helix-mods/helix-term/tests/test/splits.rs
Skyler Hawthorne f5991657f4
Factor out line ending handling in integration tests (#9921)
Prior to this change, every integration test which wanted its line
endings to be handled transparently across platforms, i.e. test with
the same input that has its platform's line feed characters, converting
the line endings was up to each individual test by calling the
`platform_line` helper function. This significantly increases the amount
of boilerplate one has to copy between all the tests.

However, there are some test cases that need to exert strict control
over the exact input text without being manipulated behind the scenes by
the test framework.

So, with this change, the line feed conversions are factored into
the `TestCase` struct. By default, line endings of the input text
are converted to the platform's native line feed ending, but one can
explicitly specify in their test case when the input text should be left
alone and tested as is.
2024-03-31 07:12:17 -05:00

209 lines
7.3 KiB
Rust

use super::*;
use helix_stdx::path;
#[tokio::test(flavor = "multi_thread")]
async fn test_split_write_quit_all() -> anyhow::Result<()> {
let mut file1 = tempfile::NamedTempFile::new()?;
let mut file2 = tempfile::NamedTempFile::new()?;
let mut file3 = tempfile::NamedTempFile::new()?;
let mut app = helpers::AppBuilder::new()
.with_file(file1.path(), None)
.build()?;
test_key_sequences(
&mut app,
vec![
(
Some(&format!(
"ihello1<esc>:sp<ret>:o {}<ret>ihello2<esc>:sp<ret>:o {}<ret>ihello3<esc>",
file2.path().to_string_lossy(),
file3.path().to_string_lossy()
)),
Some(&|app| {
let docs: Vec<_> = app.editor.documents().collect();
assert_eq!(3, docs.len());
let doc1 = docs
.iter()
.find(|doc| doc.path().unwrap() == &path::normalize(file1.path()))
.unwrap();
assert_eq!("hello1", doc1.text().to_string());
let doc2 = docs
.iter()
.find(|doc| doc.path().unwrap() == &path::normalize(file2.path()))
.unwrap();
assert_eq!("hello2", doc2.text().to_string());
let doc3 = docs
.iter()
.find(|doc| doc.path().unwrap() == &path::normalize(file3.path()))
.unwrap();
assert_eq!("hello3", doc3.text().to_string());
helpers::assert_status_not_error(&app.editor);
assert_eq!(3, app.editor.tree.views().count());
}),
),
(
Some(":wqa<ret>"),
Some(&|app| {
helpers::assert_status_not_error(&app.editor);
assert_eq!(0, app.editor.tree.views().count());
}),
),
],
true,
)
.await?;
helpers::assert_file_has_content(
file1.as_file_mut(),
&LineFeedHandling::Native.apply("hello1"),
)?;
helpers::assert_file_has_content(
file2.as_file_mut(),
&LineFeedHandling::Native.apply("hello2"),
)?;
helpers::assert_file_has_content(
file3.as_file_mut(),
&LineFeedHandling::Native.apply("hello3"),
)?;
Ok(())
}
#[tokio::test(flavor = "multi_thread")]
async fn test_split_write_quit_same_file() -> anyhow::Result<()> {
let mut file = tempfile::NamedTempFile::new()?;
let mut app = helpers::AppBuilder::new()
.with_file(file.path(), None)
.build()?;
test_key_sequences(
&mut app,
vec![
(
Some("O<esc>ihello<esc>:sp<ret>ogoodbye<esc>"),
Some(&|app| {
assert_eq!(2, app.editor.tree.views().count());
helpers::assert_status_not_error(&app.editor);
let mut docs: Vec<_> = app.editor.documents().collect();
assert_eq!(1, docs.len());
let doc = docs.pop().unwrap();
assert_eq!(
LineFeedHandling::Native.apply("hello\ngoodbye"),
doc.text().to_string()
);
assert!(doc.is_modified());
}),
),
(
Some(":wq<ret>"),
Some(&|app| {
helpers::assert_status_not_error(&app.editor);
assert_eq!(1, app.editor.tree.views().count());
let mut docs: Vec<_> = app.editor.documents().collect();
assert_eq!(1, docs.len());
let doc = docs.pop().unwrap();
assert_eq!(
LineFeedHandling::Native.apply("hello\ngoodbye"),
doc.text().to_string()
);
assert!(!doc.is_modified());
}),
),
],
false,
)
.await?;
helpers::assert_file_has_content(
file.as_file_mut(),
&LineFeedHandling::Native.apply("hello\ngoodbye"),
)?;
Ok(())
}
#[tokio::test(flavor = "multi_thread")]
async fn test_changes_in_splits_apply_to_all_views() -> anyhow::Result<()> {
// See <https://github.com/helix-editor/helix/issues/4732>.
// Transactions must be applied to any view that has the changed document open.
// This sequence would panic since the jumplist entry would be modified in one
// window but not the other. Attempting to update the changelist in the other
// window would cause a panic since it would point outside of the document.
// The key sequence here:
// * <C-w>v Create a vertical split of the current buffer.
// Both views look at the same doc.
// * [<space> Add a line ending to the beginning of the document.
// The cursor is now at line 2 in window 2.
// * <C-s> Save that selection to the jumplist in window 2.
// * <C-w>w Switch to window 1.
// * kd Delete line 1 in window 1.
// * <C-w>q Close window 1, focusing window 2.
// * d Delete line 1 in window 2.
//
// This panicked in the past because the jumplist entry on line 2 of window 2
// was not updated and after the `kd` step, pointed outside of the document.
test((
"#[|]#",
"<C-w>v[<space><C-s><C-w>wkd<C-w>qd",
"#[|]#",
LineFeedHandling::AsIs,
))
.await?;
// Transactions are applied to the views for windows lazily when they are focused.
// This case panics if the transactions and inversions are not applied in the
// correct order as we switch between windows.
test((
"#[|]#",
"[<space>[<space>[<space><C-w>vuuu<C-w>wUUU<C-w>quuu",
"#[|]#",
LineFeedHandling::AsIs,
))
.await?;
// See <https://github.com/helix-editor/helix/issues/4957>.
// This sequence undoes part of the history and then adds new changes, creating a
// new branch in the history tree. `View::sync_changes` applies transactions down
// and up to the lowest common ancestor in the path between old and new revision
// numbers. If we apply these up/down transactions in the wrong order, this case
// panics.
// The key sequence:
// * 3[<space> Create three empty lines so we are at the end of the document.
// * <C-w>v<C-s> Create a split and save that point at the end of the document
// in the jumplist.
// * <C-w>w Switch back to the first window.
// * uu Undo twice (not three times which would bring us back to the
// root of the tree).
// * 3[<space> Create three empty lines. Now the end of the document is past
// where it was on step 1.
// * <C-w>q Close window 1, focusing window 2 and causing a sync. This step
// panics if we don't apply in the right order.
// * %d Clean up the buffer.
test((
"#[|]#",
"3[<space><C-w>v<C-s><C-w>wuu3[<space><C-w>q%d",
"#[|]#",
LineFeedHandling::AsIs,
))
.await?;
Ok(())
}