use crate::{ point, px, Action, AnyDrag, AnyElement, AnyTooltip, AnyView, AppContext, BorrowAppContext, BorrowWindow, Bounds, ClickEvent, DispatchPhase, Element, ElementId, FocusEvent, FocusHandle, KeyContext, KeyDownEvent, KeyUpEvent, LayoutId, MouseButton, MouseDownEvent, MouseMoveEvent, MouseUpEvent, ParentElement, Pixels, Point, Render, RenderOnce, ScrollWheelEvent, SharedString, Size, Style, StyleRefinement, Styled, Task, View, Visibility, WindowContext, }; use collections::HashMap; use refineable::Refineable; use smallvec::SmallVec; use std::{ any::{Any, TypeId}, cell::RefCell, fmt::Debug, mem, rc::Rc, time::Duration, }; use taffy::style::Overflow; use util::ResultExt; const DRAG_THRESHOLD: f64 = 2.; const TOOLTIP_DELAY: Duration = Duration::from_millis(500); pub struct GroupStyle { pub group: SharedString, pub style: StyleRefinement, } pub trait InteractiveElement: Sized + Element { fn interactivity(&mut self) -> &mut Interactivity; fn group(mut self, group: impl Into) -> Self { self.interactivity().group = Some(group.into()); self } fn id(mut self, id: impl Into) -> Stateful { self.interactivity().element_id = Some(id.into()); Stateful { element: self } } fn track_focus(mut self, focus_handle: &FocusHandle) -> Focusable { self.interactivity().focusable = true; self.interactivity().tracked_focus_handle = Some(focus_handle.clone()); Focusable { element: self } } fn key_context(mut self, key_context: C) -> Self where C: TryInto, E: Debug, { if let Some(key_context) = key_context.try_into().log_err() { self.interactivity().key_context = key_context; } self } fn hover(mut self, f: impl FnOnce(StyleRefinement) -> StyleRefinement) -> Self { self.interactivity().hover_style = f(StyleRefinement::default()); self } fn group_hover( mut self, group_name: impl Into, f: impl FnOnce(StyleRefinement) -> StyleRefinement, ) -> Self { self.interactivity().group_hover_style = Some(GroupStyle { group: group_name.into(), style: f(StyleRefinement::default()), }); self } fn on_mouse_down( mut self, button: MouseButton, listener: impl Fn(&MouseDownEvent, &mut WindowContext) + 'static, ) -> Self { self.interactivity().mouse_down_listeners.push(Box::new( move |event, bounds, phase, cx| { if phase == DispatchPhase::Bubble && event.button == button && bounds.contains_point(&event.position) { (listener)(event, cx) } }, )); self } fn on_any_mouse_down( mut self, listener: impl Fn(&MouseDownEvent, &mut WindowContext) + 'static, ) -> Self { self.interactivity().mouse_down_listeners.push(Box::new( move |event, bounds, phase, cx| { if phase == DispatchPhase::Bubble && bounds.contains_point(&event.position) { (listener)(event, cx) } }, )); self } fn on_mouse_up( mut self, button: MouseButton, listener: impl Fn(&MouseUpEvent, &mut WindowContext) + 'static, ) -> Self { self.interactivity() .mouse_up_listeners .push(Box::new(move |event, bounds, phase, cx| { if phase == DispatchPhase::Bubble && event.button == button && bounds.contains_point(&event.position) { (listener)(event, cx) } })); self } fn on_any_mouse_up( mut self, listener: impl Fn(&MouseUpEvent, &mut WindowContext) + 'static, ) -> Self { self.interactivity() .mouse_up_listeners .push(Box::new(move |event, bounds, phase, cx| { if phase == DispatchPhase::Bubble && bounds.contains_point(&event.position) { (listener)(event, cx) } })); self } fn on_mouse_down_out( mut self, listener: impl Fn(&MouseDownEvent, &mut WindowContext) + 'static, ) -> Self { self.interactivity().mouse_down_listeners.push(Box::new( move |event, bounds, phase, cx| { if phase == DispatchPhase::Capture && !bounds.contains_point(&event.position) { (listener)(event, cx) } }, )); self } fn on_mouse_up_out( mut self, button: MouseButton, listener: impl Fn(&MouseUpEvent, &mut WindowContext) + 'static, ) -> Self { self.interactivity() .mouse_up_listeners .push(Box::new(move |event, bounds, phase, cx| { if phase == DispatchPhase::Capture && event.button == button && !bounds.contains_point(&event.position) { (listener)(event, cx); } })); self } fn on_mouse_move( mut self, listener: impl Fn(&MouseMoveEvent, &mut WindowContext) + 'static, ) -> Self { self.interactivity().mouse_move_listeners.push(Box::new( move |event, bounds, phase, cx| { if phase == DispatchPhase::Bubble && bounds.contains_point(&event.position) { (listener)(event, cx); } }, )); self } fn on_scroll_wheel( mut self, listener: impl Fn(&ScrollWheelEvent, &mut WindowContext) + 'static, ) -> Self { self.interactivity().scroll_wheel_listeners.push(Box::new( move |event, bounds, phase, cx| { if phase == DispatchPhase::Bubble && bounds.contains_point(&event.position) { (listener)(event, cx); } }, )); self } /// Capture the given action, before normal action dispatch can fire fn capture_action( mut self, listener: impl Fn(&A, &mut WindowContext) + 'static, ) -> Self { self.interactivity().action_listeners.push(( TypeId::of::(), Box::new(move |action, phase, cx| { let action = action.downcast_ref().unwrap(); if phase == DispatchPhase::Capture { (listener)(action, cx) } }), )); self } /// Add a listener for the given action, fires during the bubble event phase fn on_action(mut self, listener: impl Fn(&A, &mut WindowContext) + 'static) -> Self { // NOTE: this debug assert has the side-effect of working around // a bug where a crate consisting only of action definitions does // not register the actions in debug builds: // // https://github.com/rust-lang/rust/issues/47384 // https://github.com/mmastrac/rust-ctor/issues/280 // // if we are relying on this side-effect still, removing the debug_assert! // likely breaks the command_palette tests. // debug_assert!( // A::is_registered(), // "{:?} is not registered as an action", // A::qualified_name() // ); self.interactivity().action_listeners.push(( TypeId::of::(), Box::new(move |action, phase, cx| { let action = action.downcast_ref().unwrap(); if phase == DispatchPhase::Bubble { (listener)(action, cx) } }), )); self } fn on_key_down( mut self, listener: impl Fn(&KeyDownEvent, &mut WindowContext) + 'static, ) -> Self { self.interactivity() .key_down_listeners .push(Box::new(move |event, phase, cx| { if phase == DispatchPhase::Bubble { (listener)(event, cx) } })); self } fn capture_key_down( mut self, listener: impl Fn(&KeyDownEvent, &mut WindowContext) + 'static, ) -> Self { self.interactivity() .key_down_listeners .push(Box::new(move |event, phase, cx| { if phase == DispatchPhase::Capture { listener(event, cx) } })); self } fn on_key_up(mut self, listener: impl Fn(&KeyUpEvent, &mut WindowContext) + 'static) -> Self { self.interactivity() .key_up_listeners .push(Box::new(move |event, phase, cx| { if phase == DispatchPhase::Bubble { listener(event, cx) } })); self } fn capture_key_up( mut self, listener: impl Fn(&KeyUpEvent, &mut WindowContext) + 'static, ) -> Self { self.interactivity() .key_up_listeners .push(Box::new(move |event, phase, cx| { if phase == DispatchPhase::Capture { listener(event, cx) } })); self } fn drag_over(mut self, f: impl FnOnce(StyleRefinement) -> StyleRefinement) -> Self { self.interactivity() .drag_over_styles .push((TypeId::of::(), f(StyleRefinement::default()))); self } fn group_drag_over( mut self, group_name: impl Into, f: impl FnOnce(StyleRefinement) -> StyleRefinement, ) -> Self { self.interactivity().group_drag_over_styles.push(( TypeId::of::(), GroupStyle { group: group_name.into(), style: f(StyleRefinement::default()), }, )); self } fn on_drop( mut self, listener: impl Fn(&View, &mut WindowContext) + 'static, ) -> Self { self.interactivity().drop_listeners.push(( TypeId::of::(), Box::new(move |dragged_view, cx| { listener(&dragged_view.downcast().unwrap(), cx); }), )); self } } pub trait StatefulInteractiveElement: InteractiveElement { fn focusable(mut self) -> Focusable { self.interactivity().focusable = true; Focusable { element: self } } fn overflow_scroll(mut self) -> Self { self.interactivity().base_style.overflow.x = Some(Overflow::Scroll); self.interactivity().base_style.overflow.y = Some(Overflow::Scroll); self } fn overflow_x_scroll(mut self) -> Self { self.interactivity().base_style.overflow.x = Some(Overflow::Scroll); self } fn overflow_y_scroll(mut self) -> Self { self.interactivity().base_style.overflow.y = Some(Overflow::Scroll); self } fn active(mut self, f: impl FnOnce(StyleRefinement) -> StyleRefinement) -> Self where Self: Sized, { self.interactivity().active_style = f(StyleRefinement::default()); self } fn group_active( mut self, group_name: impl Into, f: impl FnOnce(StyleRefinement) -> StyleRefinement, ) -> Self where Self: Sized, { self.interactivity().group_active_style = Some(GroupStyle { group: group_name.into(), style: f(StyleRefinement::default()), }); self } fn on_click(mut self, listener: impl Fn(&ClickEvent, &mut WindowContext) + 'static) -> Self where Self: Sized, { self.interactivity() .click_listeners .push(Box::new(move |event, cx| listener(event, cx))); self } fn on_drag(mut self, listener: impl Fn(&mut WindowContext) -> View + 'static) -> Self where Self: Sized, W: 'static + Render, { debug_assert!( self.interactivity().drag_listener.is_none(), "calling on_drag more than once on the same element is not supported" ); self.interactivity().drag_listener = Some(Box::new(move |cursor_offset, cx| AnyDrag { view: listener(cx).into(), cursor_offset, })); self } fn on_hover(mut self, listener: impl Fn(&bool, &mut WindowContext) + 'static) -> Self where Self: Sized, { debug_assert!( self.interactivity().hover_listener.is_none(), "calling on_hover more than once on the same element is not supported" ); self.interactivity().hover_listener = Some(Box::new(listener)); self } fn tooltip(mut self, build_tooltip: impl Fn(&mut WindowContext) -> AnyView + 'static) -> Self where Self: Sized, { debug_assert!( self.interactivity().tooltip_builder.is_none(), "calling tooltip more than once on the same element is not supported" ); self.interactivity().tooltip_builder = Some(Rc::new(build_tooltip)); self } } pub trait FocusableElement: InteractiveElement { fn focus(mut self, f: impl FnOnce(StyleRefinement) -> StyleRefinement) -> Self where Self: Sized, { self.interactivity().focus_style = f(StyleRefinement::default()); self } fn in_focus(mut self, f: impl FnOnce(StyleRefinement) -> StyleRefinement) -> Self where Self: Sized, { self.interactivity().in_focus_style = f(StyleRefinement::default()); self } fn on_focus(mut self, listener: impl Fn(&FocusEvent, &mut WindowContext) + 'static) -> Self where Self: Sized, { self.interactivity() .focus_listeners .push(Box::new(move |focus_handle, event, cx| { if event.focused.as_ref() == Some(focus_handle) { listener(event, cx) } })); self } fn on_blur(mut self, listener: impl Fn(&FocusEvent, &mut WindowContext) + 'static) -> Self where Self: Sized, { self.interactivity() .focus_listeners .push(Box::new(move |focus_handle, event, cx| { if event.blurred.as_ref() == Some(focus_handle) { listener(event, cx) } })); self } fn on_focus_in(mut self, listener: impl Fn(&FocusEvent, &mut WindowContext) + 'static) -> Self where Self: Sized, { self.interactivity() .focus_listeners .push(Box::new(move |focus_handle, event, cx| { let descendant_blurred = event .blurred .as_ref() .map_or(false, |blurred| focus_handle.contains(blurred, cx)); let descendant_focused = event .focused .as_ref() .map_or(false, |focused| focus_handle.contains(focused, cx)); if !descendant_blurred && descendant_focused { listener(event, cx) } })); self } fn on_focus_out(mut self, listener: impl Fn(&FocusEvent, &mut WindowContext) + 'static) -> Self where Self: Sized, { self.interactivity() .focus_listeners .push(Box::new(move |focus_handle, event, cx| { let descendant_blurred = event .blurred .as_ref() .map_or(false, |blurred| focus_handle.contains(blurred, cx)); let descendant_focused = event .focused .as_ref() .map_or(false, |focused| focus_handle.contains(focused, cx)); if descendant_blurred && !descendant_focused { listener(event, cx) } })); self } } pub type FocusListeners = SmallVec<[FocusListener; 2]>; pub type FocusListener = Box; pub type MouseDownListener = Box, DispatchPhase, &mut WindowContext) + 'static>; pub type MouseUpListener = Box, DispatchPhase, &mut WindowContext) + 'static>; pub type MouseMoveListener = Box, DispatchPhase, &mut WindowContext) + 'static>; pub type ScrollWheelListener = Box, DispatchPhase, &mut WindowContext) + 'static>; pub type ClickListener = Box; pub type DragListener = Box, &mut WindowContext) -> AnyDrag + 'static>; type DropListener = dyn Fn(AnyView, &mut WindowContext) + 'static; pub type TooltipBuilder = Rc AnyView + 'static>; pub type KeyDownListener = Box; pub type KeyUpListener = Box; pub type ActionListener = Box; pub fn div() -> Div { Div { interactivity: Interactivity::default(), children: SmallVec::default(), } } pub struct Div { interactivity: Interactivity, children: SmallVec<[AnyElement; 2]>, } impl Styled for Div { fn style(&mut self) -> &mut StyleRefinement { &mut self.interactivity.base_style } } impl InteractiveElement for Div { fn interactivity(&mut self) -> &mut Interactivity { &mut self.interactivity } } impl ParentElement for Div { fn children_mut(&mut self) -> &mut SmallVec<[AnyElement; 2]> { &mut self.children } } impl Element for Div { type State = DivState; fn layout( &mut self, element_state: Option, cx: &mut WindowContext, ) -> (LayoutId, Self::State) { let mut child_layout_ids = SmallVec::new(); let mut interactivity = mem::take(&mut self.interactivity); let (layout_id, interactive_state) = interactivity.layout( element_state.map(|s| s.interactive_state), cx, |style, cx| { cx.with_text_style(style.text_style().cloned(), |cx| { child_layout_ids = self .children .iter_mut() .map(|child| child.layout(cx)) .collect::>(); cx.request_layout(&style, child_layout_ids.iter().copied()) }) }, ); self.interactivity = interactivity; ( layout_id, DivState { interactive_state, child_layout_ids, }, ) } fn paint( self, bounds: Bounds, element_state: &mut Self::State, cx: &mut WindowContext, ) { let mut child_min = point(Pixels::MAX, Pixels::MAX); let mut child_max = Point::default(); let content_size = if element_state.child_layout_ids.is_empty() { bounds.size } else { for child_layout_id in &element_state.child_layout_ids { let child_bounds = cx.layout_bounds(*child_layout_id); child_min = child_min.min(&child_bounds.origin); child_max = child_max.max(&child_bounds.lower_right()); } (child_max - child_min).into() }; self.interactivity.paint( bounds, content_size, &mut element_state.interactive_state, cx, |style, scroll_offset, cx| { if style.visibility == Visibility::Hidden { return; } let z_index = style.z_index.unwrap_or(0); cx.with_z_index(z_index, |cx| { cx.with_z_index(0, |cx| { style.paint(bounds, cx); }); cx.with_z_index(1, |cx| { cx.with_text_style(style.text_style().cloned(), |cx| { cx.with_content_mask(style.overflow_mask(bounds), |cx| { cx.with_element_offset(scroll_offset, |cx| { for child in self.children { child.paint(cx); } }) }) }) }) }) }, ); } } impl RenderOnce for Div { type Element = Self; fn element_id(&self) -> Option { self.interactivity.element_id.clone() } fn render_once(self) -> Self::Element { self } } pub struct DivState { child_layout_ids: SmallVec<[LayoutId; 4]>, interactive_state: InteractiveElementState, } impl DivState { pub fn is_active(&self) -> bool { self.interactive_state.pending_mouse_down.borrow().is_some() } } pub struct Interactivity { pub element_id: Option, pub key_context: KeyContext, pub focusable: bool, pub tracked_focus_handle: Option, pub focus_listeners: FocusListeners, pub group: Option, pub base_style: StyleRefinement, pub focus_style: StyleRefinement, pub in_focus_style: StyleRefinement, pub hover_style: StyleRefinement, pub group_hover_style: Option, pub active_style: StyleRefinement, pub group_active_style: Option, pub drag_over_styles: SmallVec<[(TypeId, StyleRefinement); 2]>, pub group_drag_over_styles: SmallVec<[(TypeId, GroupStyle); 2]>, pub mouse_down_listeners: SmallVec<[MouseDownListener; 2]>, pub mouse_up_listeners: SmallVec<[MouseUpListener; 2]>, pub mouse_move_listeners: SmallVec<[MouseMoveListener; 2]>, pub scroll_wheel_listeners: SmallVec<[ScrollWheelListener; 2]>, pub key_down_listeners: SmallVec<[KeyDownListener; 2]>, pub key_up_listeners: SmallVec<[KeyUpListener; 2]>, pub action_listeners: SmallVec<[(TypeId, ActionListener); 8]>, pub drop_listeners: SmallVec<[(TypeId, Box); 2]>, pub click_listeners: SmallVec<[ClickListener; 2]>, pub drag_listener: Option, pub hover_listener: Option>, pub tooltip_builder: Option, } impl Interactivity { pub fn layout( &mut self, element_state: Option, cx: &mut WindowContext, f: impl FnOnce(Style, &mut WindowContext) -> LayoutId, ) -> (LayoutId, InteractiveElementState) { let mut element_state = element_state.unwrap_or_default(); // Ensure we store a focus handle in our element state if we're focusable. // If there's an explicit focus handle we're tracking, use that. Otherwise // create a new handle and store it in the element state, which lives for as // as frames contain an element with this id. if self.focusable { element_state.focus_handle.get_or_insert_with(|| { self.tracked_focus_handle .clone() .unwrap_or_else(|| cx.focus_handle()) }); } let style = self.compute_style(None, &mut element_state, cx); let layout_id = f(style, cx); (layout_id, element_state) } pub fn paint( mut self, bounds: Bounds, content_size: Size, element_state: &mut InteractiveElementState, cx: &mut WindowContext, f: impl FnOnce(Style, Point, &mut WindowContext), ) { let style = self.compute_style(Some(bounds), element_state, cx); if let Some(mouse_cursor) = style.mouse_cursor { let hovered = bounds.contains_point(&cx.mouse_position()); if hovered { cx.set_cursor_style(mouse_cursor); } } for listener in self.mouse_down_listeners.drain(..) { cx.on_mouse_event(move |event: &MouseDownEvent, phase, cx| { listener(event, &bounds, phase, cx); }) } for listener in self.mouse_up_listeners.drain(..) { cx.on_mouse_event(move |event: &MouseUpEvent, phase, cx| { listener(event, &bounds, phase, cx); }) } for listener in self.mouse_move_listeners.drain(..) { cx.on_mouse_event(move |event: &MouseMoveEvent, phase, cx| { listener(event, &bounds, phase, cx); }) } for listener in self.scroll_wheel_listeners.drain(..) { cx.on_mouse_event(move |event: &ScrollWheelEvent, phase, cx| { listener(event, &bounds, phase, cx); }) } let hover_group_bounds = self .group_hover_style .as_ref() .and_then(|group_hover| GroupBounds::get(&group_hover.group, cx)); if let Some(group_bounds) = hover_group_bounds { let hovered = group_bounds.contains_point(&cx.mouse_position()); cx.on_mouse_event(move |event: &MouseMoveEvent, phase, cx| { if phase == DispatchPhase::Capture { if group_bounds.contains_point(&event.position) != hovered { cx.notify(); } } }); } if self.hover_style.is_some() || (cx.active_drag.is_some() && !self.drag_over_styles.is_empty()) { let hovered = bounds.contains_point(&cx.mouse_position()); cx.on_mouse_event(move |event: &MouseMoveEvent, phase, cx| { if phase == DispatchPhase::Capture { if bounds.contains_point(&event.position) != hovered { cx.notify(); } } }); } if cx.active_drag.is_some() { let drop_listeners = mem::take(&mut self.drop_listeners); cx.on_mouse_event(move |event: &MouseUpEvent, phase, cx| { if phase == DispatchPhase::Bubble && bounds.contains_point(&event.position) { if let Some(drag_state_type) = cx.active_drag.as_ref().map(|drag| drag.view.entity_type()) { for (drop_state_type, listener) in &drop_listeners { if *drop_state_type == drag_state_type { let drag = cx .active_drag .take() .expect("checked for type drag state type above"); listener(drag.view.clone(), cx); cx.notify(); cx.stop_propagation(); } } } } }); } let click_listeners = mem::take(&mut self.click_listeners); let drag_listener = mem::take(&mut self.drag_listener); if !click_listeners.is_empty() || drag_listener.is_some() { let pending_mouse_down = element_state.pending_mouse_down.clone(); let mouse_down = pending_mouse_down.borrow().clone(); if let Some(mouse_down) = mouse_down { if let Some(drag_listener) = drag_listener { let active_state = element_state.clicked_state.clone(); cx.on_mouse_event(move |event: &MouseMoveEvent, phase, cx| { if cx.active_drag.is_some() { if phase == DispatchPhase::Capture { cx.notify(); } } else if phase == DispatchPhase::Bubble && bounds.contains_point(&event.position) && (event.position - mouse_down.position).magnitude() > DRAG_THRESHOLD { *active_state.borrow_mut() = ElementClickedState::default(); let cursor_offset = event.position - bounds.origin; let drag = drag_listener(cursor_offset, cx); cx.active_drag = Some(drag); cx.notify(); cx.stop_propagation(); } }); } cx.on_mouse_event(move |event: &MouseUpEvent, phase, cx| { if phase == DispatchPhase::Bubble && bounds.contains_point(&event.position) { let mouse_click = ClickEvent { down: mouse_down.clone(), up: event.clone(), }; for listener in &click_listeners { listener(&mouse_click, cx); } } *pending_mouse_down.borrow_mut() = None; cx.notify(); }); } else { cx.on_mouse_event(move |event: &MouseDownEvent, phase, cx| { if phase == DispatchPhase::Bubble && bounds.contains_point(&event.position) { *pending_mouse_down.borrow_mut() = Some(event.clone()); cx.notify(); } }); } } if let Some(hover_listener) = self.hover_listener.take() { let was_hovered = element_state.hover_state.clone(); let has_mouse_down = element_state.pending_mouse_down.clone(); cx.on_mouse_event(move |event: &MouseMoveEvent, phase, cx| { if phase != DispatchPhase::Bubble { return; } let is_hovered = bounds.contains_point(&event.position) && has_mouse_down.borrow().is_none(); let mut was_hovered = was_hovered.borrow_mut(); if is_hovered != was_hovered.clone() { *was_hovered = is_hovered; drop(was_hovered); hover_listener(&is_hovered, cx); } }); } if let Some(tooltip_builder) = self.tooltip_builder.take() { let active_tooltip = element_state.active_tooltip.clone(); let pending_mouse_down = element_state.pending_mouse_down.clone(); cx.on_mouse_event(move |event: &MouseMoveEvent, phase, cx| { if phase != DispatchPhase::Bubble { return; } let is_hovered = bounds.contains_point(&event.position) && pending_mouse_down.borrow().is_none(); if !is_hovered { active_tooltip.borrow_mut().take(); return; } if active_tooltip.borrow().is_none() { let task = cx.spawn({ let active_tooltip = active_tooltip.clone(); let tooltip_builder = tooltip_builder.clone(); move |mut cx| async move { cx.background_executor().timer(TOOLTIP_DELAY).await; cx.update(|_, cx| { active_tooltip.borrow_mut().replace(ActiveTooltip { tooltip: Some(AnyTooltip { view: tooltip_builder(cx), cursor_offset: cx.mouse_position(), }), _task: None, }); cx.notify(); }) .ok(); } }); active_tooltip.borrow_mut().replace(ActiveTooltip { tooltip: None, _task: Some(task), }); } }); let active_tooltip = element_state.active_tooltip.clone(); cx.on_mouse_event(move |_: &MouseDownEvent, _, _| { active_tooltip.borrow_mut().take(); }); if let Some(active_tooltip) = element_state.active_tooltip.borrow().as_ref() { if active_tooltip.tooltip.is_some() { cx.active_tooltip = active_tooltip.tooltip.clone() } } } let active_state = element_state.clicked_state.clone(); if !active_state.borrow().is_clicked() { cx.on_mouse_event(move |_: &MouseUpEvent, phase, cx| { if phase == DispatchPhase::Capture { *active_state.borrow_mut() = ElementClickedState::default(); cx.notify(); } }); } else { let active_group_bounds = self .group_active_style .as_ref() .and_then(|group_active| GroupBounds::get(&group_active.group, cx)); cx.on_mouse_event(move |down: &MouseDownEvent, phase, cx| { if phase == DispatchPhase::Bubble { let group = active_group_bounds .map_or(false, |bounds| bounds.contains_point(&down.position)); let element = bounds.contains_point(&down.position); if group || element { *active_state.borrow_mut() = ElementClickedState { group, element }; cx.notify(); } } }); } let overflow = style.overflow; if overflow.x == Overflow::Scroll || overflow.y == Overflow::Scroll { let scroll_offset = element_state .scroll_offset .get_or_insert_with(Rc::default) .clone(); let line_height = cx.line_height(); let scroll_max = (content_size - bounds.size).max(&Size::default()); cx.on_mouse_event(move |event: &ScrollWheelEvent, phase, cx| { if phase == DispatchPhase::Bubble && bounds.contains_point(&event.position) { let mut scroll_offset = scroll_offset.borrow_mut(); let old_scroll_offset = *scroll_offset; let delta = event.delta.pixel_delta(line_height); if overflow.x == Overflow::Scroll { scroll_offset.x = (scroll_offset.x + delta.x).clamp(-scroll_max.width, px(0.)); } if overflow.y == Overflow::Scroll { scroll_offset.y = (scroll_offset.y + delta.y).clamp(-scroll_max.height, px(0.)); } if *scroll_offset != old_scroll_offset { cx.notify(); cx.stop_propagation(); } } }); } if let Some(group) = self.group.clone() { GroupBounds::push(group, bounds, cx); } let scroll_offset = element_state .scroll_offset .as_ref() .map(|scroll_offset| *scroll_offset.borrow()); cx.with_key_dispatch( self.key_context.clone(), element_state.focus_handle.clone(), |_, cx| { for listener in self.key_down_listeners.drain(..) { cx.on_key_event(move |event: &KeyDownEvent, phase, cx| { listener(event, phase, cx); }) } for listener in self.key_up_listeners.drain(..) { cx.on_key_event(move |event: &KeyUpEvent, phase, cx| { listener(event, phase, cx); }) } for (action_type, listener) in self.action_listeners { cx.on_action(action_type, listener) } if let Some(focus_handle) = element_state.focus_handle.as_ref() { for listener in self.focus_listeners { let focus_handle = focus_handle.clone(); cx.on_focus_changed(move |event, cx| listener(&focus_handle, event, cx)); } } f(style, scroll_offset.unwrap_or_default(), cx) }, ); if let Some(group) = self.group.as_ref() { GroupBounds::pop(group, cx); } } pub fn compute_style( &self, bounds: Option>, element_state: &mut InteractiveElementState, cx: &mut WindowContext, ) -> Style { let mut style = Style::default(); style.refine(&self.base_style); if let Some(focus_handle) = self.tracked_focus_handle.as_ref() { if focus_handle.within_focused(cx) { style.refine(&self.in_focus_style); } if focus_handle.is_focused(cx) { style.refine(&self.focus_style); } } if let Some(bounds) = bounds { let mouse_position = cx.mouse_position(); if let Some(group_hover) = self.group_hover_style.as_ref() { if let Some(group_bounds) = GroupBounds::get(&group_hover.group, cx) { if group_bounds.contains_point(&mouse_position) { style.refine(&group_hover.style); } } } // if self.hover_style.is_some() { if bounds.contains_point(&mouse_position) { // eprintln!("div hovered {bounds:?} {mouse_position:?}"); style.refine(&self.hover_style); } else { // eprintln!("div NOT hovered {bounds:?} {mouse_position:?}"); } // } if let Some(drag) = cx.active_drag.take() { for (state_type, group_drag_style) in &self.group_drag_over_styles { if let Some(group_bounds) = GroupBounds::get(&group_drag_style.group, cx) { if *state_type == drag.view.entity_type() && group_bounds.contains_point(&mouse_position) { style.refine(&group_drag_style.style); } } } for (state_type, drag_over_style) in &self.drag_over_styles { if *state_type == drag.view.entity_type() && bounds.contains_point(&mouse_position) { style.refine(drag_over_style); } } cx.active_drag = Some(drag); } } let clicked_state = element_state.clicked_state.borrow(); if clicked_state.group { if let Some(group) = self.group_active_style.as_ref() { style.refine(&group.style) } } if clicked_state.element { style.refine(&self.active_style) } style } } impl Default for Interactivity { fn default() -> Self { Self { element_id: None, key_context: KeyContext::default(), focusable: false, tracked_focus_handle: None, focus_listeners: SmallVec::default(), // scroll_offset: Point::default(), group: None, base_style: StyleRefinement::default(), focus_style: StyleRefinement::default(), in_focus_style: StyleRefinement::default(), hover_style: StyleRefinement::default(), group_hover_style: None, active_style: StyleRefinement::default(), group_active_style: None, drag_over_styles: SmallVec::new(), group_drag_over_styles: SmallVec::new(), mouse_down_listeners: SmallVec::new(), mouse_up_listeners: SmallVec::new(), mouse_move_listeners: SmallVec::new(), scroll_wheel_listeners: SmallVec::new(), key_down_listeners: SmallVec::new(), key_up_listeners: SmallVec::new(), action_listeners: SmallVec::new(), drop_listeners: SmallVec::new(), click_listeners: SmallVec::new(), drag_listener: None, hover_listener: None, tooltip_builder: None, } } } #[derive(Default)] pub struct InteractiveElementState { pub focus_handle: Option, pub clicked_state: Rc>, pub hover_state: Rc>, pub pending_mouse_down: Rc>>, pub scroll_offset: Option>>>, pub active_tooltip: Rc>>, } pub struct ActiveTooltip { tooltip: Option, _task: Option>, } /// Whether or not the element or a group that contains it is clicked by the mouse. #[derive(Copy, Clone, Default, Eq, PartialEq)] pub struct ElementClickedState { pub group: bool, pub element: bool, } impl ElementClickedState { fn is_clicked(&self) -> bool { self.group || self.element } } #[derive(Default)] pub struct GroupBounds(HashMap; 1]>>); impl GroupBounds { pub fn get(name: &SharedString, cx: &mut AppContext) -> Option> { cx.default_global::() .0 .get(name) .and_then(|bounds_stack| bounds_stack.last()) .cloned() } pub fn push(name: SharedString, bounds: Bounds, cx: &mut AppContext) { cx.default_global::() .0 .entry(name) .or_default() .push(bounds); } pub fn pop(name: &SharedString, cx: &mut AppContext) { cx.default_global::().0.get_mut(name).unwrap().pop(); } } pub struct Focusable { element: E, } impl FocusableElement for Focusable {} impl InteractiveElement for Focusable where E: InteractiveElement, { fn interactivity(&mut self) -> &mut Interactivity { self.element.interactivity() } } impl StatefulInteractiveElement for Focusable {} impl Styled for Focusable where E: Styled, { fn style(&mut self) -> &mut StyleRefinement { self.element.style() } } impl Element for Focusable where E: Element, { type State = E::State; fn layout( &mut self, state: Option, cx: &mut WindowContext, ) -> (LayoutId, Self::State) { self.element.layout(state, cx) } fn paint(self, bounds: Bounds, state: &mut Self::State, cx: &mut WindowContext) { self.element.paint(bounds, state, cx) } } impl RenderOnce for Focusable where E: Element, { type Element = E; fn element_id(&self) -> Option { self.element.element_id() } fn render_once(self) -> Self::Element { self.element } } impl ParentElement for Focusable where E: ParentElement, { fn children_mut(&mut self) -> &mut SmallVec<[AnyElement; 2]> { self.element.children_mut() } } pub struct Stateful { element: E, } impl Styled for Stateful where E: Styled, { fn style(&mut self) -> &mut StyleRefinement { self.element.style() } } impl StatefulInteractiveElement for Stateful where E: Element, Self: InteractiveElement, { } impl InteractiveElement for Stateful where E: InteractiveElement, { fn interactivity(&mut self) -> &mut Interactivity { self.element.interactivity() } } impl FocusableElement for Stateful {} impl Element for Stateful where E: Element, { type State = E::State; fn layout( &mut self, state: Option, cx: &mut WindowContext, ) -> (LayoutId, Self::State) { self.element.layout(state, cx) } fn paint(self, bounds: Bounds, state: &mut Self::State, cx: &mut WindowContext) { self.element.paint(bounds, state, cx) } } impl RenderOnce for Stateful where E: Element, { type Element = Self; fn element_id(&self) -> Option { self.element.element_id() } fn render_once(self) -> Self::Element { self } } impl ParentElement for Stateful where E: ParentElement, { fn children_mut(&mut self) -> &mut SmallVec<[AnyElement; 2]> { self.element.children_mut() } }