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Add remaining tests

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co-authored-by: Conrad <conrad@zed.dev>
This commit is contained in:
Mikayla 2024-01-10 19:37:53 -08:00
parent a5ca58354d
commit 38396d4281
No known key found for this signature in database
4 changed files with 362 additions and 516 deletions
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41
crates/feedback/src/feedback_modal.rs
View File

@ -525,43 +525,4 @@ impl Render for FeedbackModal {
}
}
// TODO: Testing of various button states, dismissal prompts, etc.
// #[cfg(test)]
// mod test {
// use super::*;
// #[test]
// fn test_invalid_email_addresses() {
// let markdown = markdown.await.log_err();
// let buffer = project.update(&mut cx, |project, cx| {
// project.create_buffer("", markdown, cx)
// })??;
// workspace.update(&mut cx, |workspace, cx| {
// let system_specs = SystemSpecs::new(cx);
// workspace.toggle_modal(cx, move |cx| {
// let feedback_modal = FeedbackModal::new(system_specs, project, buffer, cx);
// assert!(!feedback_modal.can_submit());
// assert!(!feedback_modal.valid_email_address(cx));
// assert!(!feedback_modal.valid_character_count());
// feedback_modal
// .email_address_editor
// .update(cx, |this, cx| this.set_text("a", cx));
// feedback_modal.set_submission_state(cx);
// assert!(!feedback_modal.valid_email_address(cx));
// feedback_modal
// .email_address_editor
// .update(cx, |this, cx| this.set_text("a&b.com", cx));
// feedback_modal.set_submission_state(cx);
// assert!(feedback_modal.valid_email_address(cx));
// });
// })?;
// }
// }
// TODO: Testing of various button states, dismissal prompts, etc. :)

2
crates/gpui/src/action.rs
View File

@ -170,7 +170,7 @@ impl ActionRegistry {
macro_rules! actions {
($namespace:path, [ $($name:ident),* $(,)? ]) => {
$(
#[derive(::std::cmp::PartialEq, ::std::clone::Clone, ::std::default::Default, gpui::private::serde_derive::Deserialize)]
#[derive(::std::cmp::PartialEq, ::std::clone::Clone, ::std::default::Default, ::std::fmt::Debug, gpui::private::serde_derive::Deserialize)]
#[serde(crate = "gpui::private::serde")]
pub struct $name;

635
crates/gpui/src/keymap/matcher.rs
View File

@ -28,11 +28,11 @@ impl KeystrokeMatcher {
/// Pushes a keystroke onto the matcher.
/// The result of the new keystroke is returned:
/// KeyMatch::None =>
/// - KeyMatch::None =>
/// No match is valid for this key given any pending keystrokes.
/// KeyMatch::Pending =>
/// - KeyMatch::Pending =>
/// There exist bindings which are still waiting for more keys.
/// KeyMatch::Complete(matches) =>
/// - KeyMatch::Complete(matches) =>
/// One or more bindings have received the necessary key presses.
/// Bindings added later will take precedence over earlier bindings.
pub fn match_keystroke(
@ -77,12 +77,10 @@ impl KeystrokeMatcher {
if let Some(pending_key) = pending_key {
self.pending_keystrokes.push(pending_key);
}
if self.pending_keystrokes.is_empty() {
KeyMatch::None
} else {
KeyMatch::Pending
} else {
self.pending_keystrokes.clear();
KeyMatch::None
}
}
}
@ -98,367 +96,374 @@ impl KeyMatch {
pub fn is_some(&self) -> bool {
matches!(self, KeyMatch::Some(_))
}
pub fn matches(self) -> Option<Vec<Box<dyn Action>>> {
match self {
KeyMatch::Some(matches) => Some(matches),
_ => None,
}
}
}
// #[cfg(test)]
// mod tests {
// use anyhow::Result;
// use serde::Deserialize;
impl PartialEq for KeyMatch {
fn eq(&self, other: &Self) -> bool {
match (self, other) {
(KeyMatch::None, KeyMatch::None) => true,
(KeyMatch::Pending, KeyMatch::Pending) => true,
(KeyMatch::Some(a), KeyMatch::Some(b)) => {
if a.len() != b.len() {
return false;
}
// use crate::{actions, impl_actions, keymap_matcher::ActionContext};
for (a, b) in a.iter().zip(b.iter()) {
if !a.partial_eq(b.as_ref()) {
return false;
}
}
// use super::*;
true
}
_ => false,
}
}
}
// #[test]
// fn test_keymap_and_view_ordering() -> Result<()> {
// actions!(test, [EditorAction, ProjectPanelAction]);
#[cfg(test)]
mod tests {
// let mut editor = ActionContext::default();
// editor.add_identifier("Editor");
use serde_derive::Deserialize;
// let mut project_panel = ActionContext::default();
// project_panel.add_identifier("ProjectPanel");
use super::*;
use crate::{self as gpui, KeyBindingContextPredicate, Modifiers};
use crate::{actions, KeyBinding};
// // Editor 'deeper' in than project panel
// let dispatch_path = vec![(2, editor), (1, project_panel)];
#[test]
fn test_keymap_and_view_ordering() {
actions!(test, [EditorAction, ProjectPanelAction]);
// // But editor actions 'higher' up in keymap
// let keymap = Keymap::new(vec![
// Binding::new("left", EditorAction, Some("Editor")),
// Binding::new("left", ProjectPanelAction, Some("ProjectPanel")),
// ]);
let mut editor = KeyContext::default();
editor.add("Editor");
// let mut matcher = KeymapMatcher::new(keymap);
let mut project_panel = KeyContext::default();
project_panel.add("ProjectPanel");
// assert_eq!(
// matcher.match_keystroke(Keystroke::parse("left")?, dispatch_path.clone()),
// KeyMatch::Matches(vec![
// (2, Box::new(EditorAction)),
// (1, Box::new(ProjectPanelAction)),
// ]),
// );
// Editor 'deeper' in than project panel
let dispatch_path = vec![project_panel, editor];
// Ok(())
// }
// But editor actions 'higher' up in keymap
let keymap = Keymap::new(vec![
KeyBinding::new("left", EditorAction, Some("Editor")),
KeyBinding::new("left", ProjectPanelAction, Some("ProjectPanel")),
]);
// #[test]
// fn test_push_keystroke() -> Result<()> {
// actions!(test, [B, AB, C, D, DA, E, EF]);
let mut matcher = KeystrokeMatcher::new(Arc::new(Mutex::new(keymap)));
// let mut context1 = ActionContext::default();
// context1.add_identifier("1");
let matches = matcher
.match_keystroke(&Keystroke::parse("left").unwrap(), &dispatch_path)
.matches()
.unwrap();
// let mut context2 = ActionContext::default();
// context2.add_identifier("2");
assert!(matches[0].partial_eq(&EditorAction));
assert!(matches.get(1).is_none());
}
// let dispatch_path = vec![(2, context2), (1, context1)];
#[test]
fn test_multi_keystroke_match() {
actions!(test, [B, AB, C, D, DA, E, EF]);
// let keymap = Keymap::new(vec![
// Binding::new("a b", AB, Some("1")),
// Binding::new("b", B, Some("2")),
// Binding::new("c", C, Some("2")),
// Binding::new("d", D, Some("1")),
// Binding::new("d", D, Some("2")),
// Binding::new("d a", DA, Some("2")),
// ]);
let mut context1 = KeyContext::default();
context1.add("1");
// let mut matcher = KeymapMatcher::new(keymap);
let mut context2 = KeyContext::default();
context2.add("2");
// // Binding with pending prefix always takes precedence
// assert_eq!(
// matcher.match_keystroke(Keystroke::parse("a")?, dispatch_path.clone()),
// KeyMatch::Pending,
// );
// // B alone doesn't match because a was pending, so AB is returned instead
// assert_eq!(
// matcher.match_keystroke(Keystroke::parse("b")?, dispatch_path.clone()),
// KeyMatch::Matches(vec![(1, Box::new(AB))]),
// );
// assert!(!matcher.has_pending_keystrokes());
let dispatch_path = vec![context2, context1];
// // Without an a prefix, B is dispatched like expected
// assert_eq!(
// matcher.match_keystroke(Keystroke::parse("b")?, dispatch_path.clone()),
// KeyMatch::Matches(vec![(2, Box::new(B))]),
// );
// assert!(!matcher.has_pending_keystrokes());
let keymap = Keymap::new(vec![
KeyBinding::new("a b", AB, Some("1")),
KeyBinding::new("b", B, Some("2")),
KeyBinding::new("c", C, Some("2")),
KeyBinding::new("d", D, Some("1")),
KeyBinding::new("d", D, Some("2")),
KeyBinding::new("d a", DA, Some("2")),
]);
// // If a is prefixed, C will not be dispatched because there
// // was a pending binding for it
// assert_eq!(
// matcher.match_keystroke(Keystroke::parse("a")?, dispatch_path.clone()),
// KeyMatch::Pending,
// );
// assert_eq!(
// matcher.match_keystroke(Keystroke::parse("c")?, dispatch_path.clone()),
// KeyMatch::None,
// );
// assert!(!matcher.has_pending_keystrokes());
let mut matcher = KeystrokeMatcher::new(Arc::new(Mutex::new(keymap)));
// // If a single keystroke matches multiple bindings in the tree
// // all of them are returned so that we can fallback if the action
// // handler decides to propagate the action
// assert_eq!(
// matcher.match_keystroke(Keystroke::parse("d")?, dispatch_path.clone()),
// KeyMatch::Matches(vec![(2, Box::new(D)), (1, Box::new(D))]),
// );
// Binding with pending prefix always takes precedence
assert_eq!(
matcher.match_keystroke(&Keystroke::parse("a").unwrap(), &dispatch_path),
KeyMatch::Pending,
);
// B alone doesn't match because a was pending, so AB is returned instead
assert_eq!(
matcher.match_keystroke(&Keystroke::parse("b").unwrap(), &dispatch_path),
KeyMatch::Some(vec![Box::new(AB)]),
);
assert!(!matcher.has_pending_keystrokes());
// // If none of the d action handlers consume the binding, a pending
// // binding may then be used
// assert_eq!(
// matcher.match_keystroke(Keystroke::parse("a")?, dispatch_path.clone()),
// KeyMatch::Matches(vec![(2, Box::new(DA))]),
// );
// assert!(!matcher.has_pending_keystrokes());
// Without an a prefix, B is dispatched like expected
assert_eq!(
matcher.match_keystroke(&Keystroke::parse("b").unwrap(), &dispatch_path[0..1]),
KeyMatch::Some(vec![Box::new(B)]),
);
assert!(!matcher.has_pending_keystrokes());
// Ok(())
// }
eprintln!("PROBLEM AREA");
// If a is prefixed, C will not be dispatched because there
// was a pending binding for it
assert_eq!(
matcher.match_keystroke(&Keystroke::parse("a").unwrap(), &dispatch_path),
KeyMatch::Pending,
);
assert_eq!(
matcher.match_keystroke(&Keystroke::parse("c").unwrap(), &dispatch_path),
KeyMatch::None,
);
assert!(!matcher.has_pending_keystrokes());
// #[test]
// fn test_keystroke_parsing() -> Result<()> {
// assert_eq!(
// Keystroke::parse("ctrl-p")?,
// Keystroke {
// key: "p".into(),
// ctrl: true,
// alt: false,
// shift: false,
// cmd: false,
// function: false,
// ime_key: None,
// }
// );
// If a single keystroke matches multiple bindings in the tree
// only one of them is returned.
assert_eq!(
matcher.match_keystroke(&Keystroke::parse("d").unwrap(), &dispatch_path),
KeyMatch::Some(vec![Box::new(D)]),
);
}
// assert_eq!(
// Keystroke::parse("alt-shift-down")?,
// Keystroke {
// key: "down".into(),
// ctrl: false,
// alt: true,
// shift: true,
// cmd: false,
// function: false,
// ime_key: None,
// }
// );
#[test]
fn test_keystroke_parsing() {
assert_eq!(
Keystroke::parse("ctrl-p").unwrap(),
Keystroke {
key: "p".into(),
modifiers: Modifiers {
control: true,
alt: false,
shift: false,
command: false,
function: false,
},
ime_key: None,
}
);
// assert_eq!(
// Keystroke::parse("shift-cmd--")?,
// Keystroke {
// key: "-".into(),
// ctrl: false,
// alt: false,
// shift: true,
// cmd: true,
// function: false,
// ime_key: None,
// }
// );
assert_eq!(
Keystroke::parse("alt-shift-down").unwrap(),
Keystroke {
key: "down".into(),
modifiers: Modifiers {
control: false,
alt: true,
shift: true,
command: false,
function: false,
},
ime_key: None,
}
);
// Ok(())
// }
assert_eq!(
Keystroke::parse("shift-cmd--").unwrap(),
Keystroke {
key: "-".into(),
modifiers: Modifiers {
control: false,
alt: false,
shift: true,
command: true,
function: false,
},
ime_key: None,
}
);
}
// #[test]
// fn test_context_predicate_parsing() -> Result<()> {
// use KeymapContextPredicate::*;
#[test]
fn test_context_predicate_parsing() {
use KeyBindingContextPredicate::*;
// assert_eq!(
// KeymapContextPredicate::parse("a && (b == c || d != e)")?,
// And(
// Box::new(Identifier("a".into())),
// Box::new(Or(
// Box::new(Equal("b".into(), "c".into())),
// Box::new(NotEqual("d".into(), "e".into())),
// ))
// )
// );
assert_eq!(
KeyBindingContextPredicate::parse("a && (b == c || d != e)").unwrap(),
And(
Box::new(Identifier("a".into())),
Box::new(Or(
Box::new(Equal("b".into(), "c".into())),
Box::new(NotEqual("d".into(), "e".into())),
))
)
);
// assert_eq!(
// KeymapContextPredicate::parse("!a")?,
// Not(Box::new(Identifier("a".into())),)
// );
assert_eq!(
KeyBindingContextPredicate::parse("!a").unwrap(),
Not(Box::new(Identifier("a".into())),)
);
}
// Ok(())
// }
#[test]
fn test_context_predicate_eval() {
let predicate = KeyBindingContextPredicate::parse("a && b || c == d").unwrap();
// #[test]
// fn test_context_predicate_eval() {
// let predicate = KeymapContextPredicate::parse("a && b || c == d").unwrap();
let mut context = KeyContext::default();
context.add("a");
assert!(!predicate.eval(&[context]));
// let mut context = ActionContext::default();
// context.add_identifier("a");
// assert!(!predicate.eval(&[context]));
let mut context = KeyContext::default();
context.add("a");
context.add("b");
assert!(predicate.eval(&[context]));
// let mut context = ActionContext::default();
// context.add_identifier("a");
// context.add_identifier("b");
// assert!(predicate.eval(&[context]));
let mut context = KeyContext::default();
context.add("a");
context.set("c", "x");
assert!(!predicate.eval(&[context]));
// let mut context = ActionContext::default();
// context.add_identifier("a");
// context.add_key("c", "x");
// assert!(!predicate.eval(&[context]));
let mut context = KeyContext::default();
context.add("a");
context.set("c", "d");
assert!(predicate.eval(&[context]));
// let mut context = ActionContext::default();
// context.add_identifier("a");
// context.add_key("c", "d");
// assert!(predicate.eval(&[context]));
let predicate = KeyBindingContextPredicate::parse("!a").unwrap();
assert!(predicate.eval(&[KeyContext::default()]));
}
// let predicate = KeymapContextPredicate::parse("!a").unwrap();
// assert!(predicate.eval(&[ActionContext::default()]));
// }
#[test]
fn test_context_child_predicate_eval() {
let predicate = KeyBindingContextPredicate::parse("a && b > c").unwrap();
let contexts = [
context_set(&["e", "f"]),
context_set(&["c", "d"]), // match this context
context_set(&["a", "b"]),
];
// #[test]
// fn test_context_child_predicate_eval() {
// let predicate = KeymapContextPredicate::parse("a && b > c").unwrap();
// let contexts = [
// context_set(&["e", "f"]),
// context_set(&["c", "d"]), // match this context
// context_set(&["a", "b"]),
// ];
assert!(!predicate.eval(&contexts[0..]));
assert!(predicate.eval(&contexts[1..]));
assert!(!predicate.eval(&contexts[2..]));
// assert!(!predicate.eval(&contexts[0..]));
// assert!(predicate.eval(&contexts[1..]));
// assert!(!predicate.eval(&contexts[2..]));
let predicate = KeyBindingContextPredicate::parse("a && b > c && !d > e").unwrap();
let contexts = [
context_set(&["f"]),
context_set(&["e"]), // only match this context
context_set(&["c"]),
context_set(&["a", "b"]),
context_set(&["e"]),
context_set(&["c", "d"]),
context_set(&["a", "b"]),
];
// let predicate = KeymapContextPredicate::parse("a && b > c && !d > e").unwrap();
// let contexts = [
// context_set(&["f"]),
// context_set(&["e"]), // only match this context
// context_set(&["c"]),
// context_set(&["a", "b"]),
// context_set(&["e"]),
// context_set(&["c", "d"]),
// context_set(&["a", "b"]),
// ];
assert!(!predicate.eval(&contexts[0..]));
assert!(predicate.eval(&contexts[1..]));
assert!(!predicate.eval(&contexts[2..]));
assert!(!predicate.eval(&contexts[3..]));
assert!(!predicate.eval(&contexts[4..]));
assert!(!predicate.eval(&contexts[5..]));
assert!(!predicate.eval(&contexts[6..]));
// assert!(!predicate.eval(&contexts[0..]));
// assert!(predicate.eval(&contexts[1..]));
// assert!(!predicate.eval(&contexts[2..]));
// assert!(!predicate.eval(&contexts[3..]));
// assert!(!predicate.eval(&contexts[4..]));
// assert!(!predicate.eval(&contexts[5..]));
// assert!(!predicate.eval(&contexts[6..]));
fn context_set(names: &[&str]) -> KeyContext {
let mut keymap = KeyContext::default();
names.iter().for_each(|name| keymap.add(name.to_string()));
keymap
}
}
// fn context_set(names: &[&str]) -> ActionContext {
// let mut keymap = ActionContext::new();
// names
// .iter()
// .for_each(|name| keymap.add_identifier(name.to_string()));
// keymap
// }
// }
#[test]
fn test_matcher() {
#[derive(Clone, Deserialize, PartialEq, Eq, Debug)]
pub struct A(pub String);
impl_actions!(test, [A]);
actions!(test, [B, Ab, Dollar, Quote, Ess, Backtick]);
// #[test]
// fn test_matcher() -> Result<()> {
// #[derive(Clone, Deserialize, PartialEq, Eq, Debug)]
// pub struct A(pub String);
// impl_actions!(test, [A]);
// actions!(test, [B, Ab, Dollar, Quote, Ess, Backtick]);
#[derive(Clone, Debug, Eq, PartialEq)]
struct ActionArg {
a: &'static str,
}
// #[derive(Clone, Debug, Eq, PartialEq)]
// struct ActionArg {
// a: &'static str,
// }
let keymap = Keymap::new(vec![
KeyBinding::new("a", A("x".to_string()), Some("a")),
KeyBinding::new("b", B, Some("a")),
KeyBinding::new("a b", Ab, Some("a || b")),
KeyBinding::new("$", Dollar, Some("a")),
KeyBinding::new("\"", Quote, Some("a")),
KeyBinding::new("alt-s", Ess, Some("a")),
KeyBinding::new("ctrl-`", Backtick, Some("a")),
]);
// let keymap = Keymap::new(vec![
// Binding::new("a", A("x".to_string()), Some("a")),
// Binding::new("b", B, Some("a")),
// Binding::new("a b", Ab, Some("a || b")),
// Binding::new("$", Dollar, Some("a")),
// Binding::new("\"", Quote, Some("a")),
// Binding::new("alt-s", Ess, Some("a")),
// Binding::new("ctrl-`", Backtick, Some("a")),
// ]);
let mut context_a = KeyContext::default();
context_a.add("a");
// let mut context_a = ActionContext::default();
// context_a.add_identifier("a");
let mut context_b = KeyContext::default();
context_b.add("b");
// let mut context_b = ActionContext::default();
// context_b.add_identifier("b");
let mut matcher = KeystrokeMatcher::new(Arc::new(Mutex::new(keymap)));
// let mut matcher = KeymapMatcher::new(keymap);
// Basic match
assert_eq!(
matcher.match_keystroke(&Keystroke::parse("a").unwrap(), &[context_a.clone()]),
KeyMatch::Some(vec![Box::new(A("x".to_string()))])
);
matcher.clear_pending();
// // Basic match
// assert_eq!(
// matcher.match_keystroke(Keystroke::parse("a")?, vec![(1, context_a.clone())]),
// KeyMatch::Matches(vec![(1, Box::new(A("x".to_string())))])
// );
// matcher.clear_pending();
// Multi-keystroke match
assert_eq!(
matcher.match_keystroke(&Keystroke::parse("a").unwrap(), &[context_b.clone()]),
KeyMatch::Pending
);
assert_eq!(
matcher.match_keystroke(&Keystroke::parse("b").unwrap(), &[context_b.clone()]),
KeyMatch::Some(vec![Box::new(Ab)])
);
matcher.clear_pending();
// // Multi-keystroke match
// assert_eq!(
// matcher.match_keystroke(Keystroke::parse("a")?, vec![(1, context_b.clone())]),
// KeyMatch::Pending
// );
// assert_eq!(
// matcher.match_keystroke(Keystroke::parse("b")?, vec![(1, context_b.clone())]),
// KeyMatch::Matches(vec![(1, Box::new(Ab))])
// );
// matcher.clear_pending();
// Failed matches don't interfere with matching subsequent keys
assert_eq!(
matcher.match_keystroke(&Keystroke::parse("x").unwrap(), &[context_a.clone()]),
KeyMatch::None
);
assert_eq!(
matcher.match_keystroke(&Keystroke::parse("a").unwrap(), &[context_a.clone()]),
KeyMatch::Some(vec![Box::new(A("x".to_string()))])
);
matcher.clear_pending();
// // Failed matches don't interfere with matching subsequent keys
// assert_eq!(
// matcher.match_keystroke(Keystroke::parse("x")?, vec![(1, context_a.clone())]),
// KeyMatch::None
// );
// assert_eq!(
// matcher.match_keystroke(Keystroke::parse("a")?, vec![(1, context_a.clone())]),
// KeyMatch::Matches(vec![(1, Box::new(A("x".to_string())))])
// );
// matcher.clear_pending();
let mut context_c = KeyContext::default();
context_c.add("c");
// // Pending keystrokes are cleared when the context changes
// assert_eq!(
// matcher.match_keystroke(Keystroke::parse("a")?, vec![(1, context_b.clone())]),
// KeyMatch::Pending
// );
// assert_eq!(
// matcher.match_keystroke(Keystroke::parse("b")?, vec![(1, context_a.clone())]),
// KeyMatch::None
// );
// matcher.clear_pending();
assert_eq!(
matcher.match_keystroke(
&Keystroke::parse("a").unwrap(),
&[context_c.clone(), context_b.clone()]
),
KeyMatch::Pending
);
assert_eq!(
matcher.match_keystroke(&Keystroke::parse("b").unwrap(), &[context_b.clone()]),
KeyMatch::Some(vec![Box::new(Ab)])
);
// let mut context_c = ActionContext::default();
// context_c.add_identifier("c");
// handle Czech $ (option + 4 key)
assert_eq!(
matcher.match_keystroke(&Keystroke::parse("alt-ç->$").unwrap(), &[context_a.clone()]),
KeyMatch::Some(vec![Box::new(Dollar)])
);
// // Pending keystrokes are maintained per-view
// assert_eq!(
// matcher.match_keystroke(
// Keystroke::parse("a")?,
// vec![(1, context_b.clone()), (2, context_c.clone())]
// ),
// KeyMatch::Pending
// );
// assert_eq!(
// matcher.match_keystroke(Keystroke::parse("b")?, vec![(1, context_b.clone())]),
// KeyMatch::Matches(vec![(1, Box::new(Ab))])
// );
// handle Brazillian quote (quote key then space key)
assert_eq!(
matcher.match_keystroke(
&Keystroke::parse("space->\"").unwrap(),
&[context_a.clone()]
),
KeyMatch::Some(vec![Box::new(Quote)])
);
// // handle Czech $ (option + 4 key)
// assert_eq!(
// matcher.match_keystroke(Keystroke::parse("alt-ç->$")?, vec![(1, context_a.clone())]),
// KeyMatch::Matches(vec![(1, Box::new(Dollar))])
// );
// handle ctrl+` on a brazillian keyboard
assert_eq!(
matcher.match_keystroke(&Keystroke::parse("ctrl-->`").unwrap(), &[context_a.clone()]),
KeyMatch::Some(vec![Box::new(Backtick)])
);
// // handle Brazillian quote (quote key then space key)
// assert_eq!(
// matcher.match_keystroke(Keystroke::parse("space->\"")?, vec![(1, context_a.clone())]),
// KeyMatch::Matches(vec![(1, Box::new(Quote))])
// );
// // handle ctrl+` on a brazillian keyboard
// assert_eq!(
// matcher.match_keystroke(Keystroke::parse("ctrl-->`")?, vec![(1, context_a.clone())]),
// KeyMatch::Matches(vec![(1, Box::new(Backtick))])
// );
// // handle alt-s on a US keyboard
// assert_eq!(
// matcher.match_keystroke(Keystroke::parse("alt-s->ß")?, vec![(1, context_a.clone())]),
// KeyMatch::Matches(vec![(1, Box::new(Ess))])
// );
// Ok(())
// }
// }
// handle alt-s on a US keyboard
assert_eq!(
matcher.match_keystroke(&Keystroke::parse("alt-s->ß").unwrap(), &[context_a.clone()]),
KeyMatch::Some(vec![Box::new(Ess)])
);
}
}

200
crates/gpui/src/platform/mac/text_system.rs
View File

@ -592,169 +592,49 @@ impl From<FontStyle> for FontkitStyle {
}
}
// #[cfg(test)]
// mod tests {
// use super::*;
// use crate::AppContext;
// use font_kit::properties::{Style, Weight};
// use platform::FontSystem as _;
#[cfg(test)]
mod tests {
use crate::{font, px, FontRun, MacTextSystem, PlatformTextSystem};
// #[crate::test(self, retries = 5)]
// fn test_layout_str(_: &mut AppContext) {
// // This is failing intermittently on CI and we don't have time to figure it out
// let fonts = FontSystem::new();
// let menlo = fonts.load_family("Menlo", &Default::default()).unwrap();
// let menlo_regular = RunStyle {
// font_id: fonts.select_font(&menlo, &Properties::new()).unwrap(),
// color: Default::default(),
// underline: Default::default(),
// };
// let menlo_italic = RunStyle {
// font_id: fonts
// .select_font(&menlo, Properties::new().style(Style::Italic))
// .unwrap(),
// color: Default::default(),
// underline: Default::default(),
// };
// let menlo_bold = RunStyle {
// font_id: fonts
// .select_font(&menlo, Properties::new().weight(Weight::BOLD))
// .unwrap(),
// color: Default::default(),
// underline: Default::default(),
// };
// assert_ne!(menlo_regular, menlo_italic);
// assert_ne!(menlo_regular, menlo_bold);
// assert_ne!(menlo_italic, menlo_bold);
#[test]
fn test_wrap_line() {
let fonts = MacTextSystem::new();
let font_id = fonts.font_id(&font("Helvetica")).unwrap();
// let line = fonts.layout_line(
// "hello world",
// 16.0,
// &[(2, menlo_bold), (4, menlo_italic), (5, menlo_regular)],
// );
// assert_eq!(line.runs.len(), 3);
// assert_eq!(line.runs[0].font_id, menlo_bold.font_id);
// assert_eq!(line.runs[0].glyphs.len(), 2);
// assert_eq!(line.runs[1].font_id, menlo_italic.font_id);
// assert_eq!(line.runs[1].glyphs.len(), 4);
// assert_eq!(line.runs[2].font_id, menlo_regular.font_id);
// assert_eq!(line.runs[2].glyphs.len(), 5);
// }
let line = "one two three four five\n";
let wrap_boundaries = fonts.wrap_line(line, font_id, px(16.), px(64.0));
assert_eq!(wrap_boundaries, &["one two ".len(), "one two three ".len()]);
// #[test]
// fn test_glyph_offsets() -> crate::Result<()> {
// let fonts = FontSystem::new();
// let zapfino = fonts.load_family("Zapfino", &Default::default())?;
// let zapfino_regular = RunStyle {
// font_id: fonts.select_font(&zapfino, &Properties::new())?,
// color: Default::default(),
// underline: Default::default(),
// };
// let menlo = fonts.load_family("Menlo", &Default::default())?;
// let menlo_regular = RunStyle {
// font_id: fonts.select_font(&menlo, &Properties::new())?,
// color: Default::default(),
// underline: Default::default(),
// };
let line = "aaa ααα ✋✋✋ 🎉🎉🎉\n";
let wrap_boundaries = fonts.wrap_line(line, font_id, px(16.), px(64.0));
assert_eq!(
wrap_boundaries,
&["aaa ααα ".len(), "aaa ααα ✋✋✋ ".len(),]
);
}
// let text = "This is, m𐍈re 𐍈r less, Zapfino!𐍈";
// let line = fonts.layout_line(
// text,
// 16.0,
// &[
// (9, zapfino_regular),
// (13, menlo_regular),
// (text.len() - 22, zapfino_regular),
// ],
// );
// assert_eq!(
// line.runs
// .iter()
// .flat_map(|r| r.glyphs.iter())
// .map(|g| g.index)
// .collect::<Vec<_>>(),
// vec![0, 2, 4, 5, 7, 8, 9, 10, 14, 15, 16, 17, 21, 22, 23, 24, 26, 27, 28, 29, 36, 37],
// );
// Ok(())
// }
#[test]
fn test_layout_line_bom_char() {
let fonts = MacTextSystem::new();
let font_id = fonts.font_id(&font("Helvetica")).unwrap();
let line = "\u{feff}";
let mut style = FontRun {
font_id,
len: line.len(),
};
// #[test]
// #[ignore]
// fn test_rasterize_glyph() {
// use std::{fs::File, io::BufWriter, path::Path};
let layout = fonts.layout_line(line, px(16.), &[style]);
assert_eq!(layout.len, line.len());
assert!(layout.runs.is_empty());
// let fonts = FontSystem::new();
// let font_ids = fonts.load_family("Fira Code", &Default::default()).unwrap();
// let font_id = fonts.select_font(&font_ids, &Default::default()).unwrap();
// let glyph_id = fonts.glyph_for_char(font_id, 'G').unwrap();
// const VARIANTS: usize = 1;
// for i in 0..VARIANTS {
// let variant = i as f32 / VARIANTS as f32;
// let (bounds, bytes) = fonts
// .rasterize_glyph(
// font_id,
// 16.0,
// glyph_id,
// vec2f(variant, variant),
// 2.,
// RasterizationOptions::Alpha,
// )
// .unwrap();
// let name = format!("/Users/as-cii/Desktop/twog-{}.png", i);
// let path = Path::new(&name);
// let file = File::create(path).unwrap();
// let w = &mut BufWriter::new(file);
// let mut encoder = png::Encoder::new(w, bounds.width() as u32, bounds.height() as u32);
// encoder.set_color(png::ColorType::Grayscale);
// encoder.set_depth(png::BitDepth::Eight);
// let mut writer = encoder.write_header().unwrap();
// writer.write_image_data(&bytes).unwrap();
// }
// }
// #[test]
// fn test_wrap_line() {
// let fonts = FontSystem::new();
// let font_ids = fonts.load_family("Helvetica", &Default::default()).unwrap();
// let font_id = fonts.select_font(&font_ids, &Default::default()).unwrap();
// let line = "one two three four five\n";
// let wrap_boundaries = fonts.wrap_line(line, font_id, 16., 64.0);
// assert_eq!(wrap_boundaries, &["one two ".len(), "one two three ".len()]);
// let line = "aaa ααα ✋✋✋ 🎉🎉🎉\n";
// let wrap_boundaries = fonts.wrap_line(line, font_id, 16., 64.0);
// assert_eq!(
// wrap_boundaries,
// &["aaa ααα ".len(), "aaa ααα ✋✋✋ ".len(),]
// );
// }
// #[test]
// fn test_layout_line_bom_char() {
// let fonts = FontSystem::new();
// let font_ids = fonts.load_family("Helvetica", &Default::default()).unwrap();
// let style = RunStyle {
// font_id: fonts.select_font(&font_ids, &Default::default()).unwrap(),
// color: Default::default(),
// underline: Default::default(),
// };
// let line = "\u{feff}";
// let layout = fonts.layout_line(line, 16., &[(line.len(), style)]);
// assert_eq!(layout.len, line.len());
// assert!(layout.runs.is_empty());
// let line = "a\u{feff}b";
// let layout = fonts.layout_line(line, 16., &[(line.len(), style)]);
// assert_eq!(layout.len, line.len());
// assert_eq!(layout.runs.len(), 1);
// assert_eq!(layout.runs[0].glyphs.len(), 2);
// assert_eq!(layout.runs[0].glyphs[0].id, 68); // a
// // There's no glyph for \u{feff}
// assert_eq!(layout.runs[0].glyphs[1].id, 69); // b
// }
// }
let line = "a\u{feff}b";
style.len = line.len();
let layout = fonts.layout_line(line, px(16.), &[style]);
assert_eq!(layout.len, line.len());
assert_eq!(layout.runs.len(), 1);
assert_eq!(layout.runs[0].glyphs.len(), 2);
assert_eq!(layout.runs[0].glyphs[0].id, 68u32.into()); // a
// There's no glyph for \u{feff}
assert_eq!(layout.runs[0].glyphs[1].id, 69u32.into()); // b
}
}