Struct druid::widget::ControllerHost
source · pub struct ControllerHost<W, C> { /* private fields */ }
Expand description
A Widget
that manages a child and a Controller
.
Implementations§
source§impl<W, C> ControllerHost<W, C>
impl<W, C> ControllerHost<W, C>
sourcepub fn new(widget: W, controller: C) -> ControllerHost<W, C>
pub fn new(widget: W, controller: C) -> ControllerHost<W, C>
Create a new ControllerHost
.
Examples found in repository?
examples/multiwin.rs (line 76)
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fn ui_builder() -> impl Widget<State> {
let text = LocalizedString::new("hello-counter")
.with_arg("count", |data: &State, _env| data.menu_count.into());
let label = Label::new(text);
let inc_button =
Button::<State>::new("Add menu item").on_click(|_ctx, data, _env| data.menu_count += 1);
let dec_button = Button::<State>::new("Remove menu item")
.on_click(|_ctx, data, _env| data.menu_count = data.menu_count.saturating_sub(1));
let new_button = Button::<State>::new("New window").on_click(|ctx, _data, _env| {
ctx.submit_command(sys_cmds::NEW_FILE.to(Global));
});
let quit_button = Button::<State>::new("Quit app").on_click(|_ctx, _data, _env| {
Application::global().quit();
});
let mut col = Flex::column();
col.add_flex_child(Align::centered(Padding::new(5.0, label)), 1.0);
let mut row = Flex::row();
row.add_child(Padding::new(5.0, inc_button));
row.add_child(Padding::new(5.0, dec_button));
col.add_flex_child(Align::centered(row), 1.0);
let mut row = Flex::row();
row.add_child(Padding::new(5.0, new_button));
row.add_child(Padding::new(5.0, quit_button));
col.add_flex_child(Align::centered(row), 1.0);
let content = ControllerHost::new(col, ContextMenuController);
Glow::new(content)
}
More examples
examples/sub_window.rs (lines 335-340)
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fn build_root_widget() -> impl Widget<HelloState> {
let label = EnvScope::new(
|env, _t| env.set(theme::TEXT_COLOR, env.get(theme::PRIMARY_LIGHT)),
ControllerHost::new(
Label::new(|data: &HelloState, _env: &Env| {
format!("Hello {}! {} ", data.name, data.sub.my_stuff)
}),
TooltipController::new("Tips! Are good"),
),
);
// a textbox that modifies `name`.
let textbox = TextBox::new()
.with_placeholder("Who are we greeting?")
.fix_width(TEXT_BOX_WIDTH)
.lens(HelloState::sub.then(SubState::my_stuff));
let button = Button::new("Make sub window")
.on_click(|ctx, data: &mut SubState, env| {
let tb = TextBox::new().lens(SubState::my_stuff);
let drag_thing = Label::new("Drag me").controller(DragWindowController::new());
let col = Flex::column().with_child(drag_thing).with_child(tb);
ctx.new_sub_window(
WindowConfig::default()
.show_titlebar(false)
.window_size(Size::new(100., 100.))
.set_level(WindowLevel::AppWindow),
col,
data.clone(),
env.clone(),
);
})
.center()
.lens(HelloState::sub);
let check_box =
ControllerHost::new(Checkbox::new("Closeable?"), CancelClose).lens(HelloState::closeable);
// arrange the two widgets vertically, with some padding
let layout = Flex::column()
.with_child(label)
.with_flex_child(ScreenThing.lens(Unit::default()).padding(5.), 1.)
.with_spacer(VERTICAL_WIDGET_SPACING)
.with_child(textbox)
.with_child(button)
.with_child(check_box);
// center the two widgets in the available space
Align::centered(layout)
}
Trait Implementations§
source§impl<T, W: Widget<T>, C: Controller<T, W>> Widget<T> for ControllerHost<W, C>
impl<T, W: Widget<T>, C: Controller<T, W>> Widget<T> for ControllerHost<W, C>
source§fn event(
&mut self,
ctx: &mut EventCtx<'_, '_>,
event: &Event,
data: &mut T,
env: &Env
)
fn event( &mut self, ctx: &mut EventCtx<'_, '_>, event: &Event, data: &mut T, env: &Env )
Handle an event. Read more
source§fn lifecycle(
&mut self,
ctx: &mut LifeCycleCtx<'_, '_>,
event: &LifeCycle,
data: &T,
env: &Env
)
fn lifecycle( &mut self, ctx: &mut LifeCycleCtx<'_, '_>, event: &LifeCycle, data: &T, env: &Env )
Handle a life cycle notification. Read more
source§fn layout(
&mut self,
ctx: &mut LayoutCtx<'_, '_>,
bc: &BoxConstraints,
data: &T,
env: &Env
) -> Size
fn layout( &mut self, ctx: &mut LayoutCtx<'_, '_>, bc: &BoxConstraints, data: &T, env: &Env ) -> Size
Compute layout. Read more
source§fn paint(&mut self, ctx: &mut PaintCtx<'_, '_, '_>, data: &T, env: &Env)
fn paint(&mut self, ctx: &mut PaintCtx<'_, '_, '_>, data: &T, env: &Env)
Paint the widget appearance. Read more
source§fn compute_max_intrinsic(
&mut self,
axis: Axis,
ctx: &mut LayoutCtx<'_, '_>,
bc: &BoxConstraints,
data: &T,
env: &Env
) -> f64
fn compute_max_intrinsic( &mut self, axis: Axis, ctx: &mut LayoutCtx<'_, '_>, bc: &BoxConstraints, data: &T, env: &Env ) -> f64
Computes max intrinsic/preferred dimension of a widget on the provided axis. Read more
source§impl<W, C> WidgetWrapper for ControllerHost<W, C>
impl<W, C> WidgetWrapper for ControllerHost<W, C>
§type Wrapped = W
type Wrapped = W
The type of the wrapped widget.
Maybe we would like to constrain this to
Widget<impl Data>
(if existential bounds were supported).
Any other scheme leads to T
being unconstrained in unification at some pointsource§fn wrapped_mut(&mut self) -> &mut Self::Wrapped
fn wrapped_mut(&mut self) -> &mut Self::Wrapped
Get mutable access to the wrapped child
Auto Trait Implementations§
impl<W, C> RefUnwindSafe for ControllerHost<W, C>where C: RefUnwindSafe, W: RefUnwindSafe,
impl<W, C> Send for ControllerHost<W, C>where C: Send, W: Send,
impl<W, C> Sync for ControllerHost<W, C>where C: Sync, W: Sync,
impl<W, C> Unpin for ControllerHost<W, C>where C: Unpin, W: Unpin,
impl<W, C> UnwindSafe for ControllerHost<W, C>where C: UnwindSafe, W: UnwindSafe,
Blanket Implementations§
source§impl<T> Instrument for T
impl<T> Instrument for T
source§fn instrument(self, span: Span) -> Instrumented<Self>
fn instrument(self, span: Span) -> Instrumented<Self>
source§fn in_current_span(self) -> Instrumented<Self>
fn in_current_span(self) -> Instrumented<Self>
§impl<T> RoundFrom<T> for T
impl<T> RoundFrom<T> for T
§fn round_from(x: T) -> T
fn round_from(x: T) -> T
Performs the conversion.
§impl<T, U> RoundInto<U> for Twhere
U: RoundFrom<T>,
impl<T, U> RoundInto<U> for Twhere U: RoundFrom<T>,
§fn round_into(self) -> U
fn round_into(self) -> U
Performs the conversion.