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ZIm/crates/tasks_ui/src/modal.rs
Conrad Irwin e0c83a1d32
remote projects per user (#10594) 
Release Notes:

- Made remote projects per-user instead of per-channel. If you'd like to
be part of the remote development alpha, please email hi@zed.dev.

---------

Co-authored-by: Bennet Bo Fenner <53836821+bennetbo@users.noreply.github.com>
Co-authored-by: Bennet <bennetbo@gmx.de>
Co-authored-by: Nate Butler <1714999+iamnbutler@users.noreply.github.com>
Co-authored-by: Nate Butler <iamnbutler@gmail.com>
2024-04-23 15:33:09 -06:00

905 lines
32 KiB
Rust
Raw Blame History

use std::sync::Arc;
use crate::{active_item_selection_properties, schedule_resolved_task};
use fuzzy::{StringMatch, StringMatchCandidate};
use gpui::{
impl_actions, rems, AppContext, DismissEvent, EventEmitter, FocusableView, Global,
InteractiveElement, Model, ParentElement, Render, SharedString, Styled, Subscription, View,
ViewContext, VisualContext, WeakView,
};
use picker::{highlighted_match_with_paths::HighlightedText, Picker, PickerDelegate};
use project::{Inventory, TaskSourceKind};
use task::{ResolvedTask, TaskContext, TaskTemplate};
use ui::{
div, v_flex, ButtonCommon, ButtonSize, Clickable, Color, FluentBuilder as _, Icon, IconButton,
IconButtonShape, IconName, IconSize, ListItem, ListItemSpacing, RenderOnce, Selectable,
Tooltip, WindowContext,
};
use util::ResultExt;
use workspace::{ModalView, Workspace};
use serde::Deserialize;
/// Spawn a task with name or open tasks modal
#[derive(PartialEq, Clone, Deserialize, Default)]
pub struct Spawn {
#[serde(default)]
/// Name of the task to spawn.
/// If it is not set, a modal with a list of available tasks is opened instead.
/// Defaults to None.
pub task_name: Option<String>,
}
impl Spawn {
pub fn modal() -> Self {
Self { task_name: None }
}
}
/// Rerun last task
#[derive(PartialEq, Clone, Deserialize, Default)]
pub struct Rerun {
/// Controls whether the task context is reevaluated prior to execution of a task.
/// If it is not, environment variables such as ZED_COLUMN, ZED_FILE are gonna be the same as in the last execution of a task
/// If it is, these variables will be updated to reflect current state of editor at the time task::Rerun is executed.
/// default: false
#[serde(default)]
pub reevaluate_context: bool,
/// Overrides `allow_concurrent_runs` property of the task being reran.
/// Default: null
#[serde(default)]
pub allow_concurrent_runs: Option<bool>,
/// Overrides `use_new_terminal` property of the task being reran.
/// Default: null
#[serde(default)]
pub use_new_terminal: Option<bool>,
}
impl_actions!(task, [Rerun, Spawn]);
/// A modal used to spawn new tasks.
pub(crate) struct TasksModalDelegate {
inventory: Model<Inventory>,
candidates: Option<Vec<(TaskSourceKind, ResolvedTask)>>,
last_used_candidate_index: Option<usize>,
matches: Vec<StringMatch>,
selected_index: usize,
workspace: WeakView<Workspace>,
prompt: String,
task_context: TaskContext,
placeholder_text: Arc<str>,
}
impl TasksModalDelegate {
fn new(
inventory: Model<Inventory>,
task_context: TaskContext,
workspace: WeakView<Workspace>,
) -> Self {
Self {
inventory,
workspace,
candidates: None,
matches: Vec::new(),
last_used_candidate_index: None,
selected_index: 0,
prompt: String::default(),
task_context,
placeholder_text: Arc::from("Run a task..."),
}
}
fn spawn_oneshot(&mut self) -> Option<(TaskSourceKind, ResolvedTask)> {
if self.prompt.trim().is_empty() {
return None;
}
let source_kind = TaskSourceKind::UserInput;
let id_base = source_kind.to_id_base();
let new_oneshot = TaskTemplate {
label: self.prompt.clone(),
command: self.prompt.clone(),
..TaskTemplate::default()
};
Some((
source_kind,
new_oneshot.resolve_task(&id_base, &self.task_context)?,
))
}
fn delete_previously_used(&mut self, ix: usize, cx: &mut AppContext) {
let Some(candidates) = self.candidates.as_mut() else {
return;
};
let Some(task) = candidates.get(ix).map(|(_, task)| task.clone()) else {
return;
};
// We remove this candidate manually instead of .taking() the candidates, as we already know the index;
// it doesn't make sense to requery the inventory for new candidates, as that's potentially costly and more often than not it should just return back
// the original list without a removed entry.
candidates.remove(ix);
self.inventory.update(cx, |inventory, _| {
inventory.delete_previously_used(&task.id);
});
}
}
pub(crate) struct TasksModal {
picker: View<Picker<TasksModalDelegate>>,
_subscription: Subscription,
}
impl TasksModal {
pub(crate) fn new(
inventory: Model<Inventory>,
task_context: TaskContext,
workspace: WeakView<Workspace>,
cx: &mut ViewContext<Self>,
) -> Self {
let picker = cx.new_view(|cx| {
Picker::uniform_list(
TasksModalDelegate::new(inventory, task_context, workspace),
cx,
)
});
let _subscription = cx.subscribe(&picker, |_, _, _, cx| {
cx.emit(DismissEvent);
});
Self {
picker,
_subscription,
}
}
}
impl Render for TasksModal {
fn render(&mut self, _: &mut ViewContext<Self>) -> impl gpui::prelude::IntoElement {
v_flex()
.key_context("TasksModal")
.w(rems(34.))
.child(self.picker.clone())
}
}
impl EventEmitter<DismissEvent> for TasksModal {}
impl FocusableView for TasksModal {
fn focus_handle(&self, cx: &gpui::AppContext) -> gpui::FocusHandle {
self.picker.read(cx).focus_handle(cx)
}
}
impl ModalView for TasksModal {}
impl PickerDelegate for TasksModalDelegate {
type ListItem = ListItem;
fn match_count(&self) -> usize {
self.matches.len()
}
fn selected_index(&self) -> usize {
self.selected_index
}
fn set_selected_index(&mut self, ix: usize, _cx: &mut ViewContext<picker::Picker<Self>>) {
self.selected_index = ix;
}
fn placeholder_text(&self, _: &mut WindowContext) -> Arc<str> {
self.placeholder_text.clone()
}
fn update_matches(
&mut self,
query: String,
cx: &mut ViewContext<picker::Picker<Self>>,
) -> gpui::Task<()> {
cx.spawn(move |picker, mut cx| async move {
let Some(candidates) = picker
.update(&mut cx, |picker, cx| {
let candidates = match &mut picker.delegate.candidates {
Some(candidates) => candidates,
None => {
let Ok((worktree, language)) =
picker.delegate.workspace.update(cx, |workspace, cx| {
active_item_selection_properties(workspace, cx)
})
else {
return Vec::new();
};
let (used, current) =
picker.delegate.inventory.update(cx, |inventory, cx| {
inventory.used_and_current_resolved_tasks(
language,
worktree,
&picker.delegate.task_context,
cx,
)
});
picker.delegate.last_used_candidate_index = if used.is_empty() {
None
} else {
Some(used.len() - 1)
};
let mut new_candidates = used;
new_candidates.extend(current);
picker.delegate.candidates.insert(new_candidates)
}
};
candidates
.iter()
.enumerate()
.map(|(index, (_, candidate))| StringMatchCandidate {
id: index,
char_bag: candidate.resolved_label.chars().collect(),
string: candidate.display_label().to_owned(),
})
.collect::<Vec<_>>()
})
.ok()
else {
return;
};
let matches = fuzzy::match_strings(
&candidates,
&query,
true,
1000,
&Default::default(),
cx.background_executor().clone(),
)
.await;
picker
.update(&mut cx, |picker, _| {
let delegate = &mut picker.delegate;
delegate.matches = matches;
delegate.prompt = query;
if delegate.matches.is_empty() {
delegate.selected_index = 0;
} else {
delegate.selected_index =
delegate.selected_index.min(delegate.matches.len() - 1);
}
})
.log_err();
})
}
fn confirm(&mut self, omit_history_entry: bool, cx: &mut ViewContext<picker::Picker<Self>>) {
let current_match_index = self.selected_index();
let task = self
.matches
.get(current_match_index)
.and_then(|current_match| {
let ix = current_match.candidate_id;
self.candidates
.as_ref()
.map(|candidates| candidates[ix].clone())
});
let Some((task_source_kind, task)) = task else {
return;
};
self.workspace
.update(cx, |workspace, cx| {
schedule_resolved_task(workspace, task_source_kind, task, omit_history_entry, cx);
})
.ok();
cx.emit(DismissEvent);
}
fn dismissed(&mut self, cx: &mut ViewContext<picker::Picker<Self>>) {
cx.emit(DismissEvent);
}
fn render_match(
&self,
ix: usize,
selected: bool,
cx: &mut ViewContext<picker::Picker<Self>>,
) -> Option<Self::ListItem> {
let candidates = self.candidates.as_ref()?;
let hit = &self.matches[ix];
let (source_kind, resolved_task) = &candidates.get(hit.candidate_id)?;
let template = resolved_task.original_task();
let display_label = resolved_task.display_label();
let mut tooltip_label_text = if display_label != &template.label {
resolved_task.resolved_label.clone()
} else {
String::new()
};
if let Some(resolved) = resolved_task.resolved.as_ref() {
if display_label != resolved.command_label {
if !tooltip_label_text.trim().is_empty() {
tooltip_label_text.push('\n');
}
tooltip_label_text.push_str(&resolved.command_label);
}
}
let tooltip_label = if tooltip_label_text.trim().is_empty() {
None
} else {
Some(Tooltip::text(tooltip_label_text, cx))
};
let highlighted_location = HighlightedText {
text: hit.string.clone(),
highlight_positions: hit.positions.clone(),
char_count: hit.string.chars().count(),
color: Color::Default,
};
let icon = match source_kind {
TaskSourceKind::UserInput => Some(Icon::new(IconName::Terminal)),
TaskSourceKind::AbsPath { .. } => Some(Icon::new(IconName::Settings)),
TaskSourceKind::Worktree { .. } => Some(Icon::new(IconName::FileTree)),
TaskSourceKind::Language { name } => file_icons::FileIcons::get(cx)
.get_type_icon(&name.to_lowercase())
.map(|icon_path| Icon::from_path(icon_path)),
};
Some(
ListItem::new(SharedString::from(format!("tasks-modal-{ix}")))
.inset(true)
.spacing(ListItemSpacing::Sparse)
.when_some(tooltip_label, |list_item, item_label| {
list_item.tooltip(move |_| item_label.clone())
})
.map(|item| {
let item = if matches!(source_kind, TaskSourceKind::UserInput)
|| Some(ix) <= self.last_used_candidate_index
{
let task_index = hit.candidate_id;
let delete_button = div().child(
IconButton::new("delete", IconName::Close)
.shape(IconButtonShape::Square)
.icon_color(Color::Muted)
.size(ButtonSize::None)
.icon_size(IconSize::XSmall)
.on_click(cx.listener(move |picker, _event, cx| {
cx.stop_propagation();
cx.prevent_default();
picker.delegate.delete_previously_used(task_index, cx);
picker.delegate.last_used_candidate_index = picker
.delegate
.last_used_candidate_index
.unwrap_or(0)
.checked_sub(1);
picker.refresh(cx);
}))
.tooltip(|cx| {
Tooltip::text("Delete previously scheduled task", cx)
}),
);
item.end_hover_slot(delete_button)
} else {
item
};
if let Some(icon) = icon {
item.end_slot(icon)
} else {
item
}
})
.selected(selected)
.child(highlighted_location.render(cx)),
)
}
fn selected_as_query(&self) -> Option<String> {
let task_index = self.matches.get(self.selected_index())?.candidate_id;
let tasks = self.candidates.as_ref()?;
let (_, task) = tasks.get(task_index)?;
Some(task.resolved.as_ref()?.command_label.clone())
}
fn confirm_input(&mut self, omit_history_entry: bool, cx: &mut ViewContext<Picker<Self>>) {
let Some((task_source_kind, task)) = self.spawn_oneshot() else {
return;
};
self.workspace
.update(cx, |workspace, cx| {
schedule_resolved_task(workspace, task_source_kind, task, omit_history_entry, cx);
})
.ok();
cx.emit(DismissEvent);
}
fn separators_after_indices(&self) -> Vec<usize> {
if let Some(i) = self.last_used_candidate_index {
vec![i]
} else {
Vec::new()
}
}
}
#[cfg(test)]
mod tests {
use std::{path::PathBuf, sync::Arc};
use editor::Editor;
use gpui::{TestAppContext, VisualTestContext};
use language::{ContextProviderWithTasks, Language, LanguageConfig, LanguageMatcher, Point};
use project::{FakeFs, Project};
use serde_json::json;
use task::TaskTemplates;
use workspace::CloseInactiveTabsAndPanes;
use crate::{modal::Spawn, tests::init_test};
use super::*;
#[gpui::test]
async fn test_spawn_tasks_modal_query_reuse(cx: &mut TestAppContext) {
init_test(cx);
let fs = FakeFs::new(cx.executor());
fs.insert_tree(
"/dir",
json!({
".zed": {
"tasks.json": r#"[
{
"label": "example task",
"command": "echo",
"args": ["4"]
},
{
"label": "another one",
"command": "echo",
"args": ["55"]
},
]"#,
},
"a.ts": "a"
}),
)
.await;
let project = Project::test(fs, ["/dir".as_ref()], cx).await;
let (workspace, cx) = cx.add_window_view(|cx| Workspace::test_new(project, cx));
let tasks_picker = open_spawn_tasks(&workspace, cx);
assert_eq!(
query(&tasks_picker, cx),
"",
"Initial query should be empty"
);
assert_eq!(
task_names(&tasks_picker, cx),
vec!["another one", "example task"],
"Initial tasks should be listed in alphabetical order"
);
let query_str = "tas";
cx.simulate_input(query_str);
assert_eq!(query(&tasks_picker, cx), query_str);
assert_eq!(
task_names(&tasks_picker, cx),
vec!["example task"],
"Only one task should match the query {query_str}"
);
cx.dispatch_action(picker::UseSelectedQuery);
assert_eq!(
query(&tasks_picker, cx),
"echo 4",
"Query should be set to the selected task's command"
);
assert_eq!(
task_names(&tasks_picker, cx),
Vec::<String>::new(),
"No task should be listed"
);
cx.dispatch_action(picker::ConfirmInput { secondary: false });
let tasks_picker = open_spawn_tasks(&workspace, cx);
assert_eq!(
query(&tasks_picker, cx),
"",
"Query should be reset after confirming"
);
assert_eq!(
task_names(&tasks_picker, cx),
vec!["echo 4", "another one", "example task"],
"New oneshot task should be listed first"
);
let query_str = "echo 4";
cx.simulate_input(query_str);
assert_eq!(query(&tasks_picker, cx), query_str);
assert_eq!(
task_names(&tasks_picker, cx),
vec!["echo 4"],
"New oneshot should match custom command query"
);
cx.dispatch_action(picker::ConfirmInput { secondary: false });
let tasks_picker = open_spawn_tasks(&workspace, cx);
assert_eq!(
query(&tasks_picker, cx),
"",
"Query should be reset after confirming"
);
assert_eq!(
task_names(&tasks_picker, cx),
vec![query_str, "another one", "example task"],
"Last recently used one show task should be listed first"
);
cx.dispatch_action(picker::UseSelectedQuery);
assert_eq!(
query(&tasks_picker, cx),
query_str,
"Query should be set to the custom task's name"
);
assert_eq!(
task_names(&tasks_picker, cx),
vec![query_str],
"Only custom task should be listed"
);
let query_str = "0";
cx.simulate_input(query_str);
assert_eq!(query(&tasks_picker, cx), "echo 40");
assert_eq!(
task_names(&tasks_picker, cx),
Vec::<String>::new(),
"New oneshot should not match any command query"
);
cx.dispatch_action(picker::ConfirmInput { secondary: true });
let tasks_picker = open_spawn_tasks(&workspace, cx);
assert_eq!(
query(&tasks_picker, cx),
"",
"Query should be reset after confirming"
);
assert_eq!(
task_names(&tasks_picker, cx),
vec!["echo 4", "another one", "example task"],
"No query should be added to the list, as it was submitted with secondary action (that maps to omit_history = true)"
);
cx.dispatch_action(Spawn {
task_name: Some("example task".to_string()),
});
let tasks_picker = workspace.update(cx, |workspace, cx| {
workspace
.active_modal::<TasksModal>(cx)
.unwrap()
.read(cx)
.picker
.clone()
});
assert_eq!(
task_names(&tasks_picker, cx),
vec!["echo 4", "another one", "example task"],
);
}
#[gpui::test]
async fn test_basic_context_for_simple_files(cx: &mut TestAppContext) {
init_test(cx);
let fs = FakeFs::new(cx.executor());
fs.insert_tree(
"/dir",
json!({
".zed": {
"tasks.json": r#"[
{
"label": "hello from $ZED_FILE:$ZED_ROW:$ZED_COLUMN",
"command": "echo",
"args": ["hello", "from", "$ZED_FILE", ":", "$ZED_ROW", ":", "$ZED_COLUMN"]
},
{
"label": "opened now: $ZED_WORKTREE_ROOT",
"command": "echo",
"args": ["opened", "now:", "$ZED_WORKTREE_ROOT"]
}
]"#,
},
"file_without_extension": "aaaaaaaaaaaaaaaaaaaa\naaaaaaaaaaaaaaaaaa",
"file_with.odd_extension": "b",
}),
)
.await;
let project = Project::test(fs, ["/dir".as_ref()], cx).await;
let (workspace, cx) = cx.add_window_view(|cx| Workspace::test_new(project.clone(), cx));
let tasks_picker = open_spawn_tasks(&workspace, cx);
assert_eq!(
task_names(&tasks_picker, cx),
Vec::<String>::new(),
"Should list no file or worktree context-dependent when no file is open"
);
tasks_picker.update(cx, |_, cx| {
cx.emit(DismissEvent);
});
drop(tasks_picker);
cx.executor().run_until_parked();
let _ = workspace
.update(cx, |workspace, cx| {
workspace.open_abs_path(PathBuf::from("/dir/file_with.odd_extension"), true, cx)
})
.await
.unwrap();
cx.executor().run_until_parked();
let tasks_picker = open_spawn_tasks(&workspace, cx);
assert_eq!(
task_names(&tasks_picker, cx),
vec![
"hello from …th.odd_extension:1:1".to_string(),
"opened now: /dir".to_string()
],
"Second opened buffer should fill the context, labels should be trimmed if long enough"
);
tasks_picker.update(cx, |_, cx| {
cx.emit(DismissEvent);
});
drop(tasks_picker);
cx.executor().run_until_parked();
let second_item = workspace
.update(cx, |workspace, cx| {
workspace.open_abs_path(PathBuf::from("/dir/file_without_extension"), true, cx)
})
.await
.unwrap();
let editor = cx.update(|cx| second_item.act_as::<Editor>(cx)).unwrap();
editor.update(cx, |editor, cx| {
editor.change_selections(None, cx, |s| {
s.select_ranges(Some(Point::new(1, 2)..Point::new(1, 5)))
})
});
cx.executor().run_until_parked();
let tasks_picker = open_spawn_tasks(&workspace, cx);
assert_eq!(
task_names(&tasks_picker, cx),
vec![
"hello from …ithout_extension:2:3".to_string(),
"opened now: /dir".to_string()
],
"Opened buffer should fill the context, labels should be trimmed if long enough"
);
tasks_picker.update(cx, |_, cx| {
cx.emit(DismissEvent);
});
drop(tasks_picker);
cx.executor().run_until_parked();
}
#[gpui::test]
async fn test_language_task_filtering(cx: &mut TestAppContext) {
init_test(cx);
let fs = FakeFs::new(cx.executor());
fs.insert_tree(
"/dir",
json!({
"a1.ts": "// a1",
"a2.ts": "// a2",
"b.rs": "// b",
}),
)
.await;
let project = Project::test(fs, ["/dir".as_ref()], cx).await;
project.read_with(cx, |project, _| {
let language_registry = project.languages();
language_registry.add(Arc::new(
Language::new(
LanguageConfig {
name: "TypeScript".into(),
matcher: LanguageMatcher {
path_suffixes: vec!["ts".to_string()],
..LanguageMatcher::default()
},
..LanguageConfig::default()
},
None,
)
.with_context_provider(Some(Arc::new(
ContextProviderWithTasks::new(TaskTemplates(vec![
TaskTemplate {
label: "Task without variables".to_string(),
command: "npm run clean".to_string(),
..TaskTemplate::default()
},
TaskTemplate {
label: "TypeScript task from file $ZED_FILE".to_string(),
command: "npm run build".to_string(),
..TaskTemplate::default()
},
TaskTemplate {
label: "Another task from file $ZED_FILE".to_string(),
command: "npm run lint".to_string(),
..TaskTemplate::default()
},
])),
))),
));
language_registry.add(Arc::new(
Language::new(
LanguageConfig {
name: "Rust".into(),
matcher: LanguageMatcher {
path_suffixes: vec!["rs".to_string()],
..LanguageMatcher::default()
},
..LanguageConfig::default()
},
None,
)
.with_context_provider(Some(Arc::new(
ContextProviderWithTasks::new(TaskTemplates(vec![TaskTemplate {
label: "Rust task".to_string(),
command: "cargo check".into(),
..TaskTemplate::default()
}])),
))),
));
});
let (workspace, cx) = cx.add_window_view(|cx| Workspace::test_new(project.clone(), cx));
let _ts_file_1 = workspace
.update(cx, |workspace, cx| {
workspace.open_abs_path(PathBuf::from("/dir/a1.ts"), true, cx)
})
.await
.unwrap();
let tasks_picker = open_spawn_tasks(&workspace, cx);
assert_eq!(
task_names(&tasks_picker, cx),
vec![
"Another task from file /dir/a1.ts",
"TypeScript task from file /dir/a1.ts",
"Task without variables",
],
"Should open spawn TypeScript tasks for the opened file, tasks with most template variables above, all groups sorted alphanumerically"
);
emulate_task_schedule(
tasks_picker,
&project,
"TypeScript task from file /dir/a1.ts",
cx,
);
let tasks_picker = open_spawn_tasks(&workspace, cx);
assert_eq!(
task_names(&tasks_picker, cx),
vec!["TypeScript task from file /dir/a1.ts", "Another task from file /dir/a1.ts", "Task without variables"],
"After spawning the task and getting it into the history, it should be up in the sort as recently used"
);
tasks_picker.update(cx, |_, cx| {
cx.emit(DismissEvent);
});
drop(tasks_picker);
cx.executor().run_until_parked();
let _ts_file_2 = workspace
.update(cx, |workspace, cx| {
workspace.open_abs_path(PathBuf::from("/dir/a2.ts"), true, cx)
})
.await
.unwrap();
let tasks_picker = open_spawn_tasks(&workspace, cx);
assert_eq!(
task_names(&tasks_picker, cx),
vec![
"TypeScript task from file /dir/a1.ts",
"Another task from file /dir/a2.ts",
"TypeScript task from file /dir/a2.ts",
"Task without variables"
],
"Even when both TS files are open, should only show the history (on the top), and tasks, resolved for the current file"
);
tasks_picker.update(cx, |_, cx| {
cx.emit(DismissEvent);
});
drop(tasks_picker);
cx.executor().run_until_parked();
let _rs_file = workspace
.update(cx, |workspace, cx| {
workspace.open_abs_path(PathBuf::from("/dir/b.rs"), true, cx)
})
.await
.unwrap();
let tasks_picker = open_spawn_tasks(&workspace, cx);
assert_eq!(
task_names(&tasks_picker, cx),
vec!["Rust task"],
"Even when both TS files are open and one TS task spawned, opened file's language tasks should be displayed only"
);
cx.dispatch_action(CloseInactiveTabsAndPanes::default());
emulate_task_schedule(tasks_picker, &project, "Rust task", cx);
let _ts_file_2 = workspace
.update(cx, |workspace, cx| {
workspace.open_abs_path(PathBuf::from("/dir/a2.ts"), true, cx)
})
.await
.unwrap();
let tasks_picker = open_spawn_tasks(&workspace, cx);
assert_eq!(
task_names(&tasks_picker, cx),
vec![
"TypeScript task from file /dir/a1.ts",
"Another task from file /dir/a2.ts",
"TypeScript task from file /dir/a2.ts",
"Task without variables"
],
"After closing all but *.rs tabs, running a Rust task and switching back to TS tasks, \
same TS spawn history should be restored"
);
}
fn emulate_task_schedule(
tasks_picker: View<Picker<TasksModalDelegate>>,
project: &Model<Project>,
scheduled_task_label: &str,
cx: &mut VisualTestContext,
) {
let scheduled_task = tasks_picker.update(cx, |tasks_picker, _| {
tasks_picker
.delegate
.candidates
.iter()
.flatten()
.find(|(_, task)| task.resolved_label == scheduled_task_label)
.cloned()
.unwrap()
});
project.update(cx, |project, cx| {
project.task_inventory().update(cx, |inventory, _| {
let (kind, task) = scheduled_task;
inventory.task_scheduled(kind, task);
})
});
tasks_picker.update(cx, |_, cx| {
cx.emit(DismissEvent);
});
drop(tasks_picker);
cx.executor().run_until_parked()
}
fn open_spawn_tasks(
workspace: &View<Workspace>,
cx: &mut VisualTestContext,
) -> View<Picker<TasksModalDelegate>> {
cx.dispatch_action(Spawn::default());
workspace.update(cx, |workspace, cx| {
workspace
.active_modal::<TasksModal>(cx)
.expect("no task modal after `Spawn` action was dispatched")
.read(cx)
.picker
.clone()
})
}
fn query(spawn_tasks: &View<Picker<TasksModalDelegate>>, cx: &mut VisualTestContext) -> String {
spawn_tasks.update(cx, |spawn_tasks, cx| spawn_tasks.query(cx))
}
fn task_names(
spawn_tasks: &View<Picker<TasksModalDelegate>>,
cx: &mut VisualTestContext,
) -> Vec<String> {
spawn_tasks.update(cx, |spawn_tasks, _| {
spawn_tasks
.delegate
.matches
.iter()
.map(|hit| hit.string.clone())
.collect::<Vec<_>>()
})
}
}
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