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Merge branch 'master' into new-file

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This commit is contained in:
Max Brunsfeld 2021-05-07 10:10:20 -07:00
commit e32b6bc8f8
12 changed files with 1024 additions and 592 deletions
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3
Cargo.toml
View File

@ -12,3 +12,6 @@ core-graphics = {git = "https://github.com/servo/core-foundation-rs", rev = "025
[profile.dev]
split-debuginfo = "unpacked"
[profile.release]
debug = true

294
zed/src/editor/buffer/mod.rs
View File

@ -393,39 +393,48 @@ impl Buffer {
insertion_splits.insert(
base_insertion.id,
SumTree::from_item(InsertionSplit {
fragment_id: FragmentId::min_value().clone(),
extent: 0,
}),
SumTree::from_item(
InsertionSplit {
fragment_id: FragmentId::min_value().clone(),
extent: 0,
},
&(),
),
);
fragments.push(
Fragment {
id: FragmentId::min_value().clone(),
insertion: base_insertion.clone(),
text: base_insertion.text.slice(0..0),
deletions: Default::default(),
max_undos: Default::default(),
visible: true,
},
&(),
);
fragments.push(Fragment {
id: FragmentId::min_value().clone(),
insertion: base_insertion.clone(),
text: base_insertion.text.slice(0..0),
deletions: Default::default(),
max_undos: Default::default(),
visible: true,
});
if base_insertion.text.len() > 0 {
let base_fragment_id =
FragmentId::between(&FragmentId::min_value(), &FragmentId::max_value());
insertion_splits
.get_mut(&base_insertion.id)
.unwrap()
.push(InsertionSplit {
insertion_splits.get_mut(&base_insertion.id).unwrap().push(
InsertionSplit {
fragment_id: base_fragment_id.clone(),
extent: base_insertion.text.len(),
});
fragments.push(Fragment {
id: base_fragment_id,
text: base_insertion.text.clone(),
insertion: base_insertion,
deletions: Default::default(),
max_undos: Default::default(),
visible: true,
});
},
&(),
);
fragments.push(
Fragment {
id: base_fragment_id,
text: base_insertion.text.clone(),
insertion: base_insertion,
deletions: Default::default(),
max_undos: Default::default(),
visible: true,
},
&(),
);
}
Self {
@ -507,22 +516,22 @@ impl Buffer {
let mut summary = TextSummary::default();
let mut cursor = self.fragments.cursor::<usize, usize>();
cursor.seek(&range.start, SeekBias::Right);
cursor.seek(&range.start, SeekBias::Right, &());
if let Some(fragment) = cursor.item() {
let summary_start = cmp::max(*cursor.start(), range.start) - cursor.start();
let summary_end = cmp::min(range.end - cursor.start(), fragment.len());
summary += &fragment.text.slice(summary_start..summary_end).summary();
summary += fragment.text.slice(summary_start..summary_end).summary();
cursor.next();
}
if range.end > *cursor.start() {
summary += &cursor.summary::<TextSummary>(&range.end, SeekBias::Right);
summary += cursor.summary::<TextSummary>(&range.end, SeekBias::Right, &());
if let Some(fragment) = cursor.item() {
let summary_start = cmp::max(*cursor.start(), range.start) - cursor.start();
let summary_end = cmp::min(range.end - cursor.start(), fragment.len());
summary += &fragment.text.slice(summary_start..summary_end).summary();
summary += fragment.text.slice(summary_start..summary_end).summary();
}
}
@ -552,22 +561,22 @@ impl Buffer {
let mut summary = TextSummary::default();
let mut cursor = self.fragments.cursor::<usize, usize>();
cursor.seek(&range.start, SeekBias::Right);
cursor.seek(&range.start, SeekBias::Right, &());
if let Some(fragment) = cursor.item() {
let summary_start = cmp::max(*cursor.start(), range.start) - cursor.start();
let summary_end = cmp::min(range.end - cursor.start(), fragment.len());
summary += &fragment.text.slice(summary_start..summary_end).summary();
summary += fragment.text.slice(summary_start..summary_end).summary();
cursor.next();
}
if range.end > *cursor.start() {
summary += &cursor.summary::<TextSummary>(&range.end, SeekBias::Right);
summary += cursor.summary::<TextSummary>(&range.end, SeekBias::Right, &());
if let Some(fragment) = cursor.item() {
let summary_start = cmp::max(*cursor.start(), range.start) - cursor.start();
let summary_end = cmp::min(range.end - cursor.start(), fragment.len());
summary += &fragment.text.slice(summary_start..summary_end).summary();
summary += fragment.text.slice(summary_start..summary_end).summary();
}
}
@ -970,10 +979,10 @@ impl Buffer {
let mut cursor = old_fragments.cursor::<FragmentIdRef, ()>();
let mut new_fragments =
cursor.slice(&FragmentIdRef::new(&start_fragment_id), SeekBias::Left);
cursor.slice(&FragmentIdRef::new(&start_fragment_id), SeekBias::Left, &());
if start_offset == cursor.item().unwrap().end_offset() {
new_fragments.push(cursor.item().unwrap().clone());
new_fragments.push(cursor.item().unwrap().clone(), &());
cursor.next();
}
@ -1012,30 +1021,33 @@ impl Buffer {
None
};
if let Some(fragment) = before_range {
new_fragments.push(fragment);
new_fragments.push(fragment, &());
}
if let Some(fragment) = insertion {
new_fragments.push(fragment);
new_fragments.push(fragment, &());
}
if let Some(mut fragment) = within_range {
if fragment.was_visible(&version_in_range, &self.undo_map) {
fragment.deletions.insert(local_timestamp);
fragment.visible = false;
}
new_fragments.push(fragment);
new_fragments.push(fragment, &());
}
if let Some(fragment) = after_range {
new_fragments.push(fragment);
new_fragments.push(fragment, &());
}
} else {
if new_text.is_some() && lamport_timestamp > fragment.insertion.lamport_timestamp {
new_fragments.push(self.build_fragment_to_insert(
cursor.prev_item().as_ref().unwrap(),
Some(&fragment),
new_text.take().unwrap(),
local_timestamp,
lamport_timestamp,
));
new_fragments.push(
self.build_fragment_to_insert(
cursor.prev_item().as_ref().unwrap(),
Some(&fragment),
new_text.take().unwrap(),
local_timestamp,
lamport_timestamp,
),
&(),
);
}
if fragment.id < end_fragment_id
@ -1044,23 +1056,26 @@ impl Buffer {
fragment.deletions.insert(local_timestamp);
fragment.visible = false;
}
new_fragments.push(fragment);
new_fragments.push(fragment, &());
}
cursor.next();
}
if let Some(new_text) = new_text {
new_fragments.push(self.build_fragment_to_insert(
cursor.prev_item().as_ref().unwrap(),
None,
new_text,
local_timestamp,
lamport_timestamp,
));
new_fragments.push(
self.build_fragment_to_insert(
cursor.prev_item().as_ref().unwrap(),
None,
new_text,
local_timestamp,
lamport_timestamp,
),
&(),
);
}
new_fragments.push_tree(cursor.slice(&last_id_ref, SeekBias::Right));
new_fragments.push_tree(cursor.slice(&last_id_ref, SeekBias::Right, &()), &());
self.fragments = new_fragments;
self.local_clock.observe(local_timestamp);
self.lamport_clock.observe(lamport_timestamp);
@ -1148,23 +1163,26 @@ impl Buffer {
let mut insertion_splits = splits.cursor::<(), ()>().map(|s| &s.fragment_id).peekable();
let first_split_id = insertion_splits.next().unwrap();
new_fragments = cursor.slice(&FragmentIdRef::new(first_split_id), SeekBias::Left);
new_fragments = cursor.slice(&FragmentIdRef::new(first_split_id), SeekBias::Left, &());
loop {
let mut fragment = cursor.item().unwrap().clone();
fragment.visible = fragment.is_visible(&self.undo_map);
fragment.max_undos.observe(undo.id);
new_fragments.push(fragment);
new_fragments.push(fragment, &());
cursor.next();
if let Some(split_id) = insertion_splits.next() {
new_fragments
.push_tree(cursor.slice(&FragmentIdRef::new(split_id), SeekBias::Left));
new_fragments.push_tree(
cursor.slice(&FragmentIdRef::new(split_id), SeekBias::Left, &()),
&(),
);
} else {
break;
}
}
} else {
new_fragments = cursor.slice(&FragmentIdRef::new(&start_fragment_id), SeekBias::Left);
new_fragments =
cursor.slice(&FragmentIdRef::new(&start_fragment_id), SeekBias::Left, &());
while let Some(fragment) = cursor.item() {
if fragment.id > end_fragment_id {
break;
@ -1176,13 +1194,13 @@ impl Buffer {
fragment.visible = fragment.is_visible(&self.undo_map);
fragment.max_undos.observe(undo.id);
}
new_fragments.push(fragment);
new_fragments.push(fragment, &());
cursor.next();
}
}
}
new_fragments.push_tree(cursor.suffix());
new_fragments.push_tree(cursor.suffix(&()), &());
drop(cursor);
self.fragments = new_fragments;
@ -1246,7 +1264,7 @@ impl Buffer {
.get(&edit_id)
.ok_or_else(|| anyhow!("invalid operation"))?;
let mut cursor = split_tree.cursor::<usize, ()>();
cursor.seek(&offset, SeekBias::Left);
cursor.seek(&offset, SeekBias::Left, &());
Ok(cursor
.item()
.ok_or_else(|| anyhow!("invalid operation"))?
@ -1268,7 +1286,10 @@ impl Buffer {
let old_fragments = self.fragments.clone();
let mut cursor = old_fragments.cursor::<usize, usize>();
let mut new_fragments = SumTree::new();
new_fragments.push_tree(cursor.slice(&cur_range.as_ref().unwrap().start, SeekBias::Right));
new_fragments.push_tree(
cursor.slice(&cur_range.as_ref().unwrap().start, SeekBias::Right, &()),
&(),
);
let mut start_id = None;
let mut start_offset = None;
@ -1290,7 +1311,8 @@ impl Buffer {
.remove(&fragment.insertion.id)
.unwrap();
let mut splits_cursor = old_split_tree.cursor::<usize, ()>();
let mut new_split_tree = splits_cursor.slice(&fragment.start_offset(), SeekBias::Right);
let mut new_split_tree =
splits_cursor.slice(&fragment.start_offset(), SeekBias::Right, &());
// Find all splices that start or end within the current fragment. Then, split the
// fragment and reassemble it in both trees accounting for the deleted and the newly
@ -1303,11 +1325,14 @@ impl Buffer {
prefix.id =
FragmentId::between(&new_fragments.last().unwrap().id, &fragment.id);
fragment.set_start_offset(prefix.end_offset());
new_fragments.push(prefix.clone());
new_split_tree.push(InsertionSplit {
extent: prefix.end_offset() - prefix.start_offset(),
fragment_id: prefix.id,
});
new_fragments.push(prefix.clone(), &());
new_split_tree.push(
InsertionSplit {
extent: prefix.end_offset() - prefix.start_offset(),
fragment_id: prefix.id,
},
&(),
);
fragment_start = range.start;
}
@ -1331,7 +1356,7 @@ impl Buffer {
local_timestamp,
lamport_timestamp,
);
new_fragments.push(new_fragment);
new_fragments.push(new_fragment, &());
}
}
@ -1347,11 +1372,14 @@ impl Buffer {
prefix.visible = false;
}
fragment.set_start_offset(prefix.end_offset());
new_fragments.push(prefix.clone());
new_split_tree.push(InsertionSplit {
extent: prefix.end_offset() - prefix.start_offset(),
fragment_id: prefix.id,
});
new_fragments.push(prefix.clone(), &());
new_split_tree.push(
InsertionSplit {
extent: prefix.end_offset() - prefix.start_offset(),
fragment_id: prefix.id,
},
&(),
);
fragment_start = range.end;
end_id = Some(fragment.insertion.id);
end_offset = Some(fragment.start_offset());
@ -1395,16 +1423,21 @@ impl Buffer {
break;
}
}
new_split_tree.push(InsertionSplit {
extent: fragment.end_offset() - fragment.start_offset(),
fragment_id: fragment.id.clone(),
});
new_split_tree.push(
InsertionSplit {
extent: fragment.end_offset() - fragment.start_offset(),
fragment_id: fragment.id.clone(),
},
&(),
);
splits_cursor.next();
new_split_tree
.push_tree(splits_cursor.slice(&old_split_tree.extent::<usize>(), SeekBias::Right));
new_split_tree.push_tree(
splits_cursor.slice(&old_split_tree.extent::<usize>(), SeekBias::Right, &()),
&(),
);
self.insertion_splits
.insert(fragment.insertion.id, new_split_tree);
new_fragments.push(fragment);
new_fragments.push(fragment, &());
// Scan forward until we find a fragment that is not fully contained by the current splice.
cursor.next();
@ -1420,7 +1453,7 @@ impl Buffer {
new_fragment.deletions.insert(local_timestamp);
new_fragment.visible = false;
}
new_fragments.push(new_fragment);
new_fragments.push(new_fragment, &());
cursor.next();
if range.end == fragment_end {
@ -1462,7 +1495,8 @@ impl Buffer {
// and push all the fragments in between into the new tree.
if cur_range.as_ref().map_or(false, |r| r.start > fragment_end) {
new_fragments.push_tree(
cursor.slice(&cur_range.as_ref().unwrap().start, SeekBias::Right),
cursor.slice(&cur_range.as_ref().unwrap().start, SeekBias::Right, &()),
&(),
);
}
}
@ -1494,11 +1528,13 @@ impl Buffer {
local_timestamp,
lamport_timestamp,
);
new_fragments.push(new_fragment);
new_fragments.push(new_fragment, &());
}
} else {
new_fragments
.push_tree(cursor.slice(&old_fragments.extent::<usize>(), SeekBias::Right));
new_fragments.push_tree(
cursor.slice(&old_fragments.extent::<usize>(), SeekBias::Right, &()),
&(),
);
}
self.fragments = new_fragments;
@ -1556,32 +1592,43 @@ impl Buffer {
.remove(&fragment.insertion.id)
.unwrap();
let mut cursor = old_split_tree.cursor::<usize, ()>();
let mut new_split_tree = cursor.slice(&fragment.start_offset(), SeekBias::Right);
let mut new_split_tree = cursor.slice(&fragment.start_offset(), SeekBias::Right, &());
if let Some(ref fragment) = before_range {
new_split_tree.push(InsertionSplit {
extent: range.start - fragment.start_offset(),
fragment_id: fragment.id.clone(),
});
new_split_tree.push(
InsertionSplit {
extent: range.start - fragment.start_offset(),
fragment_id: fragment.id.clone(),
},
&(),
);
}
if let Some(ref fragment) = within_range {
new_split_tree.push(InsertionSplit {
extent: range.end - range.start,
fragment_id: fragment.id.clone(),
});
new_split_tree.push(
InsertionSplit {
extent: range.end - range.start,
fragment_id: fragment.id.clone(),
},
&(),
);
}
if let Some(ref fragment) = after_range {
new_split_tree.push(InsertionSplit {
extent: fragment.end_offset() - range.end,
fragment_id: fragment.id.clone(),
});
new_split_tree.push(
InsertionSplit {
extent: fragment.end_offset() - range.end,
fragment_id: fragment.id.clone(),
},
&(),
);
}
cursor.next();
new_split_tree
.push_tree(cursor.slice(&old_split_tree.extent::<usize>(), SeekBias::Right));
new_split_tree.push_tree(
cursor.slice(&old_split_tree.extent::<usize>(), SeekBias::Right, &()),
&(),
);
self.insertion_splits
.insert(fragment.insertion.id, new_split_tree);
@ -1606,10 +1653,13 @@ impl Buffer {
);
let mut split_tree = SumTree::new();
split_tree.push(InsertionSplit {
extent: text.len(),
fragment_id: new_fragment_id.clone(),
});
split_tree.push(
InsertionSplit {
extent: text.len(),
fragment_id: new_fragment_id.clone(),
},
&(),
);
self.insertion_splits.insert(local_timestamp, split_tree);
Fragment::new(
@ -1658,7 +1708,7 @@ impl Buffer {
};
let mut cursor = self.fragments.cursor::<usize, usize>();
cursor.seek(&offset, seek_bias);
cursor.seek(&offset, seek_bias, &());
let fragment = cursor.item().unwrap();
let offset_in_fragment = offset - cursor.start();
let offset_in_insertion = fragment.start_offset() + offset_in_fragment;
@ -1690,7 +1740,7 @@ impl Buffer {
.get(&insertion_id)
.ok_or_else(|| anyhow!("split does not exist for insertion id"))?;
let mut splits_cursor = splits.cursor::<usize, ()>();
splits_cursor.seek(offset, seek_bias);
splits_cursor.seek(offset, seek_bias, &());
splits_cursor
.item()
.ok_or_else(|| anyhow!("split offset is out of range"))
@ -1718,13 +1768,13 @@ impl Buffer {
.get(&insertion_id)
.ok_or_else(|| anyhow!("split does not exist for insertion id"))?;
let mut splits_cursor = splits.cursor::<usize, ()>();
splits_cursor.seek(offset, seek_bias);
splits_cursor.seek(offset, seek_bias, &());
let split = splits_cursor
.item()
.ok_or_else(|| anyhow!("split offset is out of range"))?;
let mut fragments_cursor = self.fragments.cursor::<FragmentIdRef, TextSummary>();
fragments_cursor.seek(&FragmentIdRef::new(&split.fragment_id), SeekBias::Left);
fragments_cursor.seek(&FragmentIdRef::new(&split.fragment_id), SeekBias::Left, &());
let fragment = fragments_cursor
.item()
.ok_or_else(|| anyhow!("fragment id does not exist"))?;
@ -1744,7 +1794,7 @@ impl Buffer {
#[allow(dead_code)]
pub fn point_for_offset(&self, offset: usize) -> Result<Point> {
let mut fragments_cursor = self.fragments.cursor::<usize, TextSummary>();
fragments_cursor.seek(&offset, SeekBias::Left);
fragments_cursor.seek(&offset, SeekBias::Left, &());
fragments_cursor
.item()
.ok_or_else(|| anyhow!("offset is out of range"))
@ -1810,7 +1860,7 @@ impl<'a> sum_tree::Dimension<'a, FragmentSummary> for Point {
impl<'a> CharIter<'a> {
fn new(fragments: &'a SumTree<Fragment>, offset: usize) -> Self {
let mut fragments_cursor = fragments.cursor::<usize, usize>();
fragments_cursor.seek(&offset, SeekBias::Right);
fragments_cursor.seek(&offset, SeekBias::Right, &());
let fragment_chars = fragments_cursor.item().map_or("".chars(), |fragment| {
let offset_in_fragment = offset - fragments_cursor.start();
fragment.text[offset_in_fragment..].chars()
@ -1847,7 +1897,7 @@ impl<'a> Iterator for CharIter<'a> {
impl<'a> FragmentIter<'a> {
fn new(fragments: &'a SumTree<Fragment>) -> Self {
let mut cursor = fragments.cursor::<usize, usize>();
cursor.seek(&0, SeekBias::Right);
cursor.seek(&0, SeekBias::Right, &());
Self {
cursor,
started: false,
@ -2140,8 +2190,10 @@ impl sum_tree::Item for Fragment {
}
}
impl<'a> AddAssign<&'a FragmentSummary> for FragmentSummary {
fn add_assign(&mut self, other: &Self) {
impl sum_tree::Summary for FragmentSummary {
type Context = ();
fn add_summary(&mut self, other: &Self, _: &()) {
self.text_summary += &other.text_summary;
debug_assert!(self.max_fragment_id <= other.max_fragment_id);
self.max_fragment_id = other.max_fragment_id.clone();
@ -2204,8 +2256,10 @@ impl sum_tree::Item for InsertionSplit {
}
}
impl<'a> AddAssign<&'a InsertionSplitSummary> for InsertionSplitSummary {
fn add_assign(&mut self, other: &Self) {
impl sum_tree::Summary for InsertionSplitSummary {
type Context = ();
fn add_summary(&mut self, other: &Self, _: &()) {
self.extent += other.extent;
}
}
@ -2262,7 +2316,7 @@ pub trait ToOffset {
impl ToOffset for Point {
fn to_offset(&self, buffer: &Buffer) -> Result<usize> {
let mut fragments_cursor = buffer.fragments.cursor::<Point, TextSummary>();
fragments_cursor.seek(self, SeekBias::Left);
fragments_cursor.seek(self, SeekBias::Left, &());
fragments_cursor
.item()
.ok_or_else(|| anyhow!("point is out of range"))
@ -2306,7 +2360,7 @@ impl ToPoint for Anchor {
impl ToPoint for usize {
fn to_point(&self, buffer: &Buffer) -> Result<Point> {
let mut fragments_cursor = buffer.fragments.cursor::<usize, TextSummary>();
fragments_cursor.seek(&self, SeekBias::Left);
fragments_cursor.seek(&self, SeekBias::Left, &());
fragments_cursor
.item()
.ok_or_else(|| anyhow!("offset is out of range"))

4
zed/src/editor/buffer/selection.rs
View File

@ -75,6 +75,7 @@ impl Selection {
pub fn buffer_rows_for_display_rows(
&self,
include_end_if_at_line_start: bool,
map: &DisplayMap,
ctx: &AppContext,
) -> (Range<u32>, Range<u32>) {
@ -84,7 +85,8 @@ impl Selection {
.unwrap();
let mut display_end = self.end.to_display_point(map, ctx).unwrap();
if display_end.row() != map.max_point(ctx).row()
if !include_end_if_at_line_start
&& display_end.row() != map.max_point(ctx).row()
&& display_start.row() != display_end.row()
&& display_end.column() == 0
{

32
zed/src/editor/buffer/text.rs
View File

@ -58,6 +58,14 @@ pub struct TextSummary {
pub rightmost_point: Point,
}
impl sum_tree::Summary for TextSummary {
type Context = ();
fn add_summary(&mut self, other: &Self, _: &()) {
*self += other;
}
}
impl<'a> std::ops::AddAssign<&'a Self> for TextSummary {
fn add_assign(&mut self, other: &'a Self) {
let joined_line_len = self.lines.column + other.first_line_len;
@ -85,8 +93,8 @@ impl std::ops::AddAssign<Self> for TextSummary {
}
impl<'a> sum_tree::Dimension<'a, TextSummary> for TextSummary {
fn add_summary(&mut self, summary: &TextSummary) {
*self += summary;
fn add_summary(&mut self, other: &TextSummary) {
*self += other;
}
}
@ -157,7 +165,7 @@ impl From<Arc<str>> for Text {
}
let mut tree = SumTree::new();
tree.extend(runs);
tree.extend(runs, &());
Text {
text,
runs: tree,
@ -231,13 +239,14 @@ impl Text {
pub fn line_len(&self, row: u32) -> u32 {
let mut cursor = self.runs.cursor::<usize, Point>();
cursor.seek(&self.range.start, SeekBias::Right);
cursor.seek(&self.range.start, SeekBias::Right, &());
let absolute_row = cursor.start().row + row;
let mut cursor = self.runs.cursor::<Point, usize>();
cursor.seek(&Point::new(absolute_row, 0), SeekBias::Right);
cursor.seek(&Point::new(absolute_row, 0), SeekBias::Right, &());
let prefix_len = self.range.start.saturating_sub(*cursor.start());
let line_len = cursor.summary::<usize>(&Point::new(absolute_row + 1, 0), SeekBias::Left);
let line_len =
cursor.summary::<usize>(&Point::new(absolute_row + 1, 0), SeekBias::Left, &());
let suffix_len = cursor.start().saturating_sub(self.range.end);
line_len
@ -262,14 +271,15 @@ impl Text {
candidates.push(Point::new(0, self.line_len(0)));
if lines.row > 1 {
let mut cursor = self.runs.cursor::<usize, Point>();
cursor.seek(&self.range.start, SeekBias::Right);
cursor.seek(&self.range.start, SeekBias::Right, &());
let absolute_start_row = cursor.start().row;
let mut cursor = self.runs.cursor::<Point, usize>();
cursor.seek(&Point::new(absolute_start_row + 1, 0), SeekBias::Right);
cursor.seek(&Point::new(absolute_start_row + 1, 0), SeekBias::Right, &());
let summary = cursor.summary::<TextSummary>(
&Point::new(absolute_start_row + lines.row, 0),
SeekBias::Left,
&(),
);
candidates.push(Point::new(1, 0) + &summary.rightmost_point);
@ -287,7 +297,7 @@ impl Text {
pub fn offset_for_point(&self, point: Point) -> usize {
let mut cursor = self.runs.cursor::<Point, TextSummary>();
let abs_point = self.abs_point_for_offset(self.range.start) + &point;
cursor.seek(&abs_point, SeekBias::Right);
cursor.seek(&abs_point, SeekBias::Right, &());
let overshoot = abs_point - &cursor.start().lines;
let abs_offset = cursor.start().chars + overshoot.column as usize;
abs_offset - self.range.start
@ -307,14 +317,14 @@ impl Text {
fn abs_point_for_offset(&self, offset: usize) -> Point {
let mut cursor = self.runs.cursor::<usize, TextSummary>();
cursor.seek(&offset, SeekBias::Right);
cursor.seek(&offset, SeekBias::Right, &());
let overshoot = (offset - cursor.start().chars) as u32;
cursor.start().lines + &Point::new(0, overshoot)
}
fn abs_byte_offset_for_offset(&self, offset: usize) -> usize {
let mut cursor = self.runs.cursor::<usize, TextSummary>();
cursor.seek(&offset, SeekBias::Right);
cursor.seek(&offset, SeekBias::Right, &());
let overshoot = offset - cursor.start().chars;
cursor.start().bytes + overshoot * cursor.item().map_or(0, |run| run.char_size()) as usize
}

209
zed/src/editor/buffer_view.rs
View File

@ -138,6 +138,12 @@ pub fn init(app: &mut MutableAppContext) {
),
Binding::new("cmd-shift-down", "buffer:select_to_end", Some("BufferView")),
Binding::new("cmd-a", "buffer:select_all", Some("BufferView")),
Binding::new("cmd-l", "buffer:select_line", Some("BufferView")),
Binding::new(
"cmd-shift-L",
"buffer:split_selection_into_lines",
Some("BufferView"),
),
Binding::new("pageup", "buffer:page_up", Some("BufferView")),
Binding::new("pagedown", "buffer:page_down", Some("BufferView")),
Binding::new("alt-cmd-[", "buffer:fold", Some("BufferView")),
@ -228,6 +234,11 @@ pub fn init(app: &mut MutableAppContext) {
);
app.add_action("buffer:select_to_end", BufferView::select_to_end);
app.add_action("buffer:select_all", BufferView::select_all);
app.add_action("buffer:select_line", BufferView::select_line);
app.add_action(
"buffer:split_selection_into_lines",
BufferView::split_selection_into_lines,
);
app.add_action("buffer:page_up", BufferView::page_up);
app.add_action("buffer:page_down", BufferView::page_down);
app.add_action("buffer:fold", BufferView::fold);
@ -704,7 +715,8 @@ impl BufferView {
let mut selections = self.selections(app).iter().peekable();
while let Some(selection) = selections.next() {
let (mut rows, _) = selection.buffer_rows_for_display_rows(&self.display_map, app);
let (mut rows, _) =
selection.buffer_rows_for_display_rows(false, &self.display_map, app);
let goal_display_column = selection
.head()
.to_display_point(&self.display_map, app)
@ -714,7 +726,7 @@ impl BufferView {
// Accumulate contiguous regions of rows that we want to delete.
while let Some(next_selection) = selections.peek() {
let (next_rows, _) =
next_selection.buffer_rows_for_display_rows(&self.display_map, app);
next_selection.buffer_rows_for_display_rows(false, &self.display_map, app);
if next_rows.start <= rows.end {
rows.end = next_rows.end;
selections.next().unwrap();
@ -795,10 +807,11 @@ impl BufferView {
let mut selections_iter = selections.iter_mut().peekable();
while let Some(selection) = selections_iter.next() {
// Avoid duplicating the same lines twice.
let (mut rows, _) = selection.buffer_rows_for_display_rows(&self.display_map, app);
let (mut rows, _) =
selection.buffer_rows_for_display_rows(false, &self.display_map, app);
while let Some(next_selection) = selections_iter.peek() {
let (next_rows, _) =
next_selection.buffer_rows_for_display_rows(&self.display_map, app);
next_selection.buffer_rows_for_display_rows(false, &self.display_map, app);
if next_rows.start <= rows.end - 1 {
rows.end = next_rows.end;
selections_iter.next().unwrap();
@ -852,10 +865,10 @@ impl BufferView {
// Accumulate contiguous regions of rows that we want to move.
contiguous_selections.push(selection.range(buffer));
let (mut buffer_rows, mut display_rows) =
selection.buffer_rows_for_display_rows(&self.display_map, app);
selection.buffer_rows_for_display_rows(false, &self.display_map, app);
while let Some(next_selection) = selections.peek() {
let (next_buffer_rows, next_display_rows) =
next_selection.buffer_rows_for_display_rows(&self.display_map, app);
next_selection.buffer_rows_for_display_rows(false, &self.display_map, app);
if next_buffer_rows.start <= buffer_rows.end {
buffer_rows.end = next_buffer_rows.end;
display_rows.end = next_display_rows.end;
@ -942,10 +955,10 @@ impl BufferView {
// Accumulate contiguous regions of rows that we want to move.
contiguous_selections.push(selection.range(buffer));
let (mut buffer_rows, mut display_rows) =
selection.buffer_rows_for_display_rows(&self.display_map, app);
selection.buffer_rows_for_display_rows(false, &self.display_map, app);
while let Some(next_selection) = selections.peek() {
let (next_buffer_rows, next_display_rows) =
next_selection.buffer_rows_for_display_rows(&self.display_map, app);
next_selection.buffer_rows_for_display_rows(false, &self.display_map, app);
if next_buffer_rows.start <= buffer_rows.end {
buffer_rows.end = next_buffer_rows.end;
display_rows.end = next_display_rows.end;
@ -1654,6 +1667,63 @@ impl BufferView {
self.update_selections(vec![selection], false, ctx);
}
pub fn select_line(&mut self, _: &(), ctx: &mut ViewContext<Self>) {
let app = ctx.as_ref();
let buffer = self.buffer.read(app);
let mut selections = self.selections(app).to_vec();
let max_point = buffer.max_point();
for selection in &mut selections {
let (rows, _) = selection.buffer_rows_for_display_rows(true, &self.display_map, app);
selection.start = buffer.anchor_before(Point::new(rows.start, 0)).unwrap();
selection.end = buffer
.anchor_before(cmp::min(max_point, Point::new(rows.end, 0)))
.unwrap();
selection.reversed = false;
}
self.update_selections(selections, true, ctx);
}
pub fn split_selection_into_lines(&mut self, _: &(), ctx: &mut ViewContext<Self>) {
use super::RangeExt;
let app = ctx.as_ref();
let buffer = self.buffer.read(app);
let mut to_unfold = Vec::new();
let mut new_selections = Vec::new();
for selection in self.selections(app) {
let range = selection.range(buffer).sorted();
if range.start.row != range.end.row {
new_selections.push(Selection {
start: selection.start.clone(),
end: selection.start.clone(),
reversed: false,
goal_column: None,
});
}
for row in range.start.row + 1..range.end.row {
let cursor = buffer
.anchor_before(Point::new(row, buffer.line_len(row).unwrap()))
.unwrap();
new_selections.push(Selection {
start: cursor.clone(),
end: cursor,
reversed: false,
goal_column: None,
});
}
new_selections.push(Selection {
start: selection.end.clone(),
end: selection.end.clone(),
reversed: false,
goal_column: None,
});
to_unfold.push(range);
}
self.unfold_ranges(to_unfold, ctx);
self.update_selections(new_selections, true, ctx);
}
pub fn selections_in_range<'a>(
&'a self,
range: Range<DisplayPoint>,
@ -1874,9 +1944,8 @@ impl BufferView {
.selections(ctx.as_ref())
.iter()
.map(|s| s.range(buffer).sorted())
.collect::<Vec<_>>();
self.display_map.fold(ranges, ctx.as_ref()).unwrap();
ctx.notify();
.collect();
self.fold_ranges(ranges, ctx);
}
fn fold_ranges<T: ToOffset>(&mut self, ranges: Vec<Range<T>>, ctx: &mut ViewContext<Self>) {
@ -3292,6 +3361,124 @@ mod tests {
});
}
#[test]
fn test_select_line() {
App::test((), |app| {
let settings = settings::channel(&app.font_cache()).unwrap().1;
let buffer = app.add_model(|ctx| Buffer::new(0, sample_text(6, 5), ctx));
let (_, view) = app.add_window(|ctx| BufferView::for_buffer(buffer, settings, ctx));
view.update(app, |view, ctx| {
view.select_display_ranges(
&[
DisplayPoint::new(0, 0)..DisplayPoint::new(0, 1),
DisplayPoint::new(0, 2)..DisplayPoint::new(0, 2),
DisplayPoint::new(1, 0)..DisplayPoint::new(1, 0),
DisplayPoint::new(4, 2)..DisplayPoint::new(4, 2),
],
ctx,
)
.unwrap();
view.select_line(&(), ctx);
});
assert_eq!(
view.read(app).selection_ranges(app.as_ref()),
vec![
DisplayPoint::new(0, 0)..DisplayPoint::new(2, 0),
DisplayPoint::new(4, 0)..DisplayPoint::new(5, 0),
]
);
view.update(app, |view, ctx| view.select_line(&(), ctx));
assert_eq!(
view.read(app).selection_ranges(app.as_ref()),
vec![
DisplayPoint::new(0, 0)..DisplayPoint::new(3, 0),
DisplayPoint::new(4, 0)..DisplayPoint::new(5, 5),
]
);
view.update(app, |view, ctx| view.select_line(&(), ctx));
assert_eq!(
view.read(app).selection_ranges(app.as_ref()),
vec![DisplayPoint::new(0, 0)..DisplayPoint::new(5, 5)]
);
});
}
#[test]
fn test_split_selection_into_lines() {
App::test((), |app| {
let settings = settings::channel(&app.font_cache()).unwrap().1;
let buffer = app.add_model(|ctx| Buffer::new(0, sample_text(9, 5), ctx));
let (_, view) = app.add_window(|ctx| BufferView::for_buffer(buffer, settings, ctx));
view.update(app, |view, ctx| {
view.fold_ranges(
vec![
Point::new(0, 2)..Point::new(1, 2),
Point::new(2, 3)..Point::new(4, 1),
Point::new(7, 0)..Point::new(8, 4),
],
ctx,
);
view.select_display_ranges(
&[
DisplayPoint::new(0, 0)..DisplayPoint::new(0, 1),
DisplayPoint::new(0, 2)..DisplayPoint::new(0, 2),
DisplayPoint::new(1, 0)..DisplayPoint::new(1, 0),
DisplayPoint::new(4, 2)..DisplayPoint::new(4, 2),
],
ctx,
)
.unwrap();
});
assert_eq!(
view.read(app).text(app.as_ref()),
"aa…bbb\nccc…eeee\nfffff\nggggg\n…i"
);
view.update(app, |view, ctx| view.split_selection_into_lines(&(), ctx));
assert_eq!(
view.read(app).text(app.as_ref()),
"aa…bbb\nccc…eeee\nfffff\nggggg\n…i"
);
assert_eq!(
view.read(app).selection_ranges(app.as_ref()),
[
DisplayPoint::new(0, 1)..DisplayPoint::new(0, 1),
DisplayPoint::new(0, 2)..DisplayPoint::new(0, 2),
DisplayPoint::new(1, 0)..DisplayPoint::new(1, 0),
DisplayPoint::new(4, 2)..DisplayPoint::new(4, 2)
]
);
view.update(app, |view, ctx| {
view.select_display_ranges(
&[DisplayPoint::new(4, 0)..DisplayPoint::new(0, 1)],
ctx,
)
.unwrap();
view.split_selection_into_lines(&(), ctx);
});
assert_eq!(
view.read(app).text(app.as_ref()),
"aaaaa\nbbbbb\nccccc\nddddd\neeeee\nfffff\nggggg\n…i"
);
assert_eq!(
view.read(app).selection_ranges(app.as_ref()),
[
DisplayPoint::new(0, 1)..DisplayPoint::new(0, 1),
DisplayPoint::new(1, 5)..DisplayPoint::new(1, 5),
DisplayPoint::new(2, 5)..DisplayPoint::new(2, 5),
DisplayPoint::new(3, 5)..DisplayPoint::new(3, 5),
DisplayPoint::new(4, 5)..DisplayPoint::new(4, 5),
DisplayPoint::new(5, 5)..DisplayPoint::new(5, 5),
DisplayPoint::new(6, 5)..DisplayPoint::new(6, 5),
DisplayPoint::new(7, 0)..DisplayPoint::new(7, 0)
]
);
});
}
impl BufferView {
fn selection_ranges(&self, app: &AppContext) -> Vec<Range<DisplayPoint>> {
self.selections_in_range(DisplayPoint::zero()..self.max_point(app), app)

438
zed/src/editor/display_map/fold_map.rs
View File

@ -1,10 +1,10 @@
use super::{
buffer, Anchor, AnchorRangeExt, Buffer, DisplayPoint, Edit, Point, TextSummary, ToOffset,
buffer::{self, AnchorRangeExt},
Anchor, Buffer, DisplayPoint, Edit, Point, TextSummary, ToOffset,
};
use crate::{
sum_tree::{self, Cursor, SumTree},
sum_tree::{self, Cursor, FilterCursor, SeekBias, SumTree},
time,
util::find_insertion_index,
};
use anyhow::{anyhow, Result};
use gpui::{AppContext, ModelHandle};
@ -14,12 +14,11 @@ use std::{
iter::Take,
ops::Range,
};
use sum_tree::{Dimension, SeekBias};
pub struct FoldMap {
buffer: ModelHandle<Buffer>,
transforms: Mutex<SumTree<Transform>>,
folds: Vec<Range<Anchor>>,
folds: SumTree<Fold>,
last_sync: Mutex<time::Global>,
}
@ -29,14 +28,17 @@ impl FoldMap {
let text_summary = buffer.text_summary();
Self {
buffer: buffer_handle,
folds: Vec::new(),
transforms: Mutex::new(SumTree::from_item(Transform {
summary: TransformSummary {
buffer: text_summary.clone(),
display: text_summary,
folds: Default::default(),
transforms: Mutex::new(SumTree::from_item(
Transform {
summary: TransformSummary {
buffer: text_summary.clone(),
display: text_summary,
},
display_text: None,
},
display_text: None,
})),
&(),
)),
last_sync: Mutex::new(buffer.version()),
}
}
@ -76,17 +78,12 @@ impl FoldMap {
pub fn folds_in_range<'a, T>(
&'a self,
range: Range<T>,
app: &'a AppContext,
ctx: &'a AppContext,
) -> Result<impl Iterator<Item = &'a Range<Anchor>>>
where
T: ToOffset,
{
let buffer = self.buffer.read(app);
let range = buffer.anchor_before(range.start)?..buffer.anchor_before(range.end)?;
Ok(self.folds.iter().filter(move |fold| {
range.start.cmp(&fold.end, buffer).unwrap() == Ordering::Less
&& range.end.cmp(&fold.start, buffer).unwrap() == Ordering::Greater
}))
Ok(self.intersecting_folds(range, ctx)?.map(|f| &f.0))
}
pub fn fold<T: ToOffset>(
@ -97,19 +94,22 @@ impl FoldMap {
let _ = self.sync(ctx);
let mut edits = Vec::new();
let mut folds = Vec::new();
let buffer = self.buffer.read(ctx);
for range in ranges.into_iter() {
let start = range.start.to_offset(buffer)?;
let end = range.end.to_offset(buffer)?;
edits.push(Edit {
old_range: start..end,
new_range: start..end,
});
let fold = buffer.anchor_after(start)?..buffer.anchor_before(end)?;
let ix = find_insertion_index(&self.folds, |probe| probe.cmp(&fold, buffer))?;
self.folds.insert(ix, fold);
let range = range.start.to_offset(buffer)?..range.end.to_offset(buffer)?;
if range.start != range.end {
let fold =
Fold(buffer.anchor_after(range.start)?..buffer.anchor_before(range.end)?);
folds.push(fold);
edits.push(Edit {
old_range: range.clone(),
new_range: range.clone(),
});
}
}
folds.sort_unstable_by(|a, b| sum_tree::SeekDimension::cmp(a, b, buffer));
edits.sort_unstable_by(|a, b| {
a.old_range
.start
@ -117,6 +117,16 @@ impl FoldMap {
.then_with(|| b.old_range.end.cmp(&a.old_range.end))
});
self.folds = {
let mut new_tree = SumTree::new();
let mut cursor = self.folds.cursor::<_, ()>();
for fold in folds {
new_tree.push_tree(cursor.slice(&fold, SeekBias::Right, buffer), buffer);
new_tree.push(fold, buffer);
}
new_tree.push_tree(cursor.suffix(buffer), buffer);
new_tree
};
self.apply_edits(edits, ctx);
Ok(())
}
@ -131,36 +141,66 @@ impl FoldMap {
let buffer = self.buffer.read(ctx);
let mut edits = Vec::new();
let mut fold_ixs_to_delete = Vec::new();
for range in ranges.into_iter() {
let start = buffer.anchor_before(range.start.to_offset(buffer)?)?;
let end = buffer.anchor_after(range.end.to_offset(buffer)?)?;
// Remove intersecting folds and add their ranges to edits that are passed to apply_edits
self.folds.retain(|fold| {
if fold.start.cmp(&end, buffer).unwrap() > Ordering::Equal
|| fold.end.cmp(&start, buffer).unwrap() < Ordering::Equal
{
true
} else {
let offset_range =
fold.start.to_offset(buffer).unwrap()..fold.end.to_offset(buffer).unwrap();
edits.push(Edit {
old_range: offset_range.clone(),
new_range: offset_range,
});
false
}
});
// Remove intersecting folds and add their ranges to edits that are passed to apply_edits.
let mut folds_cursor = self.intersecting_folds(range, ctx)?;
while let Some(fold) = folds_cursor.item() {
let offset_range =
fold.0.start.to_offset(buffer).unwrap()..fold.0.end.to_offset(buffer).unwrap();
edits.push(Edit {
old_range: offset_range.clone(),
new_range: offset_range,
});
fold_ixs_to_delete.push(*folds_cursor.start());
folds_cursor.next();
}
}
fold_ixs_to_delete.sort_unstable();
fold_ixs_to_delete.dedup();
edits.sort_unstable_by(|a, b| {
a.old_range
.start
.cmp(&b.old_range.start)
.then_with(|| b.old_range.end.cmp(&a.old_range.end))
});
self.folds = {
let mut cursor = self.folds.cursor::<_, ()>();
let mut folds = SumTree::new();
for fold_ix in fold_ixs_to_delete {
folds.push_tree(cursor.slice(&fold_ix, SeekBias::Right, buffer), buffer);
cursor.next();
}
folds.push_tree(cursor.suffix(buffer), buffer);
folds
};
self.apply_edits(edits, ctx);
Ok(())
}
fn intersecting_folds<'a, T>(
&self,
range: Range<T>,
ctx: &'a AppContext,
) -> Result<FilterCursor<impl 'a + Fn(&FoldSummary) -> bool, Fold, usize>>
where
T: ToOffset,
{
let buffer = self.buffer.read(ctx);
let start = buffer.anchor_before(range.start.to_offset(buffer)?)?;
let end = buffer.anchor_after(range.end.to_offset(buffer)?)?;
Ok(self.folds.filter::<_, usize>(move |summary| {
start.cmp(&summary.max_end, buffer).unwrap() == Ordering::Less
&& end.cmp(&summary.min_start, buffer).unwrap() == Ordering::Greater
}))
}
pub fn is_line_folded(&self, display_row: u32, ctx: &AppContext) -> bool {
let transforms = self.sync(ctx);
let mut cursor = transforms.cursor::<DisplayPoint, DisplayPoint>();
cursor.seek(&DisplayPoint::new(display_row, 0), SeekBias::Right);
cursor.seek(&DisplayPoint::new(display_row, 0), SeekBias::Right, &());
while let Some(transform) = cursor.item() {
if transform.display_text.is_some() {
return true;
@ -177,7 +217,7 @@ impl FoldMap {
pub fn to_buffer_offset(&self, point: DisplayPoint, ctx: &AppContext) -> Result<usize> {
let transforms = self.sync(ctx);
let mut cursor = transforms.cursor::<DisplayPoint, TransformSummary>();
cursor.seek(&point, SeekBias::Right);
cursor.seek(&point, SeekBias::Right, &());
let overshoot = point.0 - cursor.start().display.lines;
(cursor.start().buffer.lines + overshoot).to_offset(self.buffer.read(ctx))
}
@ -193,7 +233,7 @@ impl FoldMap {
pub fn to_buffer_point(&self, display_point: DisplayPoint, ctx: &AppContext) -> Point {
let transforms = self.sync(ctx);
let mut cursor = transforms.cursor::<DisplayPoint, TransformSummary>();
cursor.seek(&display_point, SeekBias::Right);
cursor.seek(&display_point, SeekBias::Right, &());
let overshoot = display_point.0 - cursor.start().display.lines;
cursor.start().buffer.lines + overshoot
}
@ -201,7 +241,7 @@ impl FoldMap {
pub fn to_display_point(&self, point: Point, ctx: &AppContext) -> DisplayPoint {
let transforms = self.sync(ctx);
let mut cursor = transforms.cursor::<Point, TransformSummary>();
cursor.seek(&point, SeekBias::Right);
cursor.seek(&point, SeekBias::Right, &());
let overshoot = point - cursor.start().buffer.lines;
DisplayPoint(cmp::min(
cursor.start().display.lines + overshoot,
@ -226,14 +266,17 @@ impl FoldMap {
let mut new_transforms = SumTree::new();
let mut transforms = self.transforms.lock();
let mut cursor = transforms.cursor::<usize, usize>();
cursor.seek(&0, SeekBias::Right);
cursor.seek(&0, SeekBias::Right, &());
while let Some(mut edit) = edits.next() {
new_transforms.push_tree(cursor.slice(&edit.old_range.start, SeekBias::Left));
new_transforms.push_tree(
cursor.slice(&edit.old_range.start, SeekBias::Left, &()),
&(),
);
edit.new_range.start -= edit.old_range.start - cursor.start();
edit.old_range.start = *cursor.start();
cursor.seek(&edit.old_range.end, SeekBias::Right);
cursor.seek(&edit.old_range.end, SeekBias::Right, &());
cursor.next();
let mut delta = edit.delta();
@ -250,7 +293,7 @@ impl FoldMap {
if next_edit.old_range.end >= edit.old_range.end {
edit.old_range.end = next_edit.old_range.end;
cursor.seek(&edit.old_range.end, SeekBias::Right);
cursor.seek(&edit.old_range.end, SeekBias::Right, &());
cursor.next();
}
} else {
@ -262,14 +305,10 @@ impl FoldMap {
((edit.new_range.start + edit.old_extent()) as isize + delta) as usize;
let anchor = buffer.anchor_before(edit.new_range.start).unwrap();
let folds_start =
find_insertion_index(&self.folds, |probe| probe.start.cmp(&anchor, buffer))
.unwrap();
let mut folds = self.folds[folds_start..]
.iter()
.map(|fold| {
fold.start.to_offset(buffer).unwrap()..fold.end.to_offset(buffer).unwrap()
})
let mut folds_cursor = self.folds.cursor::<_, ()>();
folds_cursor.seek(&Fold(anchor..Anchor::End), SeekBias::Left, buffer);
let mut folds = folds_cursor
.map(|f| f.0.start.to_offset(buffer).unwrap()..f.0.end.to_offset(buffer).unwrap())
.peekable();
while folds
@ -293,29 +332,35 @@ impl FoldMap {
if fold.start > sum.buffer.chars {
let text_summary = buffer.text_summary_for_range(sum.buffer.chars..fold.start);
new_transforms.push(Transform {
summary: TransformSummary {
display: text_summary.clone(),
buffer: text_summary,
new_transforms.push(
Transform {
summary: TransformSummary {
display: text_summary.clone(),
buffer: text_summary,
},
display_text: None,
},
display_text: None,
});
&(),
);
}
if fold.end > fold.start {
new_transforms.push(Transform {
summary: TransformSummary {
display: TextSummary {
chars: 1,
bytes: ''.len_utf8(),
lines: Point::new(0, 1),
first_line_len: 1,
rightmost_point: Point::new(0, 1),
new_transforms.push(
Transform {
summary: TransformSummary {
display: TextSummary {
chars: 1,
bytes: ''.len_utf8(),
lines: Point::new(0, 1),
first_line_len: 1,
rightmost_point: Point::new(0, 1),
},
buffer: buffer.text_summary_for_range(fold.start..fold.end),
},
buffer: buffer.text_summary_for_range(fold.start..fold.end),
display_text: Some('…'),
},
display_text: Some('…'),
});
&(),
);
}
}
@ -323,26 +368,32 @@ impl FoldMap {
if sum.buffer.chars < edit.new_range.end {
let text_summary =
buffer.text_summary_for_range(sum.buffer.chars..edit.new_range.end);
new_transforms.push(Transform {
new_transforms.push(
Transform {
summary: TransformSummary {
display: text_summary.clone(),
buffer: text_summary,
},
display_text: None,
},
&(),
);
}
}
new_transforms.push_tree(cursor.suffix(&()), &());
if new_transforms.is_empty() {
let text_summary = buffer.text_summary();
new_transforms.push(
Transform {
summary: TransformSummary {
display: text_summary.clone(),
buffer: text_summary,
},
display_text: None,
});
}
}
new_transforms.push_tree(cursor.suffix());
if new_transforms.is_empty() {
let text_summary = buffer.text_summary();
new_transforms.push(Transform {
summary: TransformSummary {
display: text_summary.clone(),
buffer: text_summary,
},
display_text: None,
});
&(),
);
}
drop(cursor);
@ -363,7 +414,7 @@ impl FoldMapSnapshot {
let display_point = Point::new(start_row, 0);
let mut cursor = self.transforms.cursor();
cursor.seek(&DisplayPoint(display_point), SeekBias::Left);
cursor.seek(&DisplayPoint(display_point), SeekBias::Left, &());
Ok(BufferRows {
display_point,
@ -374,7 +425,7 @@ impl FoldMapSnapshot {
pub fn chars_at<'a>(&'a self, point: DisplayPoint, ctx: &'a AppContext) -> Result<Chars<'a>> {
let offset = self.to_display_offset(point, ctx)?;
let mut cursor = self.transforms.cursor();
cursor.seek(&offset, SeekBias::Right);
cursor.seek(&offset, SeekBias::Right, &());
Ok(Chars {
cursor,
offset: offset.0,
@ -385,7 +436,7 @@ impl FoldMapSnapshot {
fn to_display_offset(&self, point: DisplayPoint, ctx: &AppContext) -> Result<DisplayOffset> {
let mut cursor = self.transforms.cursor::<DisplayPoint, TransformSummary>();
cursor.seek(&point, SeekBias::Right);
cursor.seek(&point, SeekBias::Right, &());
let overshoot = point.0 - cursor.start().display.lines;
let mut offset = cursor.start().display.chars;
if !overshoot.is_zero() {
@ -421,16 +472,106 @@ impl sum_tree::Item for Transform {
}
}
impl<'a> std::ops::AddAssign<&'a Self> for TransformSummary {
fn add_assign(&mut self, other: &'a Self) {
impl sum_tree::Summary for TransformSummary {
type Context = ();
fn add_summary(&mut self, other: &Self, _: &()) {
self.buffer += &other.buffer;
self.display += &other.display;
}
}
impl<'a> Dimension<'a, TransformSummary> for TransformSummary {
impl<'a> sum_tree::Dimension<'a, TransformSummary> for TransformSummary {
fn add_summary(&mut self, summary: &'a TransformSummary) {
*self += summary;
sum_tree::Summary::add_summary(self, summary, &());
}
}
#[derive(Clone, Debug)]
struct Fold(Range<Anchor>);
impl Default for Fold {
fn default() -> Self {
Self(Anchor::Start..Anchor::End)
}
}
impl sum_tree::Item for Fold {
type Summary = FoldSummary;
fn summary(&self) -> Self::Summary {
FoldSummary {
start: self.0.start.clone(),
end: self.0.end.clone(),
min_start: self.0.start.clone(),
max_end: self.0.end.clone(),
count: 1,
}
}
}
#[derive(Clone, Debug)]
struct FoldSummary {
start: Anchor,
end: Anchor,
min_start: Anchor,
max_end: Anchor,
count: usize,
}
impl Default for FoldSummary {
fn default() -> Self {
Self {
start: Anchor::Start,
end: Anchor::End,
min_start: Anchor::End,
max_end: Anchor::Start,
count: 0,
}
}
}
impl sum_tree::Summary for FoldSummary {
type Context = Buffer;
fn add_summary(&mut self, other: &Self, buffer: &Buffer) {
if other.min_start.cmp(&self.min_start, buffer).unwrap() == Ordering::Less {
self.min_start = other.min_start.clone();
}
if other.max_end.cmp(&self.max_end, buffer).unwrap() == Ordering::Greater {
self.max_end = other.max_end.clone();
}
#[cfg(debug_assertions)]
{
let start_comparison = self.start.cmp(&other.start, buffer).unwrap();
assert!(start_comparison <= Ordering::Equal);
if start_comparison == Ordering::Equal {
assert!(self.end.cmp(&other.end, buffer).unwrap() >= Ordering::Equal);
}
}
self.start = other.start.clone();
self.end = other.end.clone();
self.count += other.count;
}
}
impl<'a> sum_tree::Dimension<'a, FoldSummary> for Fold {
fn add_summary(&mut self, summary: &'a FoldSummary) {
self.0.start = summary.start.clone();
self.0.end = summary.end.clone();
}
}
impl<'a> sum_tree::SeekDimension<'a, FoldSummary> for Fold {
fn cmp(&self, other: &Self, buffer: &Buffer) -> Ordering {
self.0.cmp(&other.0, buffer).unwrap()
}
}
impl<'a> sum_tree::Dimension<'a, FoldSummary> for usize {
fn add_summary(&mut self, summary: &'a FoldSummary) {
*self += summary.count;
}
}
@ -498,7 +639,7 @@ impl<'a> Iterator for Chars<'a> {
}
}
impl<'a> Dimension<'a, TransformSummary> for DisplayPoint {
impl<'a> sum_tree::Dimension<'a, TransformSummary> for DisplayPoint {
fn add_summary(&mut self, summary: &'a TransformSummary) {
self.0 += &summary.display.lines;
}
@ -507,19 +648,19 @@ impl<'a> Dimension<'a, TransformSummary> for DisplayPoint {
#[derive(Copy, Clone, Debug, Default, Eq, Ord, PartialOrd, PartialEq)]
pub struct DisplayOffset(usize);
impl<'a> Dimension<'a, TransformSummary> for DisplayOffset {
impl<'a> sum_tree::Dimension<'a, TransformSummary> for DisplayOffset {
fn add_summary(&mut self, summary: &'a TransformSummary) {
self.0 += &summary.display.chars;
}
}
impl<'a> Dimension<'a, TransformSummary> for Point {
impl<'a> sum_tree::Dimension<'a, TransformSummary> for Point {
fn add_summary(&mut self, summary: &'a TransformSummary) {
*self += &summary.buffer.lines;
}
}
impl<'a> Dimension<'a, TransformSummary> for usize {
impl<'a> sum_tree::Dimension<'a, TransformSummary> for usize {
fn add_summary(&mut self, summary: &'a TransformSummary) {
*self += &summary.buffer.chars;
}
@ -571,7 +712,7 @@ mod tests {
});
assert_eq!(map.text(app.as_ref()), "123a…c123456eee");
map.unfold(Some(Point::new(0, 4)..Point::new(0, 4)), app.as_ref())
map.unfold(Some(Point::new(0, 4)..Point::new(0, 5)), app.as_ref())
.unwrap();
assert_eq!(map.text(app.as_ref()), "123aaaaa\nbbbbbb\nccc123456eee");
});
@ -719,7 +860,7 @@ mod tests {
};
for seed in seed_range {
println!("{:?}", seed);
dbg!(seed);
let mut rng = StdRng::seed_from_u64(seed);
App::test((), |app| {
@ -732,26 +873,38 @@ mod tests {
for _ in 0..operations {
log::info!("text: {:?}", buffer.read(app).text());
if rng.gen() {
let buffer = buffer.read(app);
let fold_count = rng.gen_range(1..=5);
let mut fold_ranges: Vec<Range<usize>> = Vec::new();
for _ in 0..fold_count {
let end = rng.gen_range(0..buffer.len() + 1);
let start = rng.gen_range(0..end + 1);
fold_ranges.push(start..end);
match rng.gen_range(0..=100) {
0..=34 => {
let buffer = buffer.read(app);
let mut to_fold = Vec::new();
for _ in 0..rng.gen_range(1..=5) {
let end = rng.gen_range(0..=buffer.len());
let start = rng.gen_range(0..=end);
to_fold.push(start..end);
}
log::info!("folding {:?}", to_fold);
map.fold(to_fold, app.as_ref()).unwrap();
}
35..=59 if !map.folds.is_empty() => {
let buffer = buffer.read(app);
let mut to_unfold = Vec::new();
for _ in 0..rng.gen_range(1..=3) {
let end = rng.gen_range(0..=buffer.len());
let start = rng.gen_range(0..=end);
to_unfold.push(start..end);
}
log::info!("unfolding {:?}", to_unfold);
map.unfold(to_unfold, app.as_ref()).unwrap();
}
_ => {
let edits = buffer.update(app, |buffer, ctx| {
let start_version = buffer.version.clone();
let edit_count = rng.gen_range(1..=5);
buffer.randomly_edit(&mut rng, edit_count, Some(ctx));
buffer.edits_since(start_version).collect::<Vec<_>>()
});
log::info!("editing {:?}", edits);
}
log::info!("folding {:?}", fold_ranges);
map.fold(fold_ranges.clone(), app.as_ref()).unwrap();
} else {
let edits = buffer.update(app, |buffer, ctx| {
let start_version = buffer.version.clone();
let edit_count = rng.gen_range(1..=5);
buffer.randomly_edit(&mut rng, edit_count, Some(ctx));
buffer.edits_since(start_version).collect::<Vec<_>>()
});
log::info!("editing {:?}", edits);
}
map.check_invariants(app.as_ref());
@ -844,6 +997,31 @@ mod tests {
);
assert!(map.is_line_folded(display_point.row(), app.as_ref()));
}
for _ in 0..5 {
let end = rng.gen_range(0..=buffer.len());
let start = rng.gen_range(0..=end);
let expected_folds = map
.folds
.items()
.into_iter()
.filter(|fold| {
let start = buffer.anchor_before(start).unwrap();
let end = buffer.anchor_after(end).unwrap();
start.cmp(&fold.0.end, buffer).unwrap() == Ordering::Less
&& end.cmp(&fold.0.start, buffer).unwrap() == Ordering::Greater
})
.map(|fold| fold.0)
.collect::<Vec<_>>();
assert_eq!(
map.folds_in_range(start..end, app.as_ref())
.unwrap()
.cloned()
.collect::<Vec<_>>(),
expected_folds
);
}
}
});
}
@ -894,13 +1072,13 @@ mod tests {
fn merged_fold_ranges(&self, app: &AppContext) -> Vec<Range<usize>> {
let buffer = self.buffer.read(app);
let mut folds = self.folds.clone();
let mut folds = self.folds.items();
// Ensure sorting doesn't change how folds get merged and displayed.
folds.sort_by(|a, b| a.cmp(b, buffer).unwrap());
folds.sort_by(|a, b| a.0.cmp(&b.0, buffer).unwrap());
let mut fold_ranges = folds
.iter()
.map(|fold| {
fold.start.to_offset(buffer).unwrap()..fold.end.to_offset(buffer).unwrap()
fold.0.start.to_offset(buffer).unwrap()..fold.0.end.to_offset(buffer).unwrap()
})
.peekable();

2
zed/src/editor/display_map/mod.rs
View File

@ -1,6 +1,6 @@
mod fold_map;
use super::{buffer, Anchor, AnchorRangeExt, Buffer, Edit, Point, TextSummary, ToOffset, ToPoint};
use super::{buffer, Anchor, Buffer, Edit, Point, TextSummary, ToOffset, ToPoint};
use anyhow::Result;
pub use fold_map::BufferRows;
use fold_map::{FoldMap, FoldMapSnapshot};

16
zed/src/operation_queue.rs
View File

@ -1,11 +1,8 @@
use crate::{
sum_tree::{Cursor, Dimension, Edit, Item, KeyedItem, SumTree},
sum_tree::{Cursor, Dimension, Edit, Item, KeyedItem, SumTree, Summary},
time,
};
use std::{
fmt::Debug,
ops::{Add, AddAssign},
};
use std::{fmt::Debug, ops::Add};
pub trait Operation: Clone + Debug + Eq {
fn timestamp(&self) -> time::Lamport;
@ -35,7 +32,8 @@ impl<T: Operation> OperationQueue<T> {
pub fn insert(&mut self, mut ops: Vec<T>) {
ops.sort_by_key(|op| op.timestamp());
ops.dedup_by_key(|op| op.timestamp());
self.0.edit(ops.into_iter().map(Edit::Insert).collect());
self.0
.edit(ops.into_iter().map(Edit::Insert).collect(), &());
}
pub fn drain(&mut self) -> Self {
@ -68,8 +66,10 @@ impl<T: Operation> KeyedItem for T {
}
}
impl<'a> AddAssign<&'a Self> for OperationSummary {
fn add_assign(&mut self, other: &Self) {
impl Summary for OperationSummary {
type Context = ();
fn add_summary(&mut self, other: &Self, _: &()) {
assert!(self.key < other.key);
self.key = other.key;
self.len += other.len;

292
zed/src/sum_tree/cursor.rs
View File

@ -199,9 +199,6 @@ where
}
pub fn next(&mut self) {
if !self.did_seek {
self.descend_to_first_item(self.tree, |_| true)
}
self.next_internal(|_| true)
}
@ -209,67 +206,88 @@ where
where
F: Fn(&T::Summary) -> bool,
{
assert!(self.did_seek, "Must seek before calling this method");
let mut descend = false;
if self.stack.is_empty() {
if !self.at_end {
self.descend_to_first_item(self.tree, filter_node);
}
} else {
while self.stack.len() > 0 {
let new_subtree = {
let entry = self.stack.last_mut().unwrap();
match entry.tree.0.as_ref() {
Node::Internal {
child_trees,
child_summaries,
..
} => {
while entry.index < child_summaries.len() {
entry
.seek_dimension
.add_summary(&child_summaries[entry.index]);
entry
.sum_dimension
.add_summary(&child_summaries[entry.index]);
if self.stack.is_empty() && !self.at_end {
self.stack.push(StackEntry {
tree: self.tree,
index: 0,
seek_dimension: S::default(),
sum_dimension: U::default(),
});
descend = true;
self.did_seek = true;
}
entry.index += 1;
if let Some(next_summary) = child_summaries.get(entry.index) {
if filter_node(next_summary) {
break;
} else {
self.seek_dimension.add_summary(next_summary);
self.sum_dimension.add_summary(next_summary);
}
}
}
child_trees.get(entry.index)
while self.stack.len() > 0 {
let new_subtree = {
let entry = self.stack.last_mut().unwrap();
match entry.tree.0.as_ref() {
Node::Internal {
child_trees,
child_summaries,
..
} => {
if !descend {
let summary = &child_summaries[entry.index];
entry.seek_dimension.add_summary(summary);
entry.sum_dimension.add_summary(summary);
entry.index += 1;
}
Node::Leaf { item_summaries, .. } => loop {
while entry.index < child_summaries.len() {
let next_summary = &child_summaries[entry.index];
if filter_node(next_summary) {
break;
} else {
self.seek_dimension.add_summary(next_summary);
self.sum_dimension.add_summary(next_summary);
}
entry.index += 1;
}
child_trees.get(entry.index)
}
Node::Leaf { item_summaries, .. } => {
if !descend {
let item_summary = &item_summaries[entry.index];
self.seek_dimension.add_summary(item_summary);
entry.seek_dimension.add_summary(item_summary);
self.sum_dimension.add_summary(item_summary);
entry.sum_dimension.add_summary(item_summary);
entry.index += 1;
}
loop {
if let Some(next_item_summary) = item_summaries.get(entry.index) {
if filter_node(next_item_summary) {
return;
} else {
self.seek_dimension.add_summary(next_item_summary);
entry.seek_dimension.add_summary(next_item_summary);
self.sum_dimension.add_summary(next_item_summary);
entry.sum_dimension.add_summary(next_item_summary);
entry.index += 1;
}
} else {
break None;
}
},
}
}
};
if let Some(subtree) = new_subtree {
self.descend_to_first_item(subtree, filter_node);
break;
} else {
self.stack.pop();
}
};
if let Some(subtree) = new_subtree {
descend = true;
self.stack.push(StackEntry {
tree: subtree,
index: 0,
seek_dimension: self.seek_dimension.clone(),
sum_dimension: self.sum_dimension.clone(),
});
} else {
descend = false;
self.stack.pop();
}
}
@ -277,67 +295,6 @@ where
debug_assert!(self.stack.is_empty() || self.stack.last().unwrap().tree.0.is_leaf());
}
pub fn descend_to_first_item<F>(&mut self, mut subtree: &'a SumTree<T>, filter_node: F)
where
F: Fn(&T::Summary) -> bool,
{
self.did_seek = true;
loop {
subtree = match *subtree.0 {
Node::Internal {
ref child_trees,
ref child_summaries,
..
} => {
let mut new_index = None;
for (index, summary) in child_summaries.iter().enumerate() {
if filter_node(summary) {
new_index = Some(index);
break;
}
self.seek_dimension.add_summary(summary);
self.sum_dimension.add_summary(summary);
}
if let Some(new_index) = new_index {
self.stack.push(StackEntry {
tree: subtree,
index: new_index,
seek_dimension: self.seek_dimension.clone(),
sum_dimension: self.sum_dimension.clone(),
});
&child_trees[new_index]
} else {
break;
}
}
Node::Leaf {
ref item_summaries, ..
} => {
let mut new_index = None;
for (index, item_summary) in item_summaries.iter().enumerate() {
if filter_node(item_summary) {
new_index = Some(index);
break;
}
self.seek_dimension.add_summary(item_summary);
self.sum_dimension.add_summary(item_summary);
}
if let Some(new_index) = new_index {
self.stack.push(StackEntry {
tree: subtree,
index: new_index,
seek_dimension: self.seek_dimension.clone(),
sum_dimension: self.sum_dimension.clone(),
});
}
break;
}
}
}
}
fn descend_to_last_item(&mut self, mut subtree: &'a SumTree<T>) {
self.did_seek = true;
loop {
@ -382,22 +339,36 @@ where
impl<'a, T, S, U> Cursor<'a, T, S, U>
where
T: Item,
S: Dimension<'a, T::Summary> + Ord,
S: SeekDimension<'a, T::Summary>,
U: Dimension<'a, T::Summary>,
{
pub fn seek(&mut self, pos: &S, bias: SeekBias) -> bool {
pub fn seek(
&mut self,
pos: &S,
bias: SeekBias,
ctx: &<T::Summary as Summary>::Context,
) -> bool {
self.reset();
self.seek_internal::<()>(pos, bias, &mut SeekAggregate::None)
self.seek_internal::<()>(pos, bias, &mut SeekAggregate::None, ctx)
}
#[allow(unused)]
pub fn seek_forward(&mut self, pos: &S, bias: SeekBias) -> bool {
self.seek_internal::<()>(pos, bias, &mut SeekAggregate::None)
pub fn seek_forward(
&mut self,
pos: &S,
bias: SeekBias,
ctx: &<T::Summary as Summary>::Context,
) -> bool {
self.seek_internal::<()>(pos, bias, &mut SeekAggregate::None, ctx)
}
pub fn slice(&mut self, end: &S, bias: SeekBias) -> SumTree<T> {
pub fn slice(
&mut self,
end: &S,
bias: SeekBias,
ctx: &<T::Summary as Summary>::Context,
) -> SumTree<T> {
let mut slice = SeekAggregate::Slice(SumTree::new());
self.seek_internal::<()>(end, bias, &mut slice);
self.seek_internal::<()>(end, bias, &mut slice, ctx);
if let SeekAggregate::Slice(slice) = slice {
slice
} else {
@ -405,10 +376,10 @@ where
}
}
pub fn suffix(&mut self) -> SumTree<T> {
pub fn suffix(&mut self, ctx: &<T::Summary as Summary>::Context) -> SumTree<T> {
let extent = self.tree.extent::<S>();
let mut slice = SeekAggregate::Slice(SumTree::new());
self.seek_internal::<()>(&extent, SeekBias::Right, &mut slice);
self.seek_internal::<()>(&extent, SeekBias::Right, &mut slice, ctx);
if let SeekAggregate::Slice(slice) = slice {
slice
} else {
@ -416,12 +387,17 @@ where
}
}
pub fn summary<D>(&mut self, end: &S, bias: SeekBias) -> D
pub fn summary<D>(
&mut self,
end: &S,
bias: SeekBias,
ctx: &<T::Summary as Summary>::Context,
) -> D
where
D: Dimension<'a, T::Summary>,
{
let mut summary = SeekAggregate::Summary(D::default());
self.seek_internal(end, bias, &mut summary);
self.seek_internal(end, bias, &mut summary, ctx);
if let SeekAggregate::Summary(summary) = summary {
summary
} else {
@ -434,11 +410,12 @@ where
target: &S,
bias: SeekBias,
aggregate: &mut SeekAggregate<T, D>,
ctx: &<T::Summary as Summary>::Context,
) -> bool
where
D: Dimension<'a, T::Summary>,
{
debug_assert!(target >= &self.seek_dimension);
debug_assert!(target.cmp(&self.seek_dimension, ctx) >= Ordering::Equal);
let mut containing_subtree = None;
if self.did_seek {
@ -458,7 +435,7 @@ where
let mut child_end = self.seek_dimension.clone();
child_end.add_summary(&child_summary);
let comparison = target.cmp(&child_end);
let comparison = target.cmp(&child_end, ctx);
if comparison == Ordering::Greater
|| (comparison == Ordering::Equal && bias == SeekBias::Right)
{
@ -467,7 +444,7 @@ where
match aggregate {
SeekAggregate::None => {}
SeekAggregate::Slice(slice) => {
slice.push_tree(child_tree.clone());
slice.push_tree(child_tree.clone(), ctx);
}
SeekAggregate::Summary(summary) => {
summary.add_summary(child_summary);
@ -500,7 +477,7 @@ where
let mut item_end = self.seek_dimension.clone();
item_end.add_summary(item_summary);
let comparison = target.cmp(&item_end);
let comparison = target.cmp(&item_end, ctx);
if comparison == Ordering::Greater
|| (comparison == Ordering::Equal && bias == SeekBias::Right)
{
@ -511,7 +488,10 @@ where
SeekAggregate::Slice(_) => {
slice_items.push(item.clone());
slice_item_summaries.push(item_summary.clone());
*slice_items_summary.as_mut().unwrap() += item_summary;
slice_items_summary
.as_mut()
.unwrap()
.add_summary(item_summary, ctx);
}
SeekAggregate::Summary(summary) => {
summary.add_summary(item_summary);
@ -520,11 +500,14 @@ where
entry.index += 1;
} else {
if let SeekAggregate::Slice(slice) = aggregate {
slice.push_tree(SumTree(Arc::new(Node::Leaf {
summary: slice_items_summary.unwrap(),
items: slice_items,
item_summaries: slice_item_summaries,
})));
slice.push_tree(
SumTree(Arc::new(Node::Leaf {
summary: slice_items_summary.unwrap(),
items: slice_items,
item_summaries: slice_item_summaries,
})),
ctx,
);
}
break 'outer;
}
@ -532,11 +515,14 @@ where
if let SeekAggregate::Slice(slice) = aggregate {
if !slice_items.is_empty() {
slice.push_tree(SumTree(Arc::new(Node::Leaf {
summary: slice_items_summary.unwrap(),
items: slice_items,
item_summaries: slice_item_summaries,
})));
slice.push_tree(
SumTree(Arc::new(Node::Leaf {
summary: slice_items_summary.unwrap(),
items: slice_items,
item_summaries: slice_item_summaries,
})),
ctx,
);
}
}
}
@ -565,7 +551,7 @@ where
let mut child_end = self.seek_dimension.clone();
child_end.add_summary(child_summary);
let comparison = target.cmp(&child_end);
let comparison = target.cmp(&child_end, ctx);
if comparison == Ordering::Greater
|| (comparison == Ordering::Equal && bias == SeekBias::Right)
{
@ -574,7 +560,7 @@ where
match aggregate {
SeekAggregate::None => {}
SeekAggregate::Slice(slice) => {
slice.push_tree(child_trees[index].clone());
slice.push_tree(child_trees[index].clone(), ctx);
}
SeekAggregate::Summary(summary) => {
summary.add_summary(child_summary);
@ -611,7 +597,7 @@ where
let mut child_end = self.seek_dimension.clone();
child_end.add_summary(item_summary);
let comparison = target.cmp(&child_end);
let comparison = target.cmp(&child_end, ctx);
if comparison == Ordering::Greater
|| (comparison == Ordering::Equal && bias == SeekBias::Right)
{
@ -621,7 +607,10 @@ where
SeekAggregate::None => {}
SeekAggregate::Slice(_) => {
slice_items.push(item.clone());
*slice_items_summary.as_mut().unwrap() += item_summary;
slice_items_summary
.as_mut()
.unwrap()
.add_summary(item_summary, ctx);
slice_item_summaries.push(item_summary.clone());
}
SeekAggregate::Summary(summary) => {
@ -641,11 +630,14 @@ where
if let SeekAggregate::Slice(slice) = aggregate {
if !slice_items.is_empty() {
slice.push_tree(SumTree(Arc::new(Node::Leaf {
summary: slice_items_summary.unwrap(),
items: slice_items,
item_summaries: slice_item_summaries,
})));
slice.push_tree(
SumTree(Arc::new(Node::Leaf {
summary: slice_items_summary.unwrap(),
items: slice_items,
item_summaries: slice_item_summaries,
})),
ctx,
);
}
}
}
@ -666,9 +658,9 @@ where
if let Some(summary) = self.item_summary() {
end.add_summary(summary);
}
*target == end
target.cmp(&end, ctx) == Ordering::Equal
} else {
*target == self.seek_dimension
target.cmp(&self.seek_dimension, ctx) == Ordering::Equal
}
}
}
@ -683,7 +675,7 @@ where
fn next(&mut self) -> Option<Self::Item> {
if !self.did_seek {
self.descend_to_first_item(self.tree, |_| true);
self.next();
}
if let Some(item) = self.item() {
@ -708,13 +700,7 @@ where
{
pub fn new(tree: &'a SumTree<T>, filter_node: F) -> Self {
let mut cursor = tree.cursor::<(), U>();
if filter_node(&tree.summary()) {
cursor.descend_to_first_item(tree, &filter_node);
} else {
cursor.did_seek = true;
cursor.at_end = true;
}
cursor.next_internal(&filter_node);
Self {
cursor,
filter_node,

244
zed/src/sum_tree/mod.rs
View File

@ -3,7 +3,7 @@ mod cursor;
use arrayvec::ArrayVec;
pub use cursor::Cursor;
pub use cursor::FilterCursor;
use std::{fmt, iter::FromIterator, ops::AddAssign, sync::Arc};
use std::{cmp::Ordering, fmt, iter::FromIterator, sync::Arc};
#[cfg(test)]
const TREE_BASE: usize = 2;
@ -11,7 +11,7 @@ const TREE_BASE: usize = 2;
const TREE_BASE: usize = 6;
pub trait Item: Clone + fmt::Debug {
type Summary: for<'a> AddAssign<&'a Self::Summary> + Default + Clone + fmt::Debug;
type Summary: Summary;
fn summary(&self) -> Self::Summary;
}
@ -22,14 +22,30 @@ pub trait KeyedItem: Item {
fn key(&self) -> Self::Key;
}
pub trait Dimension<'a, Summary: Default>: Clone + fmt::Debug + Default {
fn add_summary(&mut self, summary: &'a Summary);
pub trait Summary: Default + Clone + fmt::Debug {
type Context;
fn add_summary(&mut self, summary: &Self, ctx: &Self::Context);
}
impl<'a, T: Default> Dimension<'a, T> for () {
pub trait Dimension<'a, S: Summary>: Clone + fmt::Debug + Default {
fn add_summary(&mut self, _summary: &'a S);
}
impl<'a, T: Summary> Dimension<'a, T> for () {
fn add_summary(&mut self, _: &'a T) {}
}
pub trait SeekDimension<'a, T: Summary>: Dimension<'a, T> {
fn cmp(&self, other: &Self, ctx: &T::Context) -> Ordering;
}
impl<'a, S: Summary, T: Dimension<'a, S> + Ord> SeekDimension<'a, S> for T {
fn cmp(&self, other: &Self, _ctx: &S::Context) -> Ordering {
Ord::cmp(self, other)
}
}
#[derive(Copy, Clone, Eq, PartialEq)]
pub enum SeekBias {
Left,
@ -48,16 +64,15 @@ impl<T: Item> SumTree<T> {
}))
}
pub fn from_item(item: T) -> Self {
pub fn from_item(item: T, ctx: &<T::Summary as Summary>::Context) -> Self {
let mut tree = Self::new();
tree.push(item);
tree.push(item, ctx);
tree
}
#[allow(unused)]
pub fn items(&self) -> Vec<T> {
let mut cursor = self.cursor::<(), ()>();
cursor.descend_to_first_item(self, |_| true);
cursor.cloned().collect()
}
@ -90,7 +105,7 @@ impl<T: Item> SumTree<T> {
let mut extent = D::default();
match self.0.as_ref() {
Node::Internal { summary, .. } | Node::Leaf { summary, .. } => {
extent.add_summary(summary)
extent.add_summary(summary);
}
}
extent
@ -110,7 +125,7 @@ impl<T: Item> SumTree<T> {
}
}
pub fn extend<I>(&mut self, iter: I)
pub fn extend<I>(&mut self, iter: I, ctx: &<T::Summary as Summary>::Context)
where
I: IntoIterator<Item = T>,
{
@ -118,7 +133,7 @@ impl<T: Item> SumTree<T> {
for item in iter {
if leaf.is_some() && leaf.as_ref().unwrap().items().len() == 2 * TREE_BASE {
self.push_tree(SumTree(Arc::new(leaf.take().unwrap())));
self.push_tree(SumTree(Arc::new(leaf.take().unwrap())), ctx);
}
if leaf.is_none() {
@ -136,7 +151,7 @@ impl<T: Item> SumTree<T> {
}) = leaf.as_mut()
{
let item_summary = item.summary();
*summary += &item_summary;
summary.add_summary(&item_summary, ctx);
items.push(item);
item_summaries.push(item_summary);
} else {
@ -145,35 +160,43 @@ impl<T: Item> SumTree<T> {
}
if leaf.is_some() {
self.push_tree(SumTree(Arc::new(leaf.take().unwrap())));
self.push_tree(SumTree(Arc::new(leaf.take().unwrap())), ctx);
}
}
pub fn push(&mut self, item: T) {
pub fn push(&mut self, item: T, ctx: &<T::Summary as Summary>::Context) {
let summary = item.summary();
self.push_tree(SumTree::from_child_trees(vec![SumTree(Arc::new(
Node::Leaf {
summary: summary.clone(),
items: ArrayVec::from_iter(Some(item)),
item_summaries: ArrayVec::from_iter(Some(summary)),
},
))]))
self.push_tree(
SumTree::from_child_trees(
vec![SumTree(Arc::new(Node::Leaf {
summary: summary.clone(),
items: ArrayVec::from_iter(Some(item)),
item_summaries: ArrayVec::from_iter(Some(summary)),
}))],
ctx,
),
ctx,
)
}
pub fn push_tree(&mut self, other: Self) {
pub fn push_tree(&mut self, other: Self, ctx: &<T::Summary as Summary>::Context) {
let other_node = other.0.clone();
if !other_node.is_leaf() || other_node.items().len() > 0 {
if self.0.height() < other_node.height() {
for tree in other_node.child_trees() {
self.push_tree(tree.clone());
self.push_tree(tree.clone(), ctx);
}
} else if let Some(split_tree) = self.push_tree_recursive(other) {
*self = Self::from_child_trees(vec![self.clone(), split_tree]);
} else if let Some(split_tree) = self.push_tree_recursive(other, ctx) {
*self = Self::from_child_trees(vec![self.clone(), split_tree], ctx);
}
}
}
fn push_tree_recursive(&mut self, other: SumTree<T>) -> Option<SumTree<T>> {
fn push_tree_recursive(
&mut self,
other: SumTree<T>,
ctx: &<T::Summary as Summary>::Context,
) -> Option<SumTree<T>> {
match Arc::make_mut(&mut self.0) {
Node::Internal {
height,
@ -183,7 +206,7 @@ impl<T: Item> SumTree<T> {
..
} => {
let other_node = other.0.clone();
*summary += other_node.summary();
summary.add_summary(other_node.summary(), ctx);
let height_delta = *height - other_node.height();
let mut summaries_to_append = ArrayVec::<[T::Summary; 2 * TREE_BASE]>::new();
@ -195,7 +218,10 @@ impl<T: Item> SumTree<T> {
summaries_to_append.push(other_node.summary().clone());
trees_to_append.push(other)
} else {
let tree_to_append = child_trees.last_mut().unwrap().push_tree_recursive(other);
let tree_to_append = child_trees
.last_mut()
.unwrap()
.push_tree_recursive(other, ctx);
*child_summaries.last_mut().unwrap() =
child_trees.last().unwrap().0.summary().clone();
@ -225,13 +251,13 @@ impl<T: Item> SumTree<T> {
left_trees = all_trees.by_ref().take(midpoint).collect();
right_trees = all_trees.collect();
}
*summary = sum(left_summaries.iter());
*summary = sum(left_summaries.iter(), ctx);
*child_summaries = left_summaries;
*child_trees = left_trees;
Some(SumTree(Arc::new(Node::Internal {
height: *height,
summary: sum(right_summaries.iter()),
summary: sum(right_summaries.iter(), ctx),
child_summaries: right_summaries,
child_trees: right_trees,
})))
@ -270,14 +296,14 @@ impl<T: Item> SumTree<T> {
}
*items = left_items;
*item_summaries = left_summaries;
*summary = sum(item_summaries.iter());
*summary = sum(item_summaries.iter(), ctx);
Some(SumTree(Arc::new(Node::Leaf {
items: right_items,
summary: sum(right_summaries.iter()),
summary: sum(right_summaries.iter(), ctx),
item_summaries: right_summaries,
})))
} else {
*summary += other_node.summary();
summary.add_summary(other_node.summary(), ctx);
items.extend(other_node.items().iter().cloned());
item_summaries.extend(other_node.child_summaries().iter().cloned());
None
@ -286,13 +312,16 @@ impl<T: Item> SumTree<T> {
}
}
fn from_child_trees(child_trees: Vec<SumTree<T>>) -> Self {
fn from_child_trees(
child_trees: Vec<SumTree<T>>,
ctx: &<T::Summary as Summary>::Context,
) -> Self {
let height = child_trees[0].0.height() + 1;
let mut child_summaries = ArrayVec::new();
for child in &child_trees {
child_summaries.push(child.0.summary().clone());
}
let summary = sum(child_summaries.iter());
let summary = sum(child_summaries.iter(), ctx);
SumTree(Arc::new(Node::Internal {
height,
summary,
@ -322,17 +351,21 @@ impl<T: Item> SumTree<T> {
impl<T: KeyedItem> SumTree<T> {
#[allow(unused)]
pub fn insert(&mut self, item: T) {
pub fn insert(&mut self, item: T, ctx: &<T::Summary as Summary>::Context) {
*self = {
let mut cursor = self.cursor::<T::Key, ()>();
let mut new_tree = cursor.slice(&item.key(), SeekBias::Left);
new_tree.push(item);
new_tree.push_tree(cursor.suffix());
let mut new_tree = cursor.slice(&item.key(), SeekBias::Left, ctx);
new_tree.push(item, ctx);
new_tree.push_tree(cursor.suffix(ctx), ctx);
new_tree
};
}
pub fn edit(&mut self, mut edits: Vec<Edit<T>>) -> Vec<T> {
pub fn edit(
&mut self,
mut edits: Vec<Edit<T>>,
ctx: &<T::Summary as Summary>::Context,
) -> Vec<T> {
if edits.is_empty() {
return Vec::new();
}
@ -345,7 +378,7 @@ impl<T: KeyedItem> SumTree<T> {
let mut new_tree = SumTree::new();
let mut buffered_items = Vec::new();
cursor.seek(&T::Key::default(), SeekBias::Left);
cursor.seek(&T::Key::default(), SeekBias::Left, ctx);
for edit in edits {
let new_key = edit.key();
let mut old_item = cursor.item();
@ -354,9 +387,9 @@ impl<T: KeyedItem> SumTree<T> {
.as_ref()
.map_or(false, |old_item| old_item.key() < new_key)
{
new_tree.extend(buffered_items.drain(..));
let slice = cursor.slice(&new_key, SeekBias::Left);
new_tree.push_tree(slice);
new_tree.extend(buffered_items.drain(..), ctx);
let slice = cursor.slice(&new_key, SeekBias::Left, ctx);
new_tree.push_tree(slice, ctx);
old_item = cursor.item();
}
@ -375,17 +408,17 @@ impl<T: KeyedItem> SumTree<T> {
}
}
new_tree.extend(buffered_items);
new_tree.push_tree(cursor.suffix());
new_tree.extend(buffered_items, ctx);
new_tree.push_tree(cursor.suffix(ctx), ctx);
new_tree
};
removed
}
pub fn get(&self, key: &T::Key) -> Option<&T> {
pub fn get(&self, key: &T::Key, ctx: &<T::Summary as Summary>::Context) -> Option<&T> {
let mut cursor = self.cursor::<T::Key, ()>();
if cursor.seek(key, SeekBias::Left) {
if cursor.seek(key, SeekBias::Left, ctx) {
cursor.item()
} else {
None
@ -482,14 +515,14 @@ impl<T: KeyedItem> Edit<T> {
}
}
fn sum<'a, T, I>(iter: I) -> T
fn sum<'a, T, I>(iter: I, ctx: &T::Context) -> T
where
T: 'a + Default + AddAssign<&'a T>,
T: 'a + Summary,
I: Iterator<Item = &'a T>,
{
let mut sum = T::default();
for value in iter {
sum += value;
sum.add_summary(value, ctx);
}
sum
}
@ -503,12 +536,12 @@ mod tests {
#[test]
fn test_extend_and_push_tree() {
let mut tree1 = SumTree::new();
tree1.extend(0..20);
tree1.extend(0..20, &());
let mut tree2 = SumTree::new();
tree2.extend(50..100);
tree2.extend(50..100, &());
tree1.push_tree(tree2);
tree1.push_tree(tree2, &());
assert_eq!(tree1.items(), (0..20).chain(50..100).collect::<Vec<u8>>());
}
@ -517,11 +550,12 @@ mod tests {
for seed in 0..100 {
use rand::{distributions, prelude::*};
dbg!(seed);
let rng = &mut StdRng::seed_from_u64(seed);
let mut tree = SumTree::<u8>::new();
let count = rng.gen_range(0..10);
tree.extend(rng.sample_iter(distributions::Standard).take(count));
tree.extend(rng.sample_iter(distributions::Standard).take(count), &());
for _ in 0..5 {
let splice_end = rng.gen_range(0..tree.extent::<Count>().0 + 1);
@ -538,10 +572,10 @@ mod tests {
tree = {
let mut cursor = tree.cursor::<Count, ()>();
let mut new_tree = cursor.slice(&Count(splice_start), SeekBias::Right);
new_tree.extend(new_items);
cursor.seek(&Count(splice_end), SeekBias::Right);
new_tree.push_tree(cursor.slice(&tree_end, SeekBias::Right));
let mut new_tree = cursor.slice(&Count(splice_start), SeekBias::Right, &());
new_tree.extend(new_items, &());
cursor.seek(&Count(splice_end), SeekBias::Right, &());
new_tree.push_tree(cursor.slice(&tree_end, SeekBias::Right, &()), &());
new_tree
};
@ -564,7 +598,7 @@ mod tests {
let mut pos = rng.gen_range(0..tree.extent::<Count>().0 + 1);
let mut before_start = false;
let mut cursor = tree.cursor::<Count, Count>();
cursor.seek(&Count(pos), SeekBias::Right);
cursor.seek(&Count(pos), SeekBias::Right, &());
for i in 0..10 {
assert_eq!(cursor.start().0, pos);
@ -612,11 +646,11 @@ mod tests {
};
let mut cursor = tree.cursor::<Count, ()>();
cursor.seek(&Count(start), start_bias);
let slice = cursor.slice(&Count(end), end_bias);
cursor.seek(&Count(start), start_bias, &());
let slice = cursor.slice(&Count(end), end_bias, &());
cursor.seek(&Count(start), start_bias);
let summary = cursor.summary::<Sum>(&Count(end), end_bias);
cursor.seek(&Count(start), start_bias, &());
let summary = cursor.summary::<Sum>(&Count(end), end_bias, &());
assert_eq!(summary, slice.summary().sum);
}
@ -629,7 +663,7 @@ mod tests {
let tree = SumTree::<u8>::new();
let mut cursor = tree.cursor::<Count, Sum>();
assert_eq!(
cursor.slice(&Count(0), SeekBias::Right).items(),
cursor.slice(&Count(0), SeekBias::Right, &()).items(),
Vec::<u8>::new()
);
assert_eq!(cursor.item(), None);
@ -638,10 +672,10 @@ mod tests {
// Single-element tree
let mut tree = SumTree::<u8>::new();
tree.extend(vec![1]);
tree.extend(vec![1], &());
let mut cursor = tree.cursor::<Count, Sum>();
assert_eq!(
cursor.slice(&Count(0), SeekBias::Right).items(),
cursor.slice(&Count(0), SeekBias::Right, &()).items(),
Vec::<u8>::new()
);
assert_eq!(cursor.item(), Some(&1));
@ -659,15 +693,15 @@ mod tests {
assert_eq!(cursor.start(), &Sum(0));
let mut cursor = tree.cursor::<Count, Sum>();
assert_eq!(cursor.slice(&Count(1), SeekBias::Right).items(), [1]);
assert_eq!(cursor.slice(&Count(1), SeekBias::Right, &()).items(), [1]);
assert_eq!(cursor.item(), None);
assert_eq!(cursor.prev_item(), Some(&1));
assert_eq!(cursor.start(), &Sum(1));
cursor.seek(&Count(0), SeekBias::Right);
cursor.seek(&Count(0), SeekBias::Right, &());
assert_eq!(
cursor
.slice(&tree.extent::<Count>(), SeekBias::Right)
.slice(&tree.extent::<Count>(), SeekBias::Right, &())
.items(),
[1]
);
@ -677,10 +711,13 @@ mod tests {
// Multiple-element tree
let mut tree = SumTree::new();
tree.extend(vec![1, 2, 3, 4, 5, 6]);
tree.extend(vec![1, 2, 3, 4, 5, 6], &());
let mut cursor = tree.cursor::<Count, Sum>();
assert_eq!(cursor.slice(&Count(2), SeekBias::Right).items(), [1, 2]);
assert_eq!(
cursor.slice(&Count(2), SeekBias::Right, &()).items(),
[1, 2]
);
assert_eq!(cursor.item(), Some(&3));
assert_eq!(cursor.prev_item(), Some(&2));
assert_eq!(cursor.start(), &Sum(3));
@ -749,7 +786,7 @@ mod tests {
let mut cursor = tree.cursor::<Count, Sum>();
assert_eq!(
cursor
.slice(&tree.extent::<Count>(), SeekBias::Right)
.slice(&tree.extent::<Count>(), SeekBias::Right, &())
.items(),
tree.items()
);
@ -757,10 +794,10 @@ mod tests {
assert_eq!(cursor.prev_item(), Some(&6));
assert_eq!(cursor.start(), &Sum(21));
cursor.seek(&Count(3), SeekBias::Right);
cursor.seek(&Count(3), SeekBias::Right, &());
assert_eq!(
cursor
.slice(&tree.extent::<Count>(), SeekBias::Right)
.slice(&tree.extent::<Count>(), SeekBias::Right, &())
.items(),
[4, 5, 6]
);
@ -769,37 +806,46 @@ mod tests {
assert_eq!(cursor.start(), &Sum(21));
// Seeking can bias left or right
cursor.seek(&Count(1), SeekBias::Left);
cursor.seek(&Count(1), SeekBias::Left, &());
assert_eq!(cursor.item(), Some(&1));
cursor.seek(&Count(1), SeekBias::Right);
cursor.seek(&Count(1), SeekBias::Right, &());
assert_eq!(cursor.item(), Some(&2));
// Slicing without resetting starts from where the cursor is parked at.
cursor.seek(&Count(1), SeekBias::Right);
assert_eq!(cursor.slice(&Count(3), SeekBias::Right).items(), vec![2, 3]);
assert_eq!(cursor.slice(&Count(6), SeekBias::Left).items(), vec![4, 5]);
assert_eq!(cursor.slice(&Count(6), SeekBias::Right).items(), vec![6]);
cursor.seek(&Count(1), SeekBias::Right, &());
assert_eq!(
cursor.slice(&Count(3), SeekBias::Right, &()).items(),
vec![2, 3]
);
assert_eq!(
cursor.slice(&Count(6), SeekBias::Left, &()).items(),
vec![4, 5]
);
assert_eq!(
cursor.slice(&Count(6), SeekBias::Right, &()).items(),
vec![6]
);
}
#[test]
fn test_edit() {
let mut tree = SumTree::<u8>::new();
let removed = tree.edit(vec![Edit::Insert(1), Edit::Insert(2), Edit::Insert(0)]);
let removed = tree.edit(vec![Edit::Insert(1), Edit::Insert(2), Edit::Insert(0)], &());
assert_eq!(tree.items(), vec![0, 1, 2]);
assert_eq!(removed, Vec::<u8>::new());
assert_eq!(tree.get(&0), Some(&0));
assert_eq!(tree.get(&1), Some(&1));
assert_eq!(tree.get(&2), Some(&2));
assert_eq!(tree.get(&4), None);
assert_eq!(tree.get(&0, &()), Some(&0));
assert_eq!(tree.get(&1, &()), Some(&1));
assert_eq!(tree.get(&2, &()), Some(&2));
assert_eq!(tree.get(&4, &()), None);
let removed = tree.edit(vec![Edit::Insert(2), Edit::Insert(4), Edit::Remove(0)]);
let removed = tree.edit(vec![Edit::Insert(2), Edit::Insert(4), Edit::Remove(0)], &());
assert_eq!(tree.items(), vec![1, 2, 4]);
assert_eq!(removed, vec![0, 2]);
assert_eq!(tree.get(&0), None);
assert_eq!(tree.get(&1), Some(&1));
assert_eq!(tree.get(&2), Some(&2));
assert_eq!(tree.get(&4), Some(&4));
assert_eq!(tree.get(&0, &()), None);
assert_eq!(tree.get(&1, &()), Some(&1));
assert_eq!(tree.get(&2, &()), Some(&2));
assert_eq!(tree.get(&4, &()), Some(&4));
}
#[derive(Clone, Default, Debug)]
@ -837,14 +883,10 @@ mod tests {
}
}
impl<'a> Dimension<'a, IntegersSummary> for u8 {
fn add_summary(&mut self, summary: &IntegersSummary) {
*self = summary.max;
}
}
impl Summary for IntegersSummary {
type Context = ();
impl<'a> AddAssign<&'a Self> for IntegersSummary {
fn add_assign(&mut self, other: &Self) {
fn add_summary(&mut self, other: &Self, _: &()) {
self.count.0 += &other.count.0;
self.sum.0 += &other.sum.0;
self.contains_even |= other.contains_even;
@ -852,6 +894,12 @@ mod tests {
}
}
impl<'a> Dimension<'a, IntegersSummary> for u8 {
fn add_summary(&mut self, summary: &IntegersSummary) {
*self = summary.max;
}
}
impl<'a> Dimension<'a, IntegersSummary> for Count {
fn add_summary(&mut self, summary: &IntegersSummary) {
self.0 += summary.count.0;

39
zed/src/util.rs
View File

@ -30,37 +30,6 @@ where
}
}
pub fn find_insertion_index<'a, F, T, E>(slice: &'a [T], mut f: F) -> Result<usize, E>
where
F: FnMut(&'a T) -> Result<Ordering, E>,
{
use Ordering::*;
let s = slice;
let mut size = s.len();
if size == 0 {
return Ok(0);
}
let mut base = 0usize;
while size > 1 {
let half = size / 2;
let mid = base + half;
// mid is always in [0, size), that means mid is >= 0 and < size.
// mid >= 0: by definition
// mid < size: mid = size / 2 + size / 4 + size / 8 ...
let cmp = f(unsafe { s.get_unchecked(mid) })?;
base = if cmp == Greater { base } else { mid };
size -= half;
}
// base is always in [0, size) because base <= mid.
let cmp = f(unsafe { s.get_unchecked(base) })?;
if cmp == Equal {
Ok(base)
} else {
Ok(base + (cmp == Less) as usize)
}
}
pub struct RandomCharIter<T: Rng>(T);
impl<T: Rng> RandomCharIter<T> {
@ -85,14 +54,6 @@ impl<T: Rng> Iterator for RandomCharIter<T> {
mod tests {
use super::*;
#[test]
fn test_find_insertion_index() {
assert_eq!(
find_insertion_index(&[0, 4, 8], |probe| Ok::<Ordering, ()>(probe.cmp(&2))),
Ok(1)
);
}
#[test]
fn test_extend_sorted() {
let mut vec = vec![];

43
zed/src/worktree.rs
View File

@ -24,7 +24,7 @@ use std::{
fmt, fs,
future::Future,
io::{self, Read, Write},
ops::{AddAssign, Deref},
ops::Deref,
os::unix::{ffi::OsStrExt, fs::MetadataExt},
path::{Path, PathBuf},
sync::{Arc, Weak},
@ -249,9 +249,10 @@ impl Snapshot {
#[cfg(test)]
pub fn paths(&self) -> impl Iterator<Item = &Arc<Path>> {
let mut cursor = self.entries.cursor::<(), ()>();
cursor.next();
cursor.map(|entry| entry.path())
self.entries
.cursor::<(), ()>()
.skip(1)
.map(|entry| entry.path())
}
pub fn visible_files(&self, start: usize) -> FileIter {
@ -274,7 +275,7 @@ impl Snapshot {
fn entry_for_path(&self, path: impl AsRef<Path>) -> Option<&Entry> {
let mut cursor = self.entries.cursor::<_, ()>();
if cursor.seek(&PathSearch::Exact(path.as_ref()), SeekBias::Left) {
if cursor.seek(&PathSearch::Exact(path.as_ref()), SeekBias::Left, &()) {
cursor.item()
} else {
None
@ -296,7 +297,7 @@ impl Snapshot {
self.ignores
.insert(ignore_dir_path.into(), (Arc::new(ignore), self.scan_id));
}
self.entries.insert(entry);
self.entries.insert(entry, &());
}
fn populate_dir(
@ -309,7 +310,7 @@ impl Snapshot {
let mut parent_entry = self
.entries
.get(&PathKey(parent_path.clone()))
.get(&PathKey(parent_path.clone()), &())
.unwrap()
.clone();
if let Some(ignore) = ignore {
@ -325,15 +326,15 @@ impl Snapshot {
for entry in entries {
edits.push(Edit::Insert(entry));
}
self.entries.edit(edits);
self.entries.edit(edits, &());
}
fn remove_path(&mut self, path: &Path) {
let new_entries = {
let mut cursor = self.entries.cursor::<_, ()>();
let mut new_entries = cursor.slice(&PathSearch::Exact(path), SeekBias::Left);
cursor.seek_forward(&PathSearch::Successor(path), SeekBias::Left);
new_entries.push_tree(cursor.suffix());
let mut new_entries = cursor.slice(&PathSearch::Exact(path), SeekBias::Left, &());
cursor.seek_forward(&PathSearch::Successor(path), SeekBias::Left, &());
new_entries.push_tree(cursor.suffix(&()), &());
new_entries
};
self.entries = new_entries;
@ -543,8 +544,10 @@ impl Default for EntrySummary {
}
}
impl<'a> AddAssign<&'a EntrySummary> for EntrySummary {
fn add_assign(&mut self, rhs: &'a EntrySummary) {
impl sum_tree::Summary for EntrySummary {
type Context = ();
fn add_summary(&mut self, rhs: &Self, _: &()) {
self.max_path = rhs.max_path.clone();
self.file_count += rhs.file_count;
self.visible_file_count += rhs.visible_file_count;
@ -1073,7 +1076,7 @@ impl BackgroundScanner {
edits.push(Edit::Insert(entry));
}
}
self.snapshot.lock().entries.edit(edits);
self.snapshot.lock().entries.edit(edits, &());
}
fn fs_entry_for_path(&self, path: Arc<Path>, abs_path: &Path) -> Result<Option<Entry>> {
@ -1176,13 +1179,13 @@ pub enum FileIter<'a> {
impl<'a> FileIter<'a> {
fn all(snapshot: &'a Snapshot, start: usize) -> Self {
let mut cursor = snapshot.entries.cursor();
cursor.seek(&FileCount(start), SeekBias::Right);
cursor.seek(&FileCount(start), SeekBias::Right, &());
Self::All(cursor)
}
fn visible(snapshot: &'a Snapshot, start: usize) -> Self {
let mut cursor = snapshot.entries.cursor();
cursor.seek(&VisibleFileCount(start), SeekBias::Right);
cursor.seek(&VisibleFileCount(start), SeekBias::Right, &());
Self::Visible(cursor)
}
@ -1190,11 +1193,11 @@ impl<'a> FileIter<'a> {
match self {
Self::All(cursor) => {
let ix = *cursor.start();
cursor.seek_forward(&FileCount(ix.0 + 1), SeekBias::Right);
cursor.seek_forward(&FileCount(ix.0 + 1), SeekBias::Right, &());
}
Self::Visible(cursor) => {
let ix = *cursor.start();
cursor.seek_forward(&VisibleFileCount(ix.0 + 1), SeekBias::Right);
cursor.seek_forward(&VisibleFileCount(ix.0 + 1), SeekBias::Right, &());
}
}
}
@ -1228,7 +1231,7 @@ struct ChildEntriesIter<'a> {
impl<'a> ChildEntriesIter<'a> {
fn new(parent_path: &'a Path, snapshot: &'a Snapshot) -> Self {
let mut cursor = snapshot.entries.cursor();
cursor.seek(&PathSearch::Exact(parent_path), SeekBias::Right);
cursor.seek(&PathSearch::Exact(parent_path), SeekBias::Right, &());
Self {
parent_path,
cursor,
@ -1243,7 +1246,7 @@ impl<'a> Iterator for ChildEntriesIter<'a> {
if let Some(item) = self.cursor.item() {
if item.path().starts_with(self.parent_path) {
self.cursor
.seek_forward(&PathSearch::Successor(item.path()), SeekBias::Left);
.seek_forward(&PathSearch::Successor(item.path()), SeekBias::Left, &());
Some(item)
} else {
None