use crate::ItemHandle; use gpui::{ AnyView, Entity, EntityId, EventEmitter, ParentElement as _, Render, Styled, View, ViewContext, WindowContext, }; use ui::prelude::*; use ui::{h_flex, v_flex}; pub enum ToolbarItemEvent { ChangeLocation(ToolbarItemLocation), } pub trait ToolbarItemView: Render + EventEmitter { fn set_active_pane_item( &mut self, active_pane_item: Option<&dyn crate::ItemHandle>, cx: &mut ViewContext, ) -> ToolbarItemLocation; fn pane_focus_update(&mut self, _pane_focused: bool, _cx: &mut ViewContext) {} /// Number of times toolbar's height will be repeated to get the effective height. /// Useful when multiple rows one under each other are needed. /// The rows have the same width and act as a whole when reacting to resizes and similar events. fn row_count(&self, _cx: &WindowContext) -> usize { 1 } } trait ToolbarItemViewHandle: Send { fn id(&self) -> EntityId; fn to_any(&self) -> AnyView; fn set_active_pane_item( &self, active_pane_item: Option<&dyn ItemHandle>, cx: &mut WindowContext, ) -> ToolbarItemLocation; fn focus_changed(&mut self, pane_focused: bool, cx: &mut WindowContext); fn row_count(&self, cx: &WindowContext) -> usize; } #[derive(Copy, Clone, Debug, PartialEq)] pub enum ToolbarItemLocation { Hidden, PrimaryLeft, PrimaryRight, Secondary, } pub struct Toolbar { active_item: Option>, hidden: bool, can_navigate: bool, items: Vec<(Box, ToolbarItemLocation)>, } impl Toolbar { fn has_any_visible_items(&self) -> bool { self.items .iter() .any(|(_item, location)| *location != ToolbarItemLocation::Hidden) } fn left_items(&self) -> impl Iterator { self.items.iter().filter_map(|(item, location)| { if *location == ToolbarItemLocation::PrimaryLeft { Some(item.as_ref()) } else { None } }) } fn right_items(&self) -> impl Iterator { self.items.iter().filter_map(|(item, location)| { if *location == ToolbarItemLocation::PrimaryRight { Some(item.as_ref()) } else { None } }) } fn secondary_items(&self) -> impl Iterator { self.items.iter().filter_map(|(item, location)| { if *location == ToolbarItemLocation::Secondary { Some(item.as_ref()) } else { None } }) } } impl Render for Toolbar { fn render(&mut self, cx: &mut ViewContext) -> impl IntoElement { if !self.has_any_visible_items() { return div(); } let secondary_item = self.secondary_items().next().map(|item| item.to_any()); let has_left_items = self.left_items().count() > 0; let has_right_items = self.right_items().count() > 0; v_flex() .p_2() .when(has_left_items || has_right_items, |this| this.gap_2()) .border_b() .border_color(cx.theme().colors().border_variant) .bg(cx.theme().colors().toolbar_background) .child( h_flex() .justify_between() .gap_2() .when(has_left_items, |this| { this.child( h_flex() .flex_auto() .justify_start() .overflow_x_hidden() .children(self.left_items().map(|item| item.to_any())), ) }) .when(has_right_items, |this| { this.child( h_flex() // We're using `flex_none` here to prevent some flickering that can occur when the // size of the left items container changes. .when_else(has_left_items, Div::flex_none, Div::flex_auto) .justify_end() .children(self.right_items().map(|item| item.to_any())), ) }), ) .children(secondary_item) } } impl Toolbar { pub fn new() -> Self { Self { active_item: None, items: Default::default(), hidden: false, can_navigate: true, } } pub fn set_can_navigate(&mut self, can_navigate: bool, cx: &mut ViewContext) { self.can_navigate = can_navigate; cx.notify(); } pub fn add_item(&mut self, item: View, cx: &mut ViewContext) where T: 'static + ToolbarItemView, { let location = item.set_active_pane_item(self.active_item.as_deref(), cx); cx.subscribe(&item, |this, item, event, cx| { if let Some((_, current_location)) = this .items .iter_mut() .find(|(i, _)| i.id() == item.entity_id()) { match event { ToolbarItemEvent::ChangeLocation(new_location) => { if new_location != current_location { *current_location = *new_location; cx.notify(); } } } } }) .detach(); self.items.push((Box::new(item), location)); cx.notify(); } pub fn set_active_item(&mut self, item: Option<&dyn ItemHandle>, cx: &mut ViewContext) { self.active_item = item.map(|item| item.boxed_clone()); self.hidden = self .active_item .as_ref() .map(|item| !item.show_toolbar(cx)) .unwrap_or(false); for (toolbar_item, current_location) in self.items.iter_mut() { let new_location = toolbar_item.set_active_pane_item(item, cx); if new_location != *current_location { *current_location = new_location; cx.notify(); } } } pub fn focus_changed(&mut self, focused: bool, cx: &mut ViewContext) { for (toolbar_item, _) in self.items.iter_mut() { toolbar_item.focus_changed(focused, cx); } } pub fn item_of_type(&self) -> Option> { self.items .iter() .find_map(|(item, _)| item.to_any().downcast().ok()) } pub fn hidden(&self) -> bool { self.hidden } } impl ToolbarItemViewHandle for View { fn id(&self) -> EntityId { self.entity_id() } fn to_any(&self) -> AnyView { self.clone().into() } fn set_active_pane_item( &self, active_pane_item: Option<&dyn ItemHandle>, cx: &mut WindowContext, ) -> ToolbarItemLocation { self.update(cx, |this, cx| { this.set_active_pane_item(active_pane_item, cx) }) } fn focus_changed(&mut self, pane_focused: bool, cx: &mut WindowContext) { self.update(cx, |this, cx| { this.pane_focus_update(pane_focused, cx); cx.notify(); }); } fn row_count(&self, cx: &WindowContext) -> usize { self.read(cx).row_count(cx) } }