[doc(alias = "gtk_widget_set_vexpand_set")]
fn set_vexpand_set(&self, set: bool) {
unsafe {
ffi::gtk_widget_set_vexpand_set(self.as_ref().to_glib_none().0, set.into_glib());
}
}
/// Sets the visibility state of @self.
///
/// Note that setting this to [`true`] doesn’t mean the widget is
/// actually viewable, see [`get_visible()`][Self::get_visible()].
/// ## `visible`
/// whether the widget should be shown or not
#[doc(alias = "gtk_widget_set_visible")]
fn set_visible(&self, visible: bool) {
unsafe {
ffi::gtk_widget_set_visible(self.as_ref().to_glib_none().0, visible.into_glib());
}
}
/// Returns whether @self should contribute to
/// the measuring and allocation of its parent.
///
/// This is [`false`] for invisible children, but also
/// for children that have their own surface.
///
/// # Returns
///
/// [`true`] if child should be included in
/// measuring and allocating
#[doc(alias = "gtk_widget_should_layout")]
fn should_layout(&self) -> bool {
unsafe {
from_glib(ffi::gtk_widget_should_layout(
self.as_ref().to_glib_none().0,
))
}
}
/// Flags a widget to be displayed.
///
/// Any widget that isn’t shown will not appear on the screen.
///
/// Remember that you have to show the containers containing a widget,
/// in addition to the widget itself, before it will appear onscreen.
///
/// When a toplevel container is shown, it is immediately realized and
/// mapped; other shown widgets are realized and mapped when their
/// toplevel container is realized and mapped.
///
/// # Deprecated since 4.10
///
/// Use [`set_visible()`][Self::set_visible()] instead
#[cfg_attr(feature = "v4_10", deprecated = "Since 4.10")]
#[allow(deprecated)]
#[doc(alias = "gtk_widget_show")]
fn show(&self) {
unsafe {
ffi::gtk_widget_show(self.as_ref().to_glib_none().0);
}
}
/// Allocates widget with a transformation that translates
/// the origin to the position in @allocation.
///
/// This is a simple form of [`allocate()`][Self::allocate()].
/// ## `allocation`
/// position and size to be allocated to @self
/// ## `baseline`
/// The baseline of the child, or -1
#[doc(alias = "gtk_widget_size_allocate")]
fn size_allocate(&self, allocation: &Allocation, baseline: i32) {
unsafe {
ffi::gtk_widget_size_allocate(
self.as_ref().to_glib_none().0,
allocation.to_glib_none().0,
baseline,
);
}
}
/// Snapshot the a child of @self.
///
/// When a widget receives a call to the snapshot function,
/// it must send synthetic [`WidgetImpl::snapshot()`][crate::subclass::prelude::WidgetImpl::snapshot()] calls
/// to all children. This function provides a convenient way
/// of doing this. A widget, when it receives a call to its
/// [`WidgetImpl::snapshot()`][crate::subclass::prelude::WidgetImpl::snapshot()] function, calls
/// gtk_widget_snapshot_child() once for each child, passing in
/// the @snapshot the widget received.
///
/// gtk_widget_snapshot_child() takes care of translating the origin of
/// @snapshot, and deciding whether the child needs to be snapshot.
///
/// This function does nothing for children that implement [`Native`][crate::Native].
/// ## `child`
/// a child of @self
/// ## `snapshot`
/// [`Snapshot`][crate::Snapshot] as passed to the widget. In particular, no
/// calls to gtk_snapshot_translate() or other transform calls should
/// have been made.
#[doc(alias = "gtk_widget_snapshot_child")]
fn snapshot_child(&self, child: &impl IsA<Widget>, snapshot: &impl IsA<Snapshot>) {
unsafe {
ffi::gtk_widget_snapshot_child(
self.as_ref().to_glib_none().0,
child.as_ref().to_glib_none().0,
snapshot.as_ref().to_glib_none().0,
);
}
}
/// Translate coordinates relative to @self’s allocation
/// to coordinates relative to @dest_widget’s allocations.
///
/// In order to perform this operation, both widget must share
/// a common ancestor.
///
/// # Deprecated since 4.12
///
/// Use gtk_widget_compute_point() instead
/// ## `dest_widget`
/// a [`Widget`][crate::Widget]
/// ## `src_x`
/// X position relative to @self
/// ## `src_y`
/// Y position relative to @self
///
/// # Returns
///
/// [`false`] if @self and @dest_widget have no common
/// ancestor. In this case, 0 is stored in *@dest_x and *@dest_y.
/// Otherwise [`true`].
///
/// ## `dest_x`
/// location to store X position relative to @dest_widget
///
/// ## `dest_y`
/// location to store Y position relative to @dest_widget
#[cfg_attr(feature = "v4_12", deprecated = "Since 4.12")]
#[allow(deprecated)]
#[doc(alias = "gtk_widget_translate_coordinates")]
fn translate_coordinates(
&self,
dest_widget: &impl IsA<Widget>,
src_x: f64,
src_y: f64,
) -> Option<(f64, f64)> {
unsafe {
let mut dest_x = std::mem::MaybeUninit::uninit();
let mut dest_y = std::mem::MaybeUninit::uninit();
let ret = from_glib(ffi::gtk_widget_translate_coordinates(
self.as_ref().to_glib_none().0,
dest_widget.as_ref().to_glib_none().0,
src_x,
src_y,
dest_x.as_mut_ptr(),
dest_y.as_mut_ptr(),
));
if ret {
Some((dest_x.assume_init(), dest_y.assume_init()))
} else {
None
}
}
}
/// Triggers a tooltip query on the display where the toplevel
/// of @self is located.
#[doc(alias = "gtk_widget_trigger_tooltip_query")]
fn trigger_tooltip_query(&self) {
unsafe {
ffi::gtk_widget_trigger_tooltip_query(self.as_ref().to_glib_none().0);
}
}
/// Causes a widget to be unmapped if it’s currently mapped.
///
/// This function is only for use in widget implementations.
#[doc(alias = "gtk_widget_unmap")]
fn unmap(&self) {
unsafe {
ffi::gtk_widget_unmap(self.as_ref().to_glib_none().0);
}
}
/// Dissociate @self from its parent.
///
/// This function is only for use in widget implementations,
/// typically in dispose.
#[doc(alias = "gtk_widget_unparent")]
fn unparent(&self) {
unsafe {
ffi::gtk_widget_unparent(self.as_ref().to_glib_none().0);
}
}
/// Causes a widget to be unrealized (frees all GDK resources
/// associated with the widget).
///
/// This function is only useful in widget implementations.
#[doc(alias = "gtk_widget_unrealize")]
fn unrealize(&self) {
unsafe {
ffi::gtk_widget_unrealize(self.as_ref().to_glib_none().0);
}
}
/// Turns off flag values for the current widget state.
///
/// See [`set_state_flags()`][Self::set_state_flags()].
///
/// This function is for use in widget implementations.
/// ## `flags`
/// State flags to turn off
#[doc(alias = "gtk_widget_unset_state_flags")]
fn unset_state_flags(&self, flags: StateFlags) {
unsafe {
ffi::gtk_widget_unset_state_flags(self.as_ref().to_glib_none().0, flags.into_glib());
}
}
/// Override for height request of the widget.
///
/// If this is -1, the natural request will be used.
#[doc(alias = "height-request")]
fn height_request(&self) -> i32 {
ObjectExt::property(self.as_ref(), "height-request")
}
/// Override for height request of the widget.
///
/// If this is -1, the natural request will be used.
#[doc(alias = "height-request")]
fn set_height_request(&self, height_request: i32) {
ObjectExt::set_property(self.as_ref(), "height-request", height_request)
}
/// Override for width request of the widget.
///
/// If this is -1, the natural request will be used.
#[doc(alias = "width-request")]
fn width_request(&self) -> i32 {
ObjectExt::property(self.as_ref(), "width-request")
}
/// Override for width request of the widget.
///
/// If this is -1, the natural request will be used.
#[doc(alias = "width-request")]
fn set_width_request(&self, width_request: i32) {
ObjectExt::set_property(self.as_ref(), "width-request", width_request)
}
/// Signals that all holders of a reference to the widget should release
/// the reference that they hold.
///
/// May result in finalization of the widget if all references are released.
///
/// This signal is not suitable for saving widget state.
#[doc(alias = "destroy")]
fn connect_destroy<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn destroy_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"destroy\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
destroy_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
/// Emitted when the text direction of a widget changes.
/// ## `previous_direction`
/// the previous text direction of @widget
#[doc(alias = "direction-changed")]
fn connect_direction_changed<F: Fn(&Self, TextDirection) + 'static>(
&self,
f: F,
) -> SignalHandlerId {
unsafe extern "C" fn direction_changed_trampoline<
P: IsA<Widget>,
F: Fn(&P, TextDirection) + 'static,
>(
this: *mut ffi::GtkWidget,
previous_direction: ffi::GtkTextDirection,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(
Widget::from_glib_borrow(this).unsafe_cast_ref(),
from_glib(previous_direction),
)
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"direction-changed\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
direction_changed_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
/// Emitted when @widget is hidden.
#[doc(alias = "hide")]
fn connect_hide<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn hide_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"hide\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
hide_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
/// Emitted if keyboard navigation fails.
///
/// See [`keynav_failed()`][Self::keynav_failed()] for details.
/// ## `direction`
/// the direction of movement
///
/// # Returns
///
/// [`true`] if stopping keyboard navigation is fine, [`false`]
/// if the emitting widget should try to handle the keyboard
/// navigation attempt in its parent widget(s).
#[doc(alias = "keynav-failed")]
fn connect_keynav_failed<F: Fn(&Self, DirectionType) -> glib::Propagation + 'static>(
&self,
f: F,
) -> SignalHandlerId {
unsafe extern "C" fn keynav_failed_trampoline<
P: IsA<Widget>,
F: Fn(&P, DirectionType) -> glib::Propagation + 'static,
>(
this: *mut ffi::GtkWidget,
direction: ffi::GtkDirectionType,
f: glib::ffi::gpointer,
) -> glib::ffi::gboolean {
let f: &F = &*(f as *const F);
f(
Widget::from_glib_borrow(this).unsafe_cast_ref(),
from_glib(direction),
)
.into_glib()
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"keynav-failed\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
keynav_failed_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
/// Emitted when @widget is going to be mapped.
///
/// A widget is mapped when the widget is visible (which is controlled with
/// [`visible`][struct@crate::Widget#visible]) and all its parents up to the toplevel widget
/// are also visible.
///
/// The ::map signal can be used to determine whether a widget will be drawn,
/// for instance it can resume an animation that was stopped during the
/// emission of [`unmap`][struct@crate::Widget#unmap].
#[doc(alias = "map")]
fn connect_map<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn map_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"map\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
map_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
/// Emitted when a widget is activated via a mnemonic.
///
/// The default handler for this signal activates @widget if @group_cycling
/// is [`false`], or just makes @widget grab focus if @group_cycling is [`true`].
/// ## `group_cycling`
/// [`true`] if there are other widgets with the same mnemonic
///
/// # Returns
///
/// [`true`] to stop other handlers from being invoked for the event.
/// [`false`] to propagate the event further.
#[doc(alias = "mnemonic-activate")]
fn connect_mnemonic_activate<F: Fn(&Self, bool) -> glib::Propagation + 'static>(
&self,
f: F,
) -> SignalHandlerId {
unsafe extern "C" fn mnemonic_activate_trampoline<
P: IsA<Widget>,
F: Fn(&P, bool) -> glib::Propagation + 'static,
>(
this: *mut ffi::GtkWidget,
group_cycling: glib::ffi::gboolean,
f: glib::ffi::gpointer,
) -> glib::ffi::gboolean {
let f: &F = &*(f as *const F);
f(
Widget::from_glib_borrow(this).unsafe_cast_ref(),
from_glib(group_cycling),
)
.into_glib()
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"mnemonic-activate\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
mnemonic_activate_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
/// Emitted when the focus is moved.
///
/// The ::move-focus signal is a [keybinding signal](class.SignalAction.html).
///
/// The default bindings for this signal are <kbd>Tab</kbd> to move forward,
/// and <kbd>Shift</kbd>+<kbd>Tab</kbd> to move backward.
/// ## `direction`
/// the direction of the focus move
#[doc(alias = "move-focus")]
fn connect_move_focus<F: Fn(&Self, DirectionType) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn move_focus_trampoline<
P: IsA<Widget>,
F: Fn(&P, DirectionType) + 'static,
>(
this: *mut ffi::GtkWidget,
direction: ffi::GtkDirectionType,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(
Widget::from_glib_borrow(this).unsafe_cast_ref(),
from_glib(direction),
)
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"move-focus\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
move_focus_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
fn emit_move_focus(&self, direction: DirectionType) {
self.emit_by_name::<()>("move-focus", &[&direction]);
}
/// Emitted when the widget’s tooltip is about to be shown.
///
/// This happens when the [`has-tooltip`][struct@crate::Widget#has-tooltip] property
/// is [`true`] and the hover timeout has expired with the cursor hovering
/// "above" @widget; or emitted when @widget got focus in keyboard mode.
///
/// Using the given coordinates, the signal handler should determine
/// whether a tooltip should be shown for @widget. If this is the case
/// [`true`] should be returned, [`false`] otherwise. Note that if
/// @keyboard_mode is [`true`], the values of @x and @y are undefined and
/// should not be used.
///
/// The signal handler is free to manipulate @tooltip with the therefore
/// destined function calls.
/// ## `x`
/// the x coordinate of the cursor position where the request has
/// been emitted, relative to @widget's left side
/// ## `y`
/// the y coordinate of the cursor position where the request has
/// been emitted, relative to @widget's top
/// ## `keyboard_mode`
/// [`true`] if the tooltip was triggered using the keyboard
/// ## `tooltip`
/// a [`Tooltip`][crate::Tooltip]
///
/// # Returns
///
/// [`true`] if @tooltip should be shown right now, [`false`] otherwise.
#[doc(alias = "query-tooltip")]
fn connect_query_tooltip<F: Fn(&Self, i32, i32, bool, &Tooltip) -> bool + 'static>(
&self,
f: F,
) -> SignalHandlerId {
unsafe extern "C" fn query_tooltip_trampoline<
P: IsA<Widget>,
F: Fn(&P, i32, i32, bool, &Tooltip) -> bool + 'static,
>(
this: *mut ffi::GtkWidget,
x: libc::c_int,
y: libc::c_int,
keyboard_mode: glib::ffi::gboolean,
tooltip: *mut ffi::GtkTooltip,
f: glib::ffi::gpointer,
) -> glib::ffi::gboolean {
let f: &F = &*(f as *const F);
f(
Widget::from_glib_borrow(this).unsafe_cast_ref(),
x,
y,
from_glib(keyboard_mode),
&from_glib_borrow(tooltip),
)
.into_glib()
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"query-tooltip\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
query_tooltip_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
/// Emitted when @widget is associated with a [`gdk::Surface`][crate::gdk::Surface].
///
/// This means that [`realize()`][Self::realize()] has been called
/// or the widget has been mapped (that is, it is going to be drawn).
#[doc(alias = "realize")]
fn connect_realize<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn realize_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"realize\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
realize_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
/// Emitted when @widget is shown.
#[doc(alias = "show")]
fn connect_show<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn show_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"show\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
show_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
/// Emitted when the widget state changes.
///
/// See [`state_flags()`][Self::state_flags()].
/// ## `flags`
/// The previous state flags.
#[doc(alias = "state-flags-changed")]
fn connect_state_flags_changed<F: Fn(&Self, StateFlags) + 'static>(
&self,
f: F,
) -> SignalHandlerId {
unsafe extern "C" fn state_flags_changed_trampoline<
P: IsA<Widget>,
F: Fn(&P, StateFlags) + 'static,
>(
this: *mut ffi::GtkWidget,
flags: ffi::GtkStateFlags,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(
Widget::from_glib_borrow(this).unsafe_cast_ref(),
from_glib(flags),
)
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"state-flags-changed\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
state_flags_changed_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
/// Emitted when @widget is going to be unmapped.
///
/// A widget is unmapped when either it or any of its parents up to the
/// toplevel widget have been set as hidden.
///
/// As ::unmap indicates that a widget will not be shown any longer,
/// it can be used to, for example, stop an animation on the widget.
#[doc(alias = "unmap")]
fn connect_unmap<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn unmap_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"unmap\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
unmap_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
/// Emitted when the [`gdk::Surface`][crate::gdk::Surface] associated with @widget is destroyed.
///
/// This means that [`unrealize()`][Self::unrealize()] has been called
/// or the widget has been unmapped (that is, it is going to be hidden).
#[doc(alias = "unrealize")]
fn connect_unrealize<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn unrealize_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"unrealize\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
unrealize_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "can-focus")]
fn connect_can_focus_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_can_focus_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::can-focus\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_can_focus_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "can-target")]
fn connect_can_target_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_can_target_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::can-target\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_can_target_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "css-classes")]
fn connect_css_classes_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_css_classes_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::css-classes\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_css_classes_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "cursor")]
fn connect_cursor_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_cursor_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::cursor\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_cursor_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "focus-on-click")]
fn connect_focus_on_click_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_focus_on_click_trampoline<
P: IsA<Widget>,
F: Fn(&P) + 'static,
>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::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-on-click\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_focus_on_click_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "focusable")]
fn connect_focusable_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_focusable_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::focusable\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_focusable_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "halign")]
fn connect_halign_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_halign_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::halign\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_halign_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "has-default")]
fn connect_has_default_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_has_default_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::has-default\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_has_default_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "has-focus")]
fn connect_has_focus_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_has_focus_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::has-focus\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_has_focus_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "has-tooltip")]
fn connect_has_tooltip_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_has_tooltip_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::has-tooltip\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_has_tooltip_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "height-request")]
fn connect_height_request_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_height_request_trampoline<
P: IsA<Widget>,
F: Fn(&P) + 'static,
>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::height-request\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_height_request_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "hexpand")]
fn connect_hexpand_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_hexpand_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::hexpand\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_hexpand_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "hexpand-set")]
fn connect_hexpand_set_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_hexpand_set_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::hexpand-set\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_hexpand_set_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "layout-manager")]
fn connect_layout_manager_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_layout_manager_trampoline<
P: IsA<Widget>,
F: Fn(&P) + 'static,
>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::layout-manager\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_layout_manager_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "margin-bottom")]
fn connect_margin_bottom_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_margin_bottom_trampoline<
P: IsA<Widget>,
F: Fn(&P) + 'static,
>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::margin-bottom\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_margin_bottom_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "margin-end")]
fn connect_margin_end_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_margin_end_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::margin-end\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_margin_end_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "margin-start")]
fn connect_margin_start_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_margin_start_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::margin-start\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_margin_start_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "margin-top")]
fn connect_margin_top_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_margin_top_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::margin-top\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_margin_top_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "name")]
fn connect_name_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_name_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::name\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_name_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "opacity")]
fn connect_opacity_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_opacity_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::opacity\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_opacity_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "overflow")]
fn connect_overflow_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_overflow_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::overflow\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_overflow_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "parent")]
fn connect_parent_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_parent_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::parent\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_parent_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "receives-default")]
fn connect_receives_default_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_receives_default_trampoline<
P: IsA<Widget>,
F: Fn(&P) + 'static,
>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::receives-default\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_receives_default_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "root")]
fn connect_root_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_root_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::root\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_root_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "scale-factor")]
fn connect_scale_factor_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_scale_factor_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::scale-factor\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_scale_factor_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "sensitive")]
fn connect_sensitive_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_sensitive_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::sensitive\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_sensitive_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "tooltip-markup")]
fn connect_tooltip_markup_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_tooltip_markup_trampoline<
P: IsA<Widget>,
F: Fn(&P) + 'static,
>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::tooltip-markup\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_tooltip_markup_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "tooltip-text")]
fn connect_tooltip_text_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_tooltip_text_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::tooltip-text\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_tooltip_text_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "valign")]
fn connect_valign_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_valign_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::valign\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_valign_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "vexpand")]
fn connect_vexpand_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_vexpand_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::vexpand\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_vexpand_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "vexpand-set")]
fn connect_vexpand_set_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_vexpand_set_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::vexpand-set\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_vexpand_set_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "visible")]
fn connect_visible_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_visible_trampoline<P: IsA<Widget>, F: Fn(&P) + 'static>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::visible\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_visible_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
#[doc(alias = "width-request")]
fn connect_width_request_notify<F: Fn(&Self) + 'static>(&self, f: F) -> SignalHandlerId {
unsafe extern "C" fn notify_width_request_trampoline<
P: IsA<Widget>,
F: Fn(&P) + 'static,
>(
this: *mut ffi::GtkWidget,
_param_spec: glib::ffi::gpointer,
f: glib::ffi::gpointer,
) {
let f: &F = &*(f as *const F);
f(Widget::from_glib_borrow(this).unsafe_cast_ref())
}
unsafe {
let f: Box_<F> = Box_::new(f);
connect_raw(
self.as_ptr() as *mut _,
b"notify::width-request\0".as_ptr() as *const _,
Some(std::mem::transmute::<_, unsafe extern "C" fn()>(
notify_width_request_trampoline::<Self, F> as *const (),
)),
Box_::into_raw(f),
)
}
}
}
impl<O: IsA<Widget>> WidgetExt for O {}