helix-mods/helix-term/tests/test/commands.rs
2023-02-03 08:24:46 -06:00

414 lines
10 KiB
Rust

use std::ops::RangeInclusive;
use helix_core::diagnostic::Severity;
use helix_term::application::Application;
use super::*;
#[tokio::test(flavor = "multi_thread")]
async fn test_write_quit_fail() -> anyhow::Result<()> {
let file = helpers::new_readonly_tempfile()?;
let mut app = helpers::AppBuilder::new()
.with_file(file.path(), None)
.build()?;
test_key_sequence(
&mut app,
Some("ihello<esc>:wq<ret>"),
Some(&|app| {
let mut docs: Vec<_> = app.editor.documents().collect();
assert_eq!(1, docs.len());
let doc = docs.pop().unwrap();
assert_eq!(Some(file.path()), doc.path().map(PathBuf::as_path));
assert_eq!(&Severity::Error, app.editor.get_status().unwrap().1);
}),
false,
)
.await?;
Ok(())
}
#[tokio::test(flavor = "multi_thread")]
async fn test_buffer_close_concurrent() -> anyhow::Result<()> {
test_key_sequences(
&mut helpers::AppBuilder::new().build()?,
vec![
(
None,
Some(&|app| {
assert_eq!(1, app.editor.documents().count());
assert!(!app.editor.is_err());
}),
),
(
Some("ihello<esc>:new<ret>"),
Some(&|app| {
assert_eq!(2, app.editor.documents().count());
assert!(!app.editor.is_err());
}),
),
(
Some(":buffer<minus>close<ret>"),
Some(&|app| {
assert_eq!(1, app.editor.documents().count());
assert!(!app.editor.is_err());
}),
),
],
false,
)
.await?;
// verify if writes are queued up, it finishes them before closing the buffer
let mut file = tempfile::NamedTempFile::new()?;
let mut command = String::new();
const RANGE: RangeInclusive<i32> = 1..=1000;
for i in RANGE {
let cmd = format!("%c{}<esc>:w<ret>", i);
command.push_str(&cmd);
}
command.push_str(":buffer<minus>close<ret>");
let mut app = helpers::AppBuilder::new()
.with_file(file.path(), None)
.build()?;
test_key_sequence(
&mut app,
Some(&command),
Some(&|app| {
assert!(!app.editor.is_err(), "error: {:?}", app.editor.get_status());
let doc = app.editor.document_by_path(file.path());
assert!(doc.is_none(), "found doc: {:?}", doc);
}),
false,
)
.await?;
helpers::assert_file_has_content(file.as_file_mut(), &RANGE.end().to_string())?;
Ok(())
}
#[tokio::test(flavor = "multi_thread")]
async fn test_selection_duplication() -> anyhow::Result<()> {
// Forward
test((
platform_line(indoc! {"\
#[lo|]#rem
ipsum
dolor
"})
.as_str(),
"CC",
platform_line(indoc! {"\
#(lo|)#rem
#(ip|)#sum
#[do|]#lor
"})
.as_str(),
))
.await?;
// Backward
test((
platform_line(indoc! {"\
#[|lo]#rem
ipsum
dolor
"})
.as_str(),
"CC",
platform_line(indoc! {"\
#(|lo)#rem
#(|ip)#sum
#[|do]#lor
"})
.as_str(),
))
.await?;
Ok(())
}
#[tokio::test(flavor = "multi_thread")]
async fn test_goto_file_impl() -> anyhow::Result<()> {
let file = tempfile::NamedTempFile::new()?;
fn match_paths(app: &Application, matches: Vec<&str>) -> usize {
app.editor
.documents()
.filter_map(|d| d.path()?.file_name())
.filter(|n| matches.iter().any(|m| *m == n.to_string_lossy()))
.count()
}
// Single selection
test_key_sequence(
&mut AppBuilder::new().with_file(file.path(), None).build()?,
Some("ione.js<esc>%gf"),
Some(&|app| {
assert_eq!(1, match_paths(app, vec!["one.js"]));
}),
false,
)
.await?;
// Multiple selection
test_key_sequence(
&mut AppBuilder::new().with_file(file.path(), None).build()?,
Some("ione.js<ret>two.js<esc>%<A-s>gf"),
Some(&|app| {
assert_eq!(2, match_paths(app, vec!["one.js", "two.js"]));
}),
false,
)
.await?;
// Cursor on first quote
test_key_sequence(
&mut AppBuilder::new().with_file(file.path(), None).build()?,
Some("iimport 'one.js'<esc>B;gf"),
Some(&|app| {
assert_eq!(1, match_paths(app, vec!["one.js"]));
}),
false,
)
.await?;
// Cursor on last quote
test_key_sequence(
&mut AppBuilder::new().with_file(file.path(), None).build()?,
Some("iimport 'one.js'<esc>bgf"),
Some(&|app| {
assert_eq!(1, match_paths(app, vec!["one.js"]));
}),
false,
)
.await?;
Ok(())
}
#[tokio::test(flavor = "multi_thread")]
async fn test_multi_selection_paste() -> anyhow::Result<()> {
test((
platform_line(indoc! {"\
#[|lorem]#
#(|ipsum)#
#(|dolor)#
"})
.as_str(),
"yp",
platform_line(indoc! {"\
lorem#[|lorem]#
ipsum#(|ipsum)#
dolor#(|dolor)#
"})
.as_str(),
))
.await?;
Ok(())
}
#[tokio::test(flavor = "multi_thread")]
async fn test_multi_selection_shell_commands() -> anyhow::Result<()> {
// pipe
test((
platform_line(indoc! {"\
#[|lorem]#
#(|ipsum)#
#(|dolor)#
"})
.as_str(),
"|echo foo<ret>",
platform_line(indoc! {"\
#[|foo
]#
#(|foo
)#
#(|foo
)#
"})
.as_str(),
))
.await?;
// insert-output
test((
platform_line(indoc! {"\
#[|lorem]#
#(|ipsum)#
#(|dolor)#
"})
.as_str(),
"!echo foo<ret>",
platform_line(indoc! {"\
#[|foo
]#lorem
#(|foo
)#ipsum
#(|foo
)#dolor
"})
.as_str(),
))
.await?;
// append-output
test((
platform_line(indoc! {"\
#[|lorem]#
#(|ipsum)#
#(|dolor)#
"})
.as_str(),
"<A-!>echo foo<ret>",
platform_line(indoc! {"\
lorem#[|foo
]#
ipsum#(|foo
)#
dolor#(|foo
)#
"})
.as_str(),
))
.await?;
Ok(())
}
#[tokio::test(flavor = "multi_thread")]
async fn test_undo_redo() -> anyhow::Result<()> {
// A jumplist selection is created at a point which is undone.
//
// * 2[<space> Add two newlines at line start. We're now on line 3.
// * <C-s> Save the selection on line 3 in the jumplist.
// * u Undo the two newlines. We're now on line 1.
// * <C-o><C-i> Jump forward an back again in the jumplist. This would panic
// if the jumplist were not being updated correctly.
test(("#[|]#", "2[<space><C-s>u<C-o><C-i>", "#[|]#")).await?;
// A jumplist selection is passed through an edit and then an undo and then a redo.
//
// * [<space> Add a newline at line start. We're now on line 2.
// * <C-s> Save the selection on line 2 in the jumplist.
// * kd Delete line 1. The jumplist selection should be adjusted to the new line 1.
// * uU Undo and redo the `kd` edit.
// * <C-o> Jump back in the jumplist. This would panic if the jumplist were not being
// updated correctly.
// * <C-i> Jump forward to line 1.
test(("#[|]#", "[<space><C-s>kduU<C-o><C-i>", "#[|]#")).await?;
// In this case we 'redo' manually to ensure that the transactions are composing correctly.
test(("#[|]#", "[<space>u[<space>u", "#[|]#")).await?;
Ok(())
}
#[tokio::test(flavor = "multi_thread")]
async fn test_extend_line() -> anyhow::Result<()> {
// extend with line selected then count
test((
platform_line(indoc! {"\
#[l|]#orem
ipsum
dolor
"})
.as_str(),
"x2x",
platform_line(indoc! {"\
#[lorem
ipsum
dolor
|]#
"})
.as_str(),
))
.await?;
// extend with count on partial selection
test((
platform_line(indoc! {"\
#[l|]#orem
ipsum
"})
.as_str(),
"2x",
platform_line(indoc! {"\
#[lorem
ipsum
|]#
"})
.as_str(),
))
.await?;
Ok(())
}
#[tokio::test(flavor = "multi_thread")]
async fn test_character_info() -> anyhow::Result<()> {
// UTF-8, single byte
test_key_sequence(
&mut helpers::AppBuilder::new().build()?,
Some("ih<esc>h:char<ret>"),
Some(&|app| {
assert_eq!(
r#""h" (U+0068) Dec 104 Hex 68"#,
app.editor.get_status().unwrap().0
);
}),
false,
)
.await?;
// UTF-8, multi-byte
test_key_sequence(
&mut helpers::AppBuilder::new().build()?,
Some("ië<esc>h:char<ret>"),
Some(&|app| {
assert_eq!(
r#""ë" (U+0065 U+0308) Hex 65 + cc 88"#,
app.editor.get_status().unwrap().0
);
}),
false,
)
.await?;
// Multiple characters displayed as one, escaped characters
test_key_sequence(
&mut helpers::AppBuilder::new().build()?,
Some(":line<minus>ending crlf<ret>:char<ret>"),
Some(&|app| {
assert_eq!(
r#""\r\n" (U+000d U+000a) Hex 0d + 0a"#,
app.editor.get_status().unwrap().0
);
}),
false,
)
.await?;
// Non-UTF-8
test_key_sequence(
&mut helpers::AppBuilder::new().build()?,
Some(":encoding ascii<ret>ih<esc>h:char<ret>"),
Some(&|app| {
assert_eq!(r#""h" Dec 104 Hex 68"#, app.editor.get_status().unwrap().0);
}),
false,
)
.await?;
Ok(())
}