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ZIm/crates/editor/src/display_map/wrap_map.rs
ForLoveOfCats 8ba2f77148 One big cleanup pass of clippy lints 
Co-authored-by: Mikayla <mikayla@zed.dev>
2022-08-10 16:51:01 -07:00

1329 lines
48 KiB
Rust
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use super::{
fold_map,
tab_map::{self, TabEdit, TabPoint, TabSnapshot},
TextHighlights,
};
use crate::{MultiBufferSnapshot, Point};
use gpui::{
fonts::FontId, text_layout::LineWrapper, Entity, ModelContext, ModelHandle, MutableAppContext,
Task,
};
use language::Chunk;
use lazy_static::lazy_static;
use smol::future::yield_now;
use std::{cmp, collections::VecDeque, mem, ops::Range, time::Duration};
use sum_tree::{Bias, Cursor, SumTree};
use text::Patch;
pub use super::tab_map::TextSummary;
pub type WrapEdit = text::Edit<u32>;
pub struct WrapMap {
snapshot: WrapSnapshot,
pending_edits: VecDeque<(TabSnapshot, Vec<TabEdit>)>,
interpolated_edits: Patch<u32>,
edits_since_sync: Patch<u32>,
wrap_width: Option<f32>,
background_task: Option<Task<()>>,
font: (FontId, f32),
}
impl Entity for WrapMap {
type Event = ();
}
#[derive(Clone)]
pub struct WrapSnapshot {
tab_snapshot: TabSnapshot,
transforms: SumTree<Transform>,
interpolated: bool,
}
#[derive(Clone, Debug, Default, Eq, PartialEq)]
struct Transform {
summary: TransformSummary,
display_text: Option<&'static str>,
}
#[derive(Clone, Debug, Default, Eq, PartialEq)]
struct TransformSummary {
input: TextSummary,
output: TextSummary,
}
#[derive(Copy, Clone, Debug, Default, Eq, Ord, PartialOrd, PartialEq)]
pub struct WrapPoint(pub super::Point);
pub struct WrapChunks<'a> {
input_chunks: tab_map::TabChunks<'a>,
input_chunk: Chunk<'a>,
output_position: WrapPoint,
max_output_row: u32,
transforms: Cursor<'a, Transform, (WrapPoint, TabPoint)>,
}
pub struct WrapBufferRows<'a> {
input_buffer_rows: fold_map::FoldBufferRows<'a>,
input_buffer_row: Option<u32>,
output_row: u32,
soft_wrapped: bool,
max_output_row: u32,
transforms: Cursor<'a, Transform, (WrapPoint, TabPoint)>,
}
impl WrapMap {
pub fn new(
tab_snapshot: TabSnapshot,
font_id: FontId,
font_size: f32,
wrap_width: Option<f32>,
cx: &mut MutableAppContext,
) -> (ModelHandle<Self>, WrapSnapshot) {
let handle = cx.add_model(|cx| {
let mut this = Self {
font: (font_id, font_size),
wrap_width: None,
pending_edits: Default::default(),
interpolated_edits: Default::default(),
edits_since_sync: Default::default(),
snapshot: WrapSnapshot::new(tab_snapshot),
background_task: None,
};
this.set_wrap_width(wrap_width, cx);
mem::take(&mut this.edits_since_sync);
this
});
let snapshot = handle.read(cx).snapshot.clone();
(handle, snapshot)
}
#[cfg(test)]
pub fn is_rewrapping(&self) -> bool {
self.background_task.is_some()
}
pub fn sync(
&mut self,
tab_snapshot: TabSnapshot,
edits: Vec<TabEdit>,
cx: &mut ModelContext<Self>,
) -> (WrapSnapshot, Patch<u32>) {
if self.wrap_width.is_some() {
self.pending_edits.push_back((tab_snapshot, edits));
self.flush_edits(cx);
} else {
self.edits_since_sync = self
.edits_since_sync
.compose(&self.snapshot.interpolate(tab_snapshot, &edits));
self.snapshot.interpolated = false;
}
(self.snapshot.clone(), mem::take(&mut self.edits_since_sync))
}
pub fn set_font(
&mut self,
font_id: FontId,
font_size: f32,
cx: &mut ModelContext<Self>,
) -> bool {
if (font_id, font_size) != self.font {
self.font = (font_id, font_size);
self.rewrap(cx);
true
} else {
false
}
}
pub fn set_wrap_width(&mut self, wrap_width: Option<f32>, cx: &mut ModelContext<Self>) -> bool {
if wrap_width == self.wrap_width {
return false;
}
self.wrap_width = wrap_width;
self.rewrap(cx);
true
}
fn rewrap(&mut self, cx: &mut ModelContext<Self>) {
self.background_task.take();
self.interpolated_edits.clear();
self.pending_edits.clear();
if let Some(wrap_width) = self.wrap_width {
let mut new_snapshot = self.snapshot.clone();
let font_cache = cx.font_cache().clone();
let (font_id, font_size) = self.font;
let task = cx.background().spawn(async move {
let mut line_wrapper = font_cache.line_wrapper(font_id, font_size);
let tab_snapshot = new_snapshot.tab_snapshot.clone();
let range = TabPoint::zero()..tab_snapshot.max_point();
let edits = new_snapshot
.update(
tab_snapshot,
&[TabEdit {
old: range.clone(),
new: range.clone(),
}],
wrap_width,
&mut line_wrapper,
)
.await;
(new_snapshot, edits)
});
match cx
.background()
.block_with_timeout(Duration::from_millis(5), task)
{
Ok((snapshot, edits)) => {
self.snapshot = snapshot;
self.edits_since_sync = self.edits_since_sync.compose(&edits);
cx.notify();
}
Err(wrap_task) => {
self.background_task = Some(cx.spawn(|this, mut cx| async move {
let (snapshot, edits) = wrap_task.await;
this.update(&mut cx, |this, cx| {
this.snapshot = snapshot;
this.edits_since_sync = this
.edits_since_sync
.compose(mem::take(&mut this.interpolated_edits).invert())
.compose(&edits);
this.background_task = None;
this.flush_edits(cx);
cx.notify();
});
}));
}
}
} else {
let old_rows = self.snapshot.transforms.summary().output.lines.row + 1;
self.snapshot.transforms = SumTree::new();
let summary = self.snapshot.tab_snapshot.text_summary();
if !summary.lines.is_zero() {
self.snapshot
.transforms
.push(Transform::isomorphic(summary), &());
}
let new_rows = self.snapshot.transforms.summary().output.lines.row + 1;
self.snapshot.interpolated = false;
self.edits_since_sync = self.edits_since_sync.compose(&Patch::new(vec![WrapEdit {
old: 0..old_rows,
new: 0..new_rows,
}]));
}
}
fn flush_edits(&mut self, cx: &mut ModelContext<Self>) {
if !self.snapshot.interpolated {
let mut to_remove_len = 0;
for (tab_snapshot, _) in &self.pending_edits {
if tab_snapshot.version <= self.snapshot.tab_snapshot.version {
to_remove_len += 1;
} else {
break;
}
}
self.pending_edits.drain(..to_remove_len);
}
if self.pending_edits.is_empty() {
return;
}
if let Some(wrap_width) = self.wrap_width {
if self.background_task.is_none() {
let pending_edits = self.pending_edits.clone();
let mut snapshot = self.snapshot.clone();
let font_cache = cx.font_cache().clone();
let (font_id, font_size) = self.font;
let update_task = cx.background().spawn(async move {
let mut line_wrapper = font_cache.line_wrapper(font_id, font_size);
let mut edits = Patch::default();
for (tab_snapshot, tab_edits) in pending_edits {
let wrap_edits = snapshot
.update(tab_snapshot, &tab_edits, wrap_width, &mut line_wrapper)
.await;
edits = edits.compose(&wrap_edits);
}
(snapshot, edits)
});
match cx
.background()
.block_with_timeout(Duration::from_millis(1), update_task)
{
Ok((snapshot, output_edits)) => {
self.snapshot = snapshot;
self.edits_since_sync = self.edits_since_sync.compose(&output_edits);
}
Err(update_task) => {
self.background_task = Some(cx.spawn(|this, mut cx| async move {
let (snapshot, edits) = update_task.await;
this.update(&mut cx, |this, cx| {
this.snapshot = snapshot;
this.edits_since_sync = this
.edits_since_sync
.compose(mem::take(&mut this.interpolated_edits).invert())
.compose(&edits);
this.background_task = None;
this.flush_edits(cx);
cx.notify();
});
}));
}
}
}
}
let was_interpolated = self.snapshot.interpolated;
let mut to_remove_len = 0;
for (tab_snapshot, edits) in &self.pending_edits {
if tab_snapshot.version <= self.snapshot.tab_snapshot.version {
to_remove_len += 1;
} else {
let interpolated_edits = self.snapshot.interpolate(tab_snapshot.clone(), edits);
self.edits_since_sync = self.edits_since_sync.compose(&interpolated_edits);
self.interpolated_edits = self.interpolated_edits.compose(&interpolated_edits);
}
}
if !was_interpolated {
self.pending_edits.drain(..to_remove_len);
}
}
}
impl WrapSnapshot {
fn new(tab_snapshot: TabSnapshot) -> Self {
let mut transforms = SumTree::new();
let extent = tab_snapshot.text_summary();
if !extent.lines.is_zero() {
transforms.push(Transform::isomorphic(extent), &());
}
Self {
transforms,
tab_snapshot,
interpolated: true,
}
}
pub fn buffer_snapshot(&self) -> &MultiBufferSnapshot {
self.tab_snapshot.buffer_snapshot()
}
fn interpolate(&mut self, new_tab_snapshot: TabSnapshot, tab_edits: &[TabEdit]) -> Patch<u32> {
let mut new_transforms;
if tab_edits.is_empty() {
new_transforms = self.transforms.clone();
} else {
let mut old_cursor = self.transforms.cursor::<TabPoint>();
let mut tab_edits_iter = tab_edits.iter().peekable();
new_transforms =
old_cursor.slice(&tab_edits_iter.peek().unwrap().old.start, Bias::Right, &());
while let Some(edit) = tab_edits_iter.next() {
if edit.new.start > TabPoint::from(new_transforms.summary().input.lines) {
let summary = new_tab_snapshot.text_summary_for_range(
TabPoint::from(new_transforms.summary().input.lines)..edit.new.start,
);
new_transforms.push_or_extend(Transform::isomorphic(summary));
}
if !edit.new.is_empty() {
new_transforms.push_or_extend(Transform::isomorphic(
new_tab_snapshot.text_summary_for_range(edit.new.clone()),
));
}
old_cursor.seek_forward(&edit.old.end, Bias::Right, &());
if let Some(next_edit) = tab_edits_iter.peek() {
if next_edit.old.start > old_cursor.end(&()) {
if old_cursor.end(&()) > edit.old.end {
let summary = self
.tab_snapshot
.text_summary_for_range(edit.old.end..old_cursor.end(&()));
new_transforms.push_or_extend(Transform::isomorphic(summary));
}
old_cursor.next(&());
new_transforms.push_tree(
old_cursor.slice(&next_edit.old.start, Bias::Right, &()),
&(),
);
}
} else {
if old_cursor.end(&()) > edit.old.end {
let summary = self
.tab_snapshot
.text_summary_for_range(edit.old.end..old_cursor.end(&()));
new_transforms.push_or_extend(Transform::isomorphic(summary));
}
old_cursor.next(&());
new_transforms.push_tree(old_cursor.suffix(&()), &());
}
}
}
let old_snapshot = mem::replace(
self,
WrapSnapshot {
tab_snapshot: new_tab_snapshot,
transforms: new_transforms,
interpolated: true,
},
);
self.check_invariants();
old_snapshot.compute_edits(tab_edits, self)
}
async fn update(
&mut self,
new_tab_snapshot: TabSnapshot,
tab_edits: &[TabEdit],
wrap_width: f32,
line_wrapper: &mut LineWrapper,
) -> Patch<u32> {
#[derive(Debug)]
struct RowEdit {
old_rows: Range<u32>,
new_rows: Range<u32>,
}
let mut tab_edits_iter = tab_edits.iter().peekable();
let mut row_edits = Vec::new();
while let Some(edit) = tab_edits_iter.next() {
let mut row_edit = RowEdit {
old_rows: edit.old.start.row()..edit.old.end.row() + 1,
new_rows: edit.new.start.row()..edit.new.end.row() + 1,
};
while let Some(next_edit) = tab_edits_iter.peek() {
if next_edit.old.start.row() <= row_edit.old_rows.end {
row_edit.old_rows.end = next_edit.old.end.row() + 1;
row_edit.new_rows.end = next_edit.new.end.row() + 1;
tab_edits_iter.next();
} else {
break;
}
}
row_edits.push(row_edit);
}
let mut new_transforms;
if row_edits.is_empty() {
new_transforms = self.transforms.clone();
} else {
let mut row_edits = row_edits.into_iter().peekable();
let mut old_cursor = self.transforms.cursor::<TabPoint>();
new_transforms = old_cursor.slice(
&TabPoint::new(row_edits.peek().unwrap().old_rows.start, 0),
Bias::Right,
&(),
);
while let Some(edit) = row_edits.next() {
if edit.new_rows.start > new_transforms.summary().input.lines.row {
let summary = new_tab_snapshot.text_summary_for_range(
TabPoint(new_transforms.summary().input.lines)
..TabPoint::new(edit.new_rows.start, 0),
);
new_transforms.push_or_extend(Transform::isomorphic(summary));
}
let mut line = String::new();
let mut remaining = None;
let mut chunks = new_tab_snapshot.chunks(
TabPoint::new(edit.new_rows.start, 0)..new_tab_snapshot.max_point(),
false,
None,
);
let mut edit_transforms = Vec::<Transform>::new();
for _ in edit.new_rows.start..edit.new_rows.end {
while let Some(chunk) =
remaining.take().or_else(|| chunks.next().map(|c| c.text))
{
if let Some(ix) = chunk.find('\n') {
line.push_str(&chunk[..ix + 1]);
remaining = Some(&chunk[ix + 1..]);
break;
} else {
line.push_str(chunk)
}
}
if line.is_empty() {
break;
}
let mut prev_boundary_ix = 0;
for boundary in line_wrapper.wrap_line(&line, wrap_width) {
let wrapped = &line[prev_boundary_ix..boundary.ix];
push_isomorphic(&mut edit_transforms, TextSummary::from(wrapped));
edit_transforms.push(Transform::wrap(boundary.next_indent));
prev_boundary_ix = boundary.ix;
}
if prev_boundary_ix < line.len() {
push_isomorphic(
&mut edit_transforms,
TextSummary::from(&line[prev_boundary_ix..]),
);
}
line.clear();
yield_now().await;
}
let mut edit_transforms = edit_transforms.into_iter();
if let Some(transform) = edit_transforms.next() {
new_transforms.push_or_extend(transform);
}
new_transforms.extend(edit_transforms, &());
old_cursor.seek_forward(&TabPoint::new(edit.old_rows.end, 0), Bias::Right, &());
if let Some(next_edit) = row_edits.peek() {
if next_edit.old_rows.start > old_cursor.end(&()).row() {
if old_cursor.end(&()) > TabPoint::new(edit.old_rows.end, 0) {
let summary = self.tab_snapshot.text_summary_for_range(
TabPoint::new(edit.old_rows.end, 0)..old_cursor.end(&()),
);
new_transforms.push_or_extend(Transform::isomorphic(summary));
}
old_cursor.next(&());
new_transforms.push_tree(
old_cursor.slice(
&TabPoint::new(next_edit.old_rows.start, 0),
Bias::Right,
&(),
),
&(),
);
}
} else {
if old_cursor.end(&()) > TabPoint::new(edit.old_rows.end, 0) {
let summary = self.tab_snapshot.text_summary_for_range(
TabPoint::new(edit.old_rows.end, 0)..old_cursor.end(&()),
);
new_transforms.push_or_extend(Transform::isomorphic(summary));
}
old_cursor.next(&());
new_transforms.push_tree(old_cursor.suffix(&()), &());
}
}
}
let old_snapshot = mem::replace(
self,
WrapSnapshot {
tab_snapshot: new_tab_snapshot,
transforms: new_transforms,
interpolated: false,
},
);
self.check_invariants();
old_snapshot.compute_edits(tab_edits, self)
}
fn compute_edits(&self, tab_edits: &[TabEdit], new_snapshot: &WrapSnapshot) -> Patch<u32> {
let mut wrap_edits = Vec::new();
let mut old_cursor = self.transforms.cursor::<TransformSummary>();
let mut new_cursor = new_snapshot.transforms.cursor::<TransformSummary>();
for mut tab_edit in tab_edits.iter().cloned() {
tab_edit.old.start.0.column = 0;
tab_edit.old.end.0 += Point::new(1, 0);
tab_edit.new.start.0.column = 0;
tab_edit.new.end.0 += Point::new(1, 0);
old_cursor.seek(&tab_edit.old.start, Bias::Right, &());
let mut old_start = old_cursor.start().output.lines;
old_start += tab_edit.old.start.0 - old_cursor.start().input.lines;
old_cursor.seek(&tab_edit.old.end, Bias::Right, &());
let mut old_end = old_cursor.start().output.lines;
old_end += tab_edit.old.end.0 - old_cursor.start().input.lines;
new_cursor.seek(&tab_edit.new.start, Bias::Right, &());
let mut new_start = new_cursor.start().output.lines;
new_start += tab_edit.new.start.0 - new_cursor.start().input.lines;
new_cursor.seek(&tab_edit.new.end, Bias::Right, &());
let mut new_end = new_cursor.start().output.lines;
new_end += tab_edit.new.end.0 - new_cursor.start().input.lines;
wrap_edits.push(WrapEdit {
old: old_start.row..old_end.row,
new: new_start.row..new_end.row,
});
}
consolidate_wrap_edits(&mut wrap_edits);
Patch::new(wrap_edits)
}
pub fn chunks<'a>(
&'a self,
rows: Range<u32>,
language_aware: bool,
text_highlights: Option<&'a TextHighlights>,
) -> WrapChunks<'a> {
let output_start = WrapPoint::new(rows.start, 0);
let output_end = WrapPoint::new(rows.end, 0);
let mut transforms = self.transforms.cursor::<(WrapPoint, TabPoint)>();
transforms.seek(&output_start, Bias::Right, &());
let mut input_start = TabPoint(transforms.start().1 .0);
if transforms.item().map_or(false, |t| t.is_isomorphic()) {
input_start.0 += output_start.0 - transforms.start().0 .0;
}
let input_end = self
.to_tab_point(output_end)
.min(self.tab_snapshot.max_point());
WrapChunks {
input_chunks: self.tab_snapshot.chunks(
input_start..input_end,
language_aware,
text_highlights,
),
input_chunk: Default::default(),
output_position: output_start,
max_output_row: rows.end,
transforms,
}
}
pub fn max_point(&self) -> WrapPoint {
WrapPoint(self.transforms.summary().output.lines)
}
pub fn line_len(&self, row: u32) -> u32 {
let mut cursor = self.transforms.cursor::<(WrapPoint, TabPoint)>();
cursor.seek(&WrapPoint::new(row + 1, 0), Bias::Left, &());
if cursor
.item()
.map_or(false, |transform| transform.is_isomorphic())
{
let overshoot = row - cursor.start().0.row();
let tab_row = cursor.start().1.row() + overshoot;
let tab_line_len = self.tab_snapshot.line_len(tab_row);
if overshoot == 0 {
cursor.start().0.column() + (tab_line_len - cursor.start().1.column())
} else {
tab_line_len
}
} else {
cursor.start().0.column()
}
}
pub fn soft_wrap_indent(&self, row: u32) -> Option<u32> {
let mut cursor = self.transforms.cursor::<WrapPoint>();
cursor.seek(&WrapPoint::new(row + 1, 0), Bias::Right, &());
cursor.item().and_then(|transform| {
if transform.is_isomorphic() {
None
} else {
Some(transform.summary.output.lines.column)
}
})
}
pub fn longest_row(&self) -> u32 {
self.transforms.summary().output.longest_row
}
pub fn buffer_rows(&self, start_row: u32) -> WrapBufferRows {
let mut transforms = self.transforms.cursor::<(WrapPoint, TabPoint)>();
transforms.seek(&WrapPoint::new(start_row, 0), Bias::Left, &());
let mut input_row = transforms.start().1.row();
if transforms.item().map_or(false, |t| t.is_isomorphic()) {
input_row += start_row - transforms.start().0.row();
}
let soft_wrapped = transforms.item().map_or(false, |t| !t.is_isomorphic());
let mut input_buffer_rows = self.tab_snapshot.buffer_rows(input_row);
let input_buffer_row = input_buffer_rows.next().unwrap();
WrapBufferRows {
transforms,
input_buffer_row,
input_buffer_rows,
output_row: start_row,
soft_wrapped,
max_output_row: self.max_point().row(),
}
}
pub fn to_tab_point(&self, point: WrapPoint) -> TabPoint {
let mut cursor = self.transforms.cursor::<(WrapPoint, TabPoint)>();
cursor.seek(&point, Bias::Right, &());
let mut tab_point = cursor.start().1 .0;
if cursor.item().map_or(false, |t| t.is_isomorphic()) {
tab_point += point.0 - cursor.start().0 .0;
}
TabPoint(tab_point)
}
pub fn to_point(&self, point: WrapPoint, bias: Bias) -> Point {
self.tab_snapshot.to_point(self.to_tab_point(point), bias)
}
pub fn make_wrap_point(&self, point: Point, bias: Bias) -> WrapPoint {
self.tab_point_to_wrap_point(self.tab_snapshot.make_tab_point(point, bias))
}
pub fn tab_point_to_wrap_point(&self, point: TabPoint) -> WrapPoint {
let mut cursor = self.transforms.cursor::<(TabPoint, WrapPoint)>();
cursor.seek(&point, Bias::Right, &());
WrapPoint(cursor.start().1 .0 + (point.0 - cursor.start().0 .0))
}
pub fn clip_point(&self, mut point: WrapPoint, bias: Bias) -> WrapPoint {
if bias == Bias::Left {
let mut cursor = self.transforms.cursor::<WrapPoint>();
cursor.seek(&point, Bias::Right, &());
if cursor.item().map_or(false, |t| !t.is_isomorphic()) {
point = *cursor.start();
*point.column_mut() -= 1;
}
}
self.tab_point_to_wrap_point(self.tab_snapshot.clip_point(self.to_tab_point(point), bias))
}
pub fn prev_row_boundary(&self, mut point: WrapPoint) -> u32 {
if self.transforms.is_empty() {
return 0;
}
*point.column_mut() = 0;
let mut cursor = self.transforms.cursor::<(WrapPoint, TabPoint)>();
cursor.seek(&point, Bias::Right, &());
if cursor.item().is_none() {
cursor.prev(&());
}
while let Some(transform) = cursor.item() {
if transform.is_isomorphic() && cursor.start().1.column() == 0 {
return cmp::min(cursor.end(&()).0.row(), point.row());
} else {
cursor.prev(&());
}
}
unreachable!()
}
pub fn next_row_boundary(&self, mut point: WrapPoint) -> Option<u32> {
point.0 += Point::new(1, 0);
let mut cursor = self.transforms.cursor::<(WrapPoint, TabPoint)>();
cursor.seek(&point, Bias::Right, &());
while let Some(transform) = cursor.item() {
if transform.is_isomorphic() && cursor.start().1.column() == 0 {
return Some(cmp::max(cursor.start().0.row(), point.row()));
} else {
cursor.next(&());
}
}
None
}
fn check_invariants(&self) {
#[cfg(test)]
{
assert_eq!(
TabPoint::from(self.transforms.summary().input.lines),
self.tab_snapshot.max_point()
);
{
let mut transforms = self.transforms.cursor::<()>().peekable();
while let Some(transform) = transforms.next() {
if let Some(next_transform) = transforms.peek() {
assert!(transform.is_isomorphic() != next_transform.is_isomorphic());
}
}
}
let text = language::Rope::from(self.text().as_str());
let input_buffer_rows = self.buffer_snapshot().buffer_rows(0).collect::<Vec<_>>();
let mut expected_buffer_rows = Vec::new();
let mut prev_tab_row = 0;
for display_row in 0..=self.max_point().row() {
let tab_point = self.to_tab_point(WrapPoint::new(display_row, 0));
if tab_point.row() == prev_tab_row && display_row != 0 {
expected_buffer_rows.push(None);
} else {
let fold_point = self.tab_snapshot.to_fold_point(tab_point, Bias::Left).0;
let buffer_point = fold_point.to_buffer_point(&self.tab_snapshot.fold_snapshot);
expected_buffer_rows.push(input_buffer_rows[buffer_point.row as usize]);
prev_tab_row = tab_point.row();
}
assert_eq!(self.line_len(display_row), text.line_len(display_row));
}
for start_display_row in 0..expected_buffer_rows.len() {
assert_eq!(
self.buffer_rows(start_display_row as u32)
.collect::<Vec<_>>(),
&expected_buffer_rows[start_display_row..],
"invalid buffer_rows({}..)",
start_display_row
);
}
}
}
}
impl<'a> Iterator for WrapChunks<'a> {
type Item = Chunk<'a>;
fn next(&mut self) -> Option<Self::Item> {
if self.output_position.row() >= self.max_output_row {
return None;
}
let transform = self.transforms.item()?;
if let Some(display_text) = transform.display_text {
let mut start_ix = 0;
let mut end_ix = display_text.len();
let mut summary = transform.summary.output.lines;
if self.output_position > self.transforms.start().0 {
// Exclude newline starting prior to the desired row.
start_ix = 1;
summary.row = 0;
} else if self.output_position.row() + 1 >= self.max_output_row {
// Exclude soft indentation ending after the desired row.
end_ix = 1;
summary.column = 0;
}
self.output_position.0 += summary;
self.transforms.next(&());
return Some(Chunk {
text: &display_text[start_ix..end_ix],
..self.input_chunk
});
}
if self.input_chunk.text.is_empty() {
self.input_chunk = self.input_chunks.next().unwrap();
}
let mut input_len = 0;
let transform_end = self.transforms.end(&()).0;
for c in self.input_chunk.text.chars() {
let char_len = c.len_utf8();
input_len += char_len;
if c == '\n' {
*self.output_position.row_mut() += 1;
*self.output_position.column_mut() = 0;
} else {
*self.output_position.column_mut() += char_len as u32;
}
if self.output_position >= transform_end {
self.transforms.next(&());
break;
}
}
let (prefix, suffix) = self.input_chunk.text.split_at(input_len);
self.input_chunk.text = suffix;
Some(Chunk {
text: prefix,
..self.input_chunk
})
}
}
impl<'a> Iterator for WrapBufferRows<'a> {
type Item = Option<u32>;
fn next(&mut self) -> Option<Self::Item> {
if self.output_row > self.max_output_row {
return None;
}
let buffer_row = self.input_buffer_row;
let soft_wrapped = self.soft_wrapped;
self.output_row += 1;
self.transforms
.seek_forward(&WrapPoint::new(self.output_row, 0), Bias::Left, &());
if self.transforms.item().map_or(false, |t| t.is_isomorphic()) {
self.input_buffer_row = self.input_buffer_rows.next().unwrap();
self.soft_wrapped = false;
} else {
self.soft_wrapped = true;
}
Some(if soft_wrapped { None } else { buffer_row })
}
}
impl Transform {
fn isomorphic(summary: TextSummary) -> Self {
#[cfg(test)]
assert!(!summary.lines.is_zero());
Self {
summary: TransformSummary {
input: summary.clone(),
output: summary,
},
display_text: None,
}
}
fn wrap(indent: u32) -> Self {
lazy_static! {
static ref WRAP_TEXT: String = {
let mut wrap_text = String::new();
wrap_text.push('\n');
wrap_text.extend((0..LineWrapper::MAX_INDENT as usize).map(|_| ' '));
wrap_text
};
}
Self {
summary: TransformSummary {
input: TextSummary::default(),
output: TextSummary {
lines: Point::new(1, indent),
first_line_chars: 0,
last_line_chars: indent,
longest_row: 1,
longest_row_chars: indent,
},
},
display_text: Some(&WRAP_TEXT[..1 + indent as usize]),
}
}
fn is_isomorphic(&self) -> bool {
self.display_text.is_none()
}
}
impl sum_tree::Item for Transform {
type Summary = TransformSummary;
fn summary(&self) -> Self::Summary {
self.summary.clone()
}
}
fn push_isomorphic(transforms: &mut Vec<Transform>, summary: TextSummary) {
if let Some(last_transform) = transforms.last_mut() {
if last_transform.is_isomorphic() {
last_transform.summary.input += &summary;
last_transform.summary.output += &summary;
return;
}
}
transforms.push(Transform::isomorphic(summary));
}
trait SumTreeExt {
fn push_or_extend(&mut self, transform: Transform);
}
impl SumTreeExt for SumTree<Transform> {
fn push_or_extend(&mut self, transform: Transform) {
let mut transform = Some(transform);
self.update_last(
|last_transform| {
if last_transform.is_isomorphic() && transform.as_ref().unwrap().is_isomorphic() {
let transform = transform.take().unwrap();
last_transform.summary.input += &transform.summary.input;
last_transform.summary.output += &transform.summary.output;
}
},
&(),
);
if let Some(transform) = transform {
self.push(transform, &());
}
}
}
impl WrapPoint {
pub fn new(row: u32, column: u32) -> Self {
Self(super::Point::new(row, column))
}
pub fn row(self) -> u32 {
self.0.row
}
pub fn row_mut(&mut self) -> &mut u32 {
&mut self.0.row
}
pub fn column(self) -> u32 {
self.0.column
}
pub fn column_mut(&mut self) -> &mut u32 {
&mut self.0.column
}
}
impl sum_tree::Summary for TransformSummary {
type Context = ();
fn add_summary(&mut self, other: &Self, _: &()) {
self.input += &other.input;
self.output += &other.output;
}
}
impl<'a> sum_tree::Dimension<'a, TransformSummary> for TabPoint {
fn add_summary(&mut self, summary: &'a TransformSummary, _: &()) {
self.0 += summary.input.lines;
}
}
impl<'a> sum_tree::SeekTarget<'a, TransformSummary, TransformSummary> for TabPoint {
fn cmp(&self, cursor_location: &TransformSummary, _: &()) -> std::cmp::Ordering {
Ord::cmp(&self.0, &cursor_location.input.lines)
}
}
impl<'a> sum_tree::Dimension<'a, TransformSummary> for WrapPoint {
fn add_summary(&mut self, summary: &'a TransformSummary, _: &()) {
self.0 += summary.output.lines;
}
}
fn consolidate_wrap_edits(edits: &mut Vec<WrapEdit>) {
let mut i = 1;
while i < edits.len() {
let edit = edits[i].clone();
let prev_edit = &mut edits[i - 1];
if prev_edit.old.end >= edit.old.start {
prev_edit.old.end = edit.old.end;
prev_edit.new.end = edit.new.end;
edits.remove(i);
continue;
}
i += 1;
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::{
display_map::{fold_map::FoldMap, tab_map::TabMap},
MultiBuffer,
};
use gpui::test::observe;
use language::RandomCharIter;
use rand::prelude::*;
use settings::Settings;
use smol::stream::StreamExt;
use std::{cmp, env, num::NonZeroU32};
use text::Rope;
#[gpui::test(iterations = 100)]
async fn test_random_wraps(cx: &mut gpui::TestAppContext, mut rng: StdRng) {
cx.update(|cx| cx.set_global(Settings::test(cx)));
cx.foreground().set_block_on_ticks(0..=50);
cx.foreground().forbid_parking();
let operations = env::var("OPERATIONS")
.map(|i| i.parse().expect("invalid `OPERATIONS` variable"))
.unwrap_or(10);
let font_cache = cx.font_cache().clone();
let font_system = cx.platform().fonts();
let mut wrap_width = if rng.gen_bool(0.1) {
None
} else {
Some(rng.gen_range(0.0..=1000.0))
};
let tab_size = NonZeroU32::new(rng.gen_range(1..=4)).unwrap();
let family_id = font_cache.load_family(&["Helvetica"]).unwrap();
let font_id = font_cache
.select_font(family_id, &Default::default())
.unwrap();
let font_size = 14.0;
log::info!("Tab size: {}", tab_size);
log::info!("Wrap width: {:?}", wrap_width);
let buffer = cx.update(|cx| {
if rng.gen() {
MultiBuffer::build_random(&mut rng, cx)
} else {
let len = rng.gen_range(0..10);
let text = RandomCharIter::new(&mut rng).take(len).collect::<String>();
MultiBuffer::build_simple(&text, cx)
}
});
let mut buffer_snapshot = buffer.read_with(cx, |buffer, cx| buffer.snapshot(cx));
let (mut fold_map, folds_snapshot) = FoldMap::new(buffer_snapshot.clone());
let (tab_map, tabs_snapshot) = TabMap::new(folds_snapshot.clone(), tab_size);
log::info!("Unwrapped text (no folds): {:?}", buffer_snapshot.text());
log::info!(
"Unwrapped text (unexpanded tabs): {:?}",
folds_snapshot.text()
);
log::info!("Unwrapped text (expanded tabs): {:?}", tabs_snapshot.text());
let mut line_wrapper = LineWrapper::new(font_id, font_size, font_system);
let unwrapped_text = tabs_snapshot.text();
let expected_text = wrap_text(&unwrapped_text, wrap_width, &mut line_wrapper);
let (wrap_map, _) =
cx.update(|cx| WrapMap::new(tabs_snapshot.clone(), font_id, font_size, wrap_width, cx));
let mut notifications = observe(&wrap_map, cx);
if wrap_map.read_with(cx, |map, _| map.is_rewrapping()) {
notifications.next().await.unwrap();
}
let (initial_snapshot, _) = wrap_map.update(cx, |map, cx| {
assert!(!map.is_rewrapping());
map.sync(tabs_snapshot.clone(), Vec::new(), cx)
});
let actual_text = initial_snapshot.text();
assert_eq!(
actual_text, expected_text,
"unwrapped text is: {:?}",
unwrapped_text
);
log::info!("Wrapped text: {:?}", actual_text);
let mut edits = Vec::new();
for _i in 0..operations {
log::info!("{} ==============================================", _i);
let mut buffer_edits = Vec::new();
match rng.gen_range(0..=100) {
0..=19 => {
wrap_width = if rng.gen_bool(0.2) {
None
} else {
Some(rng.gen_range(0.0..=1000.0))
};
log::info!("Setting wrap width to {:?}", wrap_width);
wrap_map.update(cx, |map, cx| map.set_wrap_width(wrap_width, cx));
}
20..=39 => {
for (folds_snapshot, fold_edits) in fold_map.randomly_mutate(&mut rng) {
let (tabs_snapshot, tab_edits) =
tab_map.sync(folds_snapshot, fold_edits, tab_size);
let (mut snapshot, wrap_edits) =
wrap_map.update(cx, |map, cx| map.sync(tabs_snapshot, tab_edits, cx));
snapshot.check_invariants();
snapshot.verify_chunks(&mut rng);
edits.push((snapshot, wrap_edits));
}
}
_ => {
buffer.update(cx, |buffer, cx| {
let subscription = buffer.subscribe();
let edit_count = rng.gen_range(1..=5);
buffer.randomly_mutate(&mut rng, edit_count, cx);
buffer_snapshot = buffer.snapshot(cx);
buffer_edits.extend(subscription.consume());
});
}
}
log::info!("Unwrapped text (no folds): {:?}", buffer_snapshot.text());
let (folds_snapshot, fold_edits) = fold_map.read(buffer_snapshot.clone(), buffer_edits);
log::info!(
"Unwrapped text (unexpanded tabs): {:?}",
folds_snapshot.text()
);
let (tabs_snapshot, tab_edits) = tab_map.sync(folds_snapshot, fold_edits, tab_size);
log::info!("Unwrapped text (expanded tabs): {:?}", tabs_snapshot.text());
let unwrapped_text = tabs_snapshot.text();
let expected_text = wrap_text(&unwrapped_text, wrap_width, &mut line_wrapper);
let (mut snapshot, wrap_edits) =
wrap_map.update(cx, |map, cx| map.sync(tabs_snapshot.clone(), tab_edits, cx));
snapshot.check_invariants();
snapshot.verify_chunks(&mut rng);
edits.push((snapshot, wrap_edits));
if wrap_map.read_with(cx, |map, _| map.is_rewrapping()) && rng.gen_bool(0.4) {
log::info!("Waiting for wrapping to finish");
while wrap_map.read_with(cx, |map, _| map.is_rewrapping()) {
notifications.next().await.unwrap();
}
wrap_map.read_with(cx, |map, _| assert!(map.pending_edits.is_empty()));
}
if !wrap_map.read_with(cx, |map, _| map.is_rewrapping()) {
let (mut wrapped_snapshot, wrap_edits) =
wrap_map.update(cx, |map, cx| map.sync(tabs_snapshot, Vec::new(), cx));
let actual_text = wrapped_snapshot.text();
let actual_longest_row = wrapped_snapshot.longest_row();
log::info!("Wrapping finished: {:?}", actual_text);
wrapped_snapshot.check_invariants();
wrapped_snapshot.verify_chunks(&mut rng);
edits.push((wrapped_snapshot.clone(), wrap_edits));
assert_eq!(
actual_text, expected_text,
"unwrapped text is: {:?}",
unwrapped_text
);
let mut summary = TextSummary::default();
for (ix, item) in wrapped_snapshot
.transforms
.items(&())
.into_iter()
.enumerate()
{
summary += &item.summary.output;
log::info!("{} summary: {:?}", ix, item.summary.output,);
}
if tab_size.get() == 1
|| !wrapped_snapshot
.tab_snapshot
.fold_snapshot
.text()
.contains('\t')
{
let mut expected_longest_rows = Vec::new();
let mut longest_line_len = -1;
for (row, line) in expected_text.split('\n').enumerate() {
let line_char_count = line.chars().count() as isize;
if line_char_count > longest_line_len {
expected_longest_rows.clear();
longest_line_len = line_char_count;
}
if line_char_count >= longest_line_len {
expected_longest_rows.push(row as u32);
}
}
assert!(
expected_longest_rows.contains(&actual_longest_row),
"incorrect longest row {}. expected {:?} with length {}",
actual_longest_row,
expected_longest_rows,
longest_line_len,
)
}
}
}
let mut initial_text = Rope::from(initial_snapshot.text().as_str());
for (snapshot, patch) in edits {
let snapshot_text = Rope::from(snapshot.text().as_str());
for edit in &patch {
let old_start = initial_text.point_to_offset(Point::new(edit.new.start, 0));
let old_end = initial_text.point_to_offset(cmp::min(
Point::new(edit.new.start + edit.old.len() as u32, 0),
initial_text.max_point(),
));
let new_start = snapshot_text.point_to_offset(Point::new(edit.new.start, 0));
let new_end = snapshot_text.point_to_offset(cmp::min(
Point::new(edit.new.end, 0),
snapshot_text.max_point(),
));
let new_text = snapshot_text
.chunks_in_range(new_start..new_end)
.collect::<String>();
initial_text.replace(old_start..old_end, &new_text);
}
assert_eq!(initial_text.to_string(), snapshot_text.to_string());
}
if wrap_map.read_with(cx, |map, _| map.is_rewrapping()) {
log::info!("Waiting for wrapping to finish");
while wrap_map.read_with(cx, |map, _| map.is_rewrapping()) {
notifications.next().await.unwrap();
}
}
wrap_map.read_with(cx, |map, _| assert!(map.pending_edits.is_empty()));
}
fn wrap_text(
unwrapped_text: &str,
wrap_width: Option<f32>,
line_wrapper: &mut LineWrapper,
) -> String {
if let Some(wrap_width) = wrap_width {
let mut wrapped_text = String::new();
for (row, line) in unwrapped_text.split('\n').enumerate() {
if row > 0 {
wrapped_text.push('\n')
}
let mut prev_ix = 0;
for boundary in line_wrapper.wrap_line(line, wrap_width) {
wrapped_text.push_str(&line[prev_ix..boundary.ix]);
wrapped_text.push('\n');
wrapped_text.push_str(&" ".repeat(boundary.next_indent as usize));
prev_ix = boundary.ix;
}
wrapped_text.push_str(&line[prev_ix..]);
}
wrapped_text
} else {
unwrapped_text.to_string()
}
}
impl WrapSnapshot {
pub fn text(&self) -> String {
self.text_chunks(0).collect()
}
pub fn text_chunks(&self, wrap_row: u32) -> impl Iterator<Item = &str> {
self.chunks(wrap_row..self.max_point().row() + 1, false, None)
.map(|h| h.text)
}
fn verify_chunks(&mut self, rng: &mut impl Rng) {
for _ in 0..5 {
let mut end_row = rng.gen_range(0..=self.max_point().row());
let start_row = rng.gen_range(0..=end_row);
end_row += 1;
let mut expected_text = self.text_chunks(start_row).collect::<String>();
if expected_text.ends_with('\n') {
expected_text.push('\n');
}
let mut expected_text = expected_text
.lines()
.take((end_row - start_row) as usize)
.collect::<Vec<_>>()
.join("\n");
if end_row <= self.max_point().row() {
expected_text.push('\n');
}
let actual_text = self
.chunks(start_row..end_row, true, None)
.map(|c| c.text)
.collect::<String>();
assert_eq!(
expected_text,
actual_text,
"chunks != highlighted_chunks for rows {:?}",
start_row..end_row
);
}
}
}
}
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