//! Distribute content horizontally.
use crate::core::event::{self, Event};
use crate::core::layout::{self, Layout};
use crate::core::mouse;
use crate::core::overlay;
use crate::core::renderer;
use crate::core::widget::{Operation, Tree};
use crate::core::{
Alignment, Clipboard, Element, Length, Padding, Pixels, Rectangle, Shell,
Size, Vector, Widget,
};
/// A container that distributes its contents horizontally.
#[allow(missing_debug_implementations)]
pub struct Row<'a, Message, Theme = crate::Theme, Renderer = crate::Renderer> {
spacing: f32,
padding: Padding,
width: Length,
height: Length,
align_items: Alignment,
children: Vec<Element<'a, Message, Theme, Renderer>>,
}
impl<'a, Message, Theme, Renderer> Row<'a, Message, Theme, Renderer>
where
Renderer: crate::core::Renderer,
{
/// Creates an empty [`Row`].
pub fn new() -> Self {
Row {
spacing: 0.0,
padding: Padding::ZERO,
width: Length::Shrink,
height: Length::Shrink,
align_items: Alignment::Start,
children: Vec::new(),
}
}
/// Creates a [`Row`] with the given elements.
pub fn with_children(
children: impl IntoIterator<Item = Element<'a, Message, Theme, Renderer>>,
) -> Self {
children.into_iter().fold(Self::new(), Self::push)
}
/// Sets the horizontal spacing _between_ elements.
///
/// Custom margins per element do not exist in iced. You should use this
/// method instead! While less flexible, it helps you keep spacing between
/// elements consistent.
pub fn spacing(mut self, amount: impl Into<Pixels>) -> Self {
self.spacing = amount.into().0;
self
}
/// Sets the [`Padding`] of the [`Row`].
pub fn padding<P: Into<Padding>>(mut self, padding: P) -> Self {
self.padding = padding.into();
self
}
/// Sets the width of the [`Row`].
pub fn width(mut self, width: impl Into<Length>) -> Self {
self.width = width.into();
self
}
/// Sets the height of the [`Row`].
pub fn height(mut self, height: impl Into<Length>) -> Self {
self.height = height.into();
self
}
/// Sets the vertical alignment of the contents of the [`Row`] .
pub fn align_items(mut self, align: Alignment) -> Self {
self.align_items = align;
self
}
/// Adds an [`Element`] to the [`Row`].
pub fn push(
mut self,
child: impl Into<Element<'a, Message, Theme, Renderer>>,
) -> Self {
let child = child.into();
let size = child.as_widget().size_hint();
if size.width.is_fill() {
self.width = Length::Fill;
}
if size.height.is_fill() {
self.height = Length::Fill;
}
self.children.push(child);
self
}
}
impl<'a, Message, Renderer> Default for Row<'a, Message, Renderer>
where
Renderer: crate::core::Renderer,
{
fn default() -> Self {
Self::new()
}
}
impl<'a, Message, Theme, Renderer> Widget<Message, Theme, Renderer>
for Row<'a, Message, Theme, Renderer>
where
Renderer: crate::core::Renderer,
{
fn children(&self) -> Vec<Tree> {
self.children.iter().map(Tree::new).collect()
}
fn diff(&self, tree: &mut Tree) {
tree.diff_children(&self.children);
}
fn size(&self) -> Size<Length> {
Size {
width: self.width,
height: self.height,
}
}
fn layout(
&self,
tree: &mut Tree,
renderer: &Renderer,
limits: &layout::Limits,
) -> layout::Node {
layout::flex::resolve(
layout::flex::Axis::Horizontal,
renderer,
limits,
self.width,
self.height,
self.padding,
self.spacing,
self.align_items,
&self.children,
&mut tree.children,
)
}
fn operate(
&self,
tree: &mut Tree,
layout: Layout<'_>,
renderer: &Renderer,
operation: &mut dyn Operation<Message>,
) {
operation.container(None, layout.bounds(), &mut |operation| {
self.children
.iter()
.zip(&mut tree.children)
.zip(layout.children())
.for_each(|((child, state), layout)| {
child
.as_widget()
.operate(state, layout, renderer, operation);
});
});
}
fn on_event(
&mut self,
tree: &mut Tree,
event: Event,
layout: Layout<'_>,
cursor: mouse::Cursor,
renderer: &Renderer,
clipboard: &mut dyn Clipboard,
shell: &mut Shell<'_, Message>,
viewport: &Rectangle,
) -> event::Status {
self.children
.iter_mut()
.zip(&mut tree.children)
.zip(layout.children())
.map(|((child, state), layout)| {
child.as_widget_mut().on_event(
state,
event.clone(),
layout,
cursor,
renderer,
clipboard,
shell,
viewport,
)
})
.fold(event::Status::Ignored, event::Status::merge)
}
fn mouse_interaction(
&self,
tree: &Tree,
layout: Layout<'_>,
cursor: mouse::Cursor,
viewport: &Rectangle,
renderer: &Renderer,
) -> mouse::Interaction {
self.children
.iter()
.zip(&tree.children)
.zip(layout.children())
.map(|((child, state), layout)| {
child.as_widget().mouse_interaction(
state, layout, cursor, viewport, renderer,
)
})
.max()
.unwrap_or_default()
}
fn draw(
&self,
tree: &Tree,
renderer: &mut Renderer,
theme: &Theme,
style: &renderer::Style,
layout: Layout<'_>,
cursor: mouse::Cursor,
viewport: &Rectangle,
) {
if let Some(viewport) = layout.bounds().intersection(viewport) {
for ((child, state), layout) in self
.children
.iter()
.zip(&tree.children)
.zip(layout.children())
{
child.as_widget().draw(
state, renderer, theme, style, layout, cursor, &viewport,
);
}
}
}
fn overlay<'b>(
&'b mut self,
tree: &'b mut Tree,
layout: Layout<'_>,
renderer: &Renderer,
translation: Vector,
) -> Option<overlay::Element<'b, Message, Theme, Renderer>> {
overlay::from_children(
&mut self.children,
tree,
layout,
renderer,
translation,
)
}
}
impl<'a, Message, Theme, Renderer> From<Row<'a, Message, Theme, Renderer>>
for Element<'a, Message, Theme, Renderer>
where
Message: 'a,
Theme: 'a,
Renderer: crate::core::Renderer + 'a,
{
fn from(row: Row<'a, Message, Theme, Renderer>) -> Self {
Self::new(row)
}
}