1use std::{
2 any::TypeId,
3 ops::{Deref, DerefMut, Range},
4};
5
6use futures::Future;
7use indoc::indoc;
8
9use crate::{
10 display_map::ToDisplayPoint, AnchorRangeExt, Autoscroll, DisplayPoint, Editor, MultiBuffer,
11};
12use gpui::{
13 keymap_matcher::Keystroke, AppContext, ContextHandle, ModelContext, ViewContext, ViewHandle,
14};
15use language::{Buffer, BufferSnapshot};
16use settings::Settings;
17use util::{
18 assert_set_eq,
19 test::{generate_marked_text, marked_text_ranges},
20};
21
22use super::build_editor;
23
24pub struct EditorTestContext<'a> {
25 pub cx: &'a mut gpui::TestAppContext,
26 pub window_id: usize,
27 pub editor: ViewHandle<Editor>,
28}
29
30impl<'a> EditorTestContext<'a> {
31 pub fn new(cx: &'a mut gpui::TestAppContext) -> EditorTestContext<'a> {
32 let (window_id, editor) = cx.update(|cx| {
33 cx.set_global(Settings::test(cx));
34 crate::init(cx);
35
36 let (window_id, editor) = cx.add_window(Default::default(), |cx| {
37 build_editor(MultiBuffer::build_simple("", cx), cx)
38 });
39
40 editor.update(cx, |_, cx| cx.focus_self());
41
42 (window_id, editor)
43 });
44
45 Self {
46 cx,
47 window_id,
48 editor,
49 }
50 }
51
52 pub fn condition(
53 &self,
54 predicate: impl FnMut(&Editor, &AppContext) -> bool,
55 ) -> impl Future<Output = ()> {
56 self.editor.condition(self.cx, predicate)
57 }
58
59 pub fn editor<F, T>(&self, read: F) -> T
60 where
61 F: FnOnce(&Editor, &AppContext) -> T,
62 {
63 self.editor.read_with(self.cx, read)
64 }
65
66 pub fn update_editor<F, T>(&mut self, update: F) -> T
67 where
68 F: FnOnce(&mut Editor, &mut ViewContext<Editor>) -> T,
69 {
70 self.editor.update(self.cx, update)
71 }
72
73 pub fn multibuffer<F, T>(&self, read: F) -> T
74 where
75 F: FnOnce(&MultiBuffer, &AppContext) -> T,
76 {
77 self.editor(|editor, cx| read(editor.buffer().read(cx), cx))
78 }
79
80 pub fn update_multibuffer<F, T>(&mut self, update: F) -> T
81 where
82 F: FnOnce(&mut MultiBuffer, &mut ModelContext<MultiBuffer>) -> T,
83 {
84 self.update_editor(|editor, cx| editor.buffer().update(cx, update))
85 }
86
87 pub fn buffer_text(&self) -> String {
88 self.multibuffer(|buffer, cx| buffer.snapshot(cx).text())
89 }
90
91 pub fn buffer<F, T>(&self, read: F) -> T
92 where
93 F: FnOnce(&Buffer, &AppContext) -> T,
94 {
95 self.multibuffer(|multibuffer, cx| {
96 let buffer = multibuffer.as_singleton().unwrap().read(cx);
97 read(buffer, cx)
98 })
99 }
100
101 pub fn update_buffer<F, T>(&mut self, update: F) -> T
102 where
103 F: FnOnce(&mut Buffer, &mut ModelContext<Buffer>) -> T,
104 {
105 self.update_multibuffer(|multibuffer, cx| {
106 let buffer = multibuffer.as_singleton().unwrap();
107 buffer.update(cx, update)
108 })
109 }
110
111 pub fn buffer_snapshot(&self) -> BufferSnapshot {
112 self.buffer(|buffer, _| buffer.snapshot())
113 }
114
115 pub fn simulate_keystroke(&mut self, keystroke_text: &str) -> ContextHandle {
116 let keystroke_under_test_handle =
117 self.add_assertion_context(format!("Simulated Keystroke: {:?}", keystroke_text));
118 let keystroke = Keystroke::parse(keystroke_text).unwrap();
119 self.cx.dispatch_keystroke(self.window_id, keystroke, false);
120 keystroke_under_test_handle
121 }
122
123 pub fn simulate_keystrokes<const COUNT: usize>(
124 &mut self,
125 keystroke_texts: [&str; COUNT],
126 ) -> ContextHandle {
127 let keystrokes_under_test_handle =
128 self.add_assertion_context(format!("Simulated Keystrokes: {:?}", keystroke_texts));
129 for keystroke_text in keystroke_texts.into_iter() {
130 self.simulate_keystroke(keystroke_text);
131 }
132 keystrokes_under_test_handle
133 }
134
135 pub fn ranges(&self, marked_text: &str) -> Vec<Range<usize>> {
136 let (unmarked_text, ranges) = marked_text_ranges(marked_text, false);
137 assert_eq!(self.buffer_text(), unmarked_text);
138 ranges
139 }
140
141 pub fn display_point(&mut self, marked_text: &str) -> DisplayPoint {
142 let ranges = self.ranges(marked_text);
143 let snapshot = self
144 .editor
145 .update(self.cx, |editor, cx| editor.snapshot(cx));
146 ranges[0].start.to_display_point(&snapshot)
147 }
148
149 // Returns anchors for the current buffer using `«` and `»`
150 pub fn text_anchor_range(&self, marked_text: &str) -> Range<language::Anchor> {
151 let ranges = self.ranges(marked_text);
152 let snapshot = self.buffer_snapshot();
153 snapshot.anchor_before(ranges[0].start)..snapshot.anchor_after(ranges[0].end)
154 }
155
156 pub fn set_diff_base(&mut self, diff_base: Option<&str>) {
157 let diff_base = diff_base.map(String::from);
158 self.update_buffer(|buffer, cx| buffer.set_diff_base(diff_base, cx));
159 }
160
161 /// Change the editor's text and selections using a string containing
162 /// embedded range markers that represent the ranges and directions of
163 /// each selection.
164 ///
165 /// Returns a context handle so that assertion failures can print what
166 /// editor state was needed to cause the failure.
167 ///
168 /// See the `util::test::marked_text_ranges` function for more information.
169 pub fn set_state(&mut self, marked_text: &str) -> ContextHandle {
170 let _state_context = self.add_assertion_context(format!(
171 "Initial Editor State: \"{}\"",
172 marked_text.escape_debug().to_string()
173 ));
174 let (unmarked_text, selection_ranges) = marked_text_ranges(marked_text, true);
175 self.editor.update(self.cx, |editor, cx| {
176 editor.set_text(unmarked_text, cx);
177 editor.change_selections(Some(Autoscroll::fit()), cx, |s| {
178 s.select_ranges(selection_ranges)
179 })
180 });
181 _state_context
182 }
183
184 /// Make an assertion about the editor's text and the ranges and directions
185 /// of its selections using a string containing embedded range markers.
186 ///
187 /// See the `util::test::marked_text_ranges` function for more information.
188 #[track_caller]
189 pub fn assert_editor_state(&mut self, marked_text: &str) {
190 let (unmarked_text, expected_selections) = marked_text_ranges(marked_text, true);
191 let buffer_text = self.buffer_text();
192 assert_eq!(
193 buffer_text, unmarked_text,
194 "Unmarked text doesn't match buffer text"
195 );
196 self.assert_selections(expected_selections, marked_text.to_string())
197 }
198
199 pub fn assert_editor_background_highlights<Tag: 'static>(&mut self, marked_text: &str) {
200 let expected_ranges = self.ranges(marked_text);
201 let actual_ranges: Vec<Range<usize>> = self.update_editor(|editor, cx| {
202 let snapshot = editor.snapshot(cx);
203 editor
204 .background_highlights
205 .get(&TypeId::of::<Tag>())
206 .map(|h| h.1.clone())
207 .unwrap_or_default()
208 .into_iter()
209 .map(|range| range.to_offset(&snapshot.buffer_snapshot))
210 .collect()
211 });
212 assert_set_eq!(actual_ranges, expected_ranges);
213 }
214
215 pub fn assert_editor_text_highlights<Tag: ?Sized + 'static>(&mut self, marked_text: &str) {
216 let expected_ranges = self.ranges(marked_text);
217 let snapshot = self.update_editor(|editor, cx| editor.snapshot(cx));
218 let actual_ranges: Vec<Range<usize>> = snapshot
219 .highlight_ranges::<Tag>()
220 .map(|ranges| ranges.as_ref().clone().1)
221 .unwrap_or_default()
222 .into_iter()
223 .map(|range| range.to_offset(&snapshot.buffer_snapshot))
224 .collect();
225 assert_set_eq!(actual_ranges, expected_ranges);
226 }
227
228 pub fn assert_editor_selections(&mut self, expected_selections: Vec<Range<usize>>) {
229 let expected_marked_text =
230 generate_marked_text(&self.buffer_text(), &expected_selections, true);
231 self.assert_selections(expected_selections, expected_marked_text)
232 }
233
234 fn assert_selections(
235 &mut self,
236 expected_selections: Vec<Range<usize>>,
237 expected_marked_text: String,
238 ) {
239 let actual_selections = self
240 .editor
241 .read_with(self.cx, |editor, cx| editor.selections.all::<usize>(cx))
242 .into_iter()
243 .map(|s| {
244 if s.reversed {
245 s.end..s.start
246 } else {
247 s.start..s.end
248 }
249 })
250 .collect::<Vec<_>>();
251 let actual_marked_text =
252 generate_marked_text(&self.buffer_text(), &actual_selections, true);
253 if expected_selections != actual_selections {
254 panic!(
255 indoc! {"
256 {}Editor has unexpected selections.
257
258 Expected selections:
259 {}
260
261 Actual selections:
262 {}
263 "},
264 self.assertion_context(),
265 expected_marked_text,
266 actual_marked_text,
267 );
268 }
269 }
270}
271
272impl<'a> Deref for EditorTestContext<'a> {
273 type Target = gpui::TestAppContext;
274
275 fn deref(&self) -> &Self::Target {
276 self.cx
277 }
278}
279
280impl<'a> DerefMut for EditorTestContext<'a> {
281 fn deref_mut(&mut self) -> &mut Self::Target {
282 &mut self.cx
283 }
284}