use crate::{Anchor, InlayId, MultiBufferSnapshot, ToOffset};
use collections::{BTreeMap, BTreeSet};
use gpui::HighlightStyle;
use language::{Chunk, Edit, Point, TextSummary};
use multi_buffer::{MultiBufferChunks, MultiBufferRows};
use std::{
any::TypeId,
cmp,
iter::Peekable,
ops::{Add, AddAssign, Range, Sub, SubAssign},
sync::Arc,
vec,
};
use sum_tree::{Bias, Cursor, SumTree, TreeMap};
use text::{Patch, Rope};
use super::Highlights;
pub struct InlayMap {
snapshot: InlaySnapshot,
inlays: Vec<Inlay>,
}
#[derive(Clone)]
pub struct InlaySnapshot {
pub buffer: MultiBufferSnapshot,
transforms: SumTree<Transform>,
pub version: usize,
}
#[derive(Clone, Debug)]
enum Transform {
Isomorphic(TextSummary),
Inlay(Inlay),
}
#[derive(Debug, Clone)]
pub struct Inlay {
pub id: InlayId,
pub position: Anchor,
pub text: text::Rope,
}
impl Inlay {
pub fn hint(id: usize, position: Anchor, hint: &project::InlayHint) -> Self {
let mut text = hint.text();
if hint.padding_right && !text.ends_with(' ') {
text.push(' ');
}
if hint.padding_left && !text.starts_with(' ') {
text.insert(0, ' ');
}
Self {
id: InlayId::Hint(id),
position,
text: text.into(),
}
}
pub fn suggestion<T: Into<Rope>>(id: usize, position: Anchor, text: T) -> Self {
Self {
id: InlayId::Suggestion(id),
position,
text: text.into(),
}
}
}
impl sum_tree::Item for Transform {
type Summary = TransformSummary;
fn summary(&self) -> Self::Summary {
match self {
Transform::Isomorphic(summary) => TransformSummary {
input: summary.clone(),
output: summary.clone(),
},
Transform::Inlay(inlay) => TransformSummary {
input: TextSummary::default(),
output: inlay.text.summary(),
},
}
}
}
#[derive(Clone, Debug, Default)]
struct TransformSummary {
input: TextSummary,
output: TextSummary,
}
impl sum_tree::Summary for TransformSummary {
type Context = ();
fn add_summary(&mut self, other: &Self, _: &()) {
self.input += &other.input;
self.output += &other.output;
}
}
pub type InlayEdit = Edit<InlayOffset>;
#[derive(Copy, Clone, Debug, Default, Eq, Ord, PartialOrd, PartialEq)]
pub struct InlayOffset(pub usize);
impl Add for InlayOffset {
type Output = Self;
fn add(self, rhs: Self) -> Self::Output {
Self(self.0 + rhs.0)
}
}
impl Sub for InlayOffset {
type Output = Self;
fn sub(self, rhs: Self) -> Self::Output {
Self(self.0 - rhs.0)
}
}
impl AddAssign for InlayOffset {
fn add_assign(&mut self, rhs: Self) {
self.0 += rhs.0;
}
}
impl SubAssign for InlayOffset {
fn sub_assign(&mut self, rhs: Self) {
self.0 -= rhs.0;
}
}
impl<'a> sum_tree::Dimension<'a, TransformSummary> for InlayOffset {
fn add_summary(&mut self, summary: &'a TransformSummary, _: &()) {
self.0 += &summary.output.len;
}
}
#[derive(Copy, Clone, Debug, Default, Eq, Ord, PartialOrd, PartialEq)]
pub struct InlayPoint(pub Point);
impl Add for InlayPoint {
type Output = Self;
fn add(self, rhs: Self) -> Self::Output {
Self(self.0 + rhs.0)
}
}
impl Sub for InlayPoint {
type Output = Self;
fn sub(self, rhs: Self) -> Self::Output {
Self(self.0 - rhs.0)
}
}
impl<'a> sum_tree::Dimension<'a, TransformSummary> for InlayPoint {
fn add_summary(&mut self, summary: &'a TransformSummary, _: &()) {
self.0 += &summary.output.lines;
}
}
impl<'a> sum_tree::Dimension<'a, TransformSummary> for usize {
fn add_summary(&mut self, summary: &'a TransformSummary, _: &()) {
*self += &summary.input.len;
}
}
impl<'a> sum_tree::Dimension<'a, TransformSummary> for Point {
fn add_summary(&mut self, summary: &'a TransformSummary, _: &()) {
*self += &summary.input.lines;
}
}
#[derive(Clone)]
pub struct InlayBufferRows<'a> {
transforms: Cursor<'a, Transform, (InlayPoint, Point)>,
buffer_rows: MultiBufferRows<'a>,
inlay_row: u32,
max_buffer_row: u32,
}
#[derive(Debug, Copy, Clone, Eq, PartialEq)]
struct HighlightEndpoint {
offset: InlayOffset,
is_start: bool,
tag: Option<TypeId>,
style: HighlightStyle,
}
impl PartialOrd for HighlightEndpoint {
fn partial_cmp(&self, other: &Self) -> Option<cmp::Ordering> {
Some(self.cmp(other))
}
}
impl Ord for HighlightEndpoint {
fn cmp(&self, other: &Self) -> cmp::Ordering {
self.offset
.cmp(&other.offset)
.then_with(|| other.is_start.cmp(&self.is_start))
}
}
pub struct InlayChunks<'a> {
transforms: Cursor<'a, Transform, (InlayOffset, usize)>,
buffer_chunks: MultiBufferChunks<'a>,
buffer_chunk: Option<Chunk<'a>>,
inlay_chunks: Option<text::Chunks<'a>>,
inlay_chunk: Option<&'a str>,
output_offset: InlayOffset,
max_output_offset: InlayOffset,
inlay_highlight_style: Option<HighlightStyle>,
suggestion_highlight_style: Option<HighlightStyle>,
highlight_endpoints: Peekable<vec::IntoIter<HighlightEndpoint>>,
active_highlights: BTreeMap<Option<TypeId>, HighlightStyle>,
highlights: Highlights<'a>,
snapshot: &'a InlaySnapshot,
}
impl<'a> InlayChunks<'a> {
pub fn seek(&mut self, offset: InlayOffset) {
self.transforms.seek(&offset, Bias::Right, &());
let buffer_offset = self.snapshot.to_buffer_offset(offset);
self.buffer_chunks.seek(buffer_offset);
self.inlay_chunks = None;
self.buffer_chunk = None;
self.output_offset = offset;
}
pub fn offset(&self) -> InlayOffset {
self.output_offset
}
}
impl<'a> Iterator for InlayChunks<'a> {
type Item = Chunk<'a>;
fn next(&mut self) -> Option<Self::Item> {
if self.output_offset == self.max_output_offset {
return None;
}
let mut next_highlight_endpoint = InlayOffset(usize::MAX);
while let Some(endpoint) = self.highlight_endpoints.peek().copied() {
if endpoint.offset <= self.output_offset {
if endpoint.is_start {
self.active_highlights.insert(endpoint.tag, endpoint.style);
} else {
self.active_highlights.remove(&endpoint.tag);
}
self.highlight_endpoints.next();
} else {
next_highlight_endpoint = endpoint.offset;
break;
}
}
let chunk = match self.transforms.item()? {
Transform::Isomorphic(_) => {
let chunk = self
.buffer_chunk
.get_or_insert_with(|| self.buffer_chunks.next().unwrap());
if chunk.text.is_empty() {
*chunk = self.buffer_chunks.next().unwrap();
}
let (prefix, suffix) = chunk.text.split_at(
chunk
.text
.len()
.min(self.transforms.end(&()).0 .0 - self.output_offset.0)
.min(next_highlight_endpoint.0 - self.output_offset.0),
);
chunk.text = suffix;
self.output_offset.0 += prefix.len();
let mut prefix = Chunk {
text: prefix,
..chunk.clone()
};
if !self.active_highlights.is_empty() {
let mut highlight_style = HighlightStyle::default();
for active_highlight in self.active_highlights.values() {
highlight_style.highlight(*active_highlight);
}
prefix.highlight_style = Some(highlight_style);
}
prefix
}
Transform::Inlay(inlay) => {
let mut inlay_style_and_highlight = None;
if let Some(inlay_highlights) = self.highlights.inlay_highlights {
for (_, inlay_id_to_data) in inlay_highlights.iter() {
let style_and_highlight = inlay_id_to_data.get(&inlay.id);
if style_and_highlight.is_some() {
inlay_style_and_highlight = style_and_highlight;
break;
}
}
}
let mut highlight_style = match inlay.id {
InlayId::Suggestion(_) => self.suggestion_highlight_style,
InlayId::Hint(_) => self.inlay_highlight_style,
};
let next_inlay_highlight_endpoint;
let offset_in_inlay = self.output_offset - self.transforms.start().0;
if let Some((style, highlight)) = inlay_style_and_highlight {
let range = &highlight.range;
if offset_in_inlay.0 < range.start {
next_inlay_highlight_endpoint = range.start - offset_in_inlay.0;
} else if offset_in_inlay.0 >= range.end {
next_inlay_highlight_endpoint = usize::MAX;
} else {
next_inlay_highlight_endpoint = range.end - offset_in_inlay.0;
highlight_style
.get_or_insert_with(|| Default::default())
.highlight(style.clone());
}
} else {
next_inlay_highlight_endpoint = usize::MAX;
}
let inlay_chunks = self.inlay_chunks.get_or_insert_with(|| {
let start = offset_in_inlay;
let end = cmp::min(self.max_output_offset, self.transforms.end(&()).0)
- self.transforms.start().0;
inlay.text.chunks_in_range(start.0..end.0)
});
let inlay_chunk = self
.inlay_chunk
.get_or_insert_with(|| inlay_chunks.next().unwrap());
let (chunk, remainder) =
inlay_chunk.split_at(inlay_chunk.len().min(next_inlay_highlight_endpoint));
*inlay_chunk = remainder;
if inlay_chunk.is_empty() {
self.inlay_chunk = None;
}
self.output_offset.0 += chunk.len();
if !self.active_highlights.is_empty() {
for active_highlight in self.active_highlights.values() {
highlight_style
.get_or_insert(Default::default())
.highlight(*active_highlight);
}
}
Chunk {
text: chunk,
highlight_style,
..Default::default()
}
}
};
if self.output_offset == self.transforms.end(&()).0 {
self.inlay_chunks = None;
self.transforms.next(&());
}
Some(chunk)
}
}
impl<'a> InlayBufferRows<'a> {
pub fn seek(&mut self, row: u32) {
let inlay_point = InlayPoint::new(row, 0);
self.transforms.seek(&inlay_point, Bias::Left, &());
let mut buffer_point = self.transforms.start().1;
let buffer_row = if row == 0 {
0
} else {
match self.transforms.item() {
Some(Transform::Isomorphic(_)) => {
buffer_point += inlay_point.0 - self.transforms.start().0 .0;
buffer_point.row
}
_ => cmp::min(buffer_point.row + 1, self.max_buffer_row),
}
};
self.inlay_row = inlay_point.row();
self.buffer_rows.seek(buffer_row);
}
}
impl<'a> Iterator for InlayBufferRows<'a> {
type Item = Option<u32>;
fn next(&mut self) -> Option<Self::Item> {
let buffer_row = if self.inlay_row == 0 {
self.buffer_rows.next().unwrap()
} else {
match self.transforms.item()? {
Transform::Inlay(_) => None,
Transform::Isomorphic(_) => self.buffer_rows.next().unwrap(),
}
};
self.inlay_row += 1;
self.transforms
.seek_forward(&InlayPoint::new(self.inlay_row, 0), Bias::Left, &());
Some(buffer_row)
}
}
impl InlayPoint {
pub fn new(row: u32, column: u32) -> Self {
Self(Point::new(row, column))
}
pub fn row(self) -> u32 {
self.0.row
}
}
impl InlayMap {
pub fn new(buffer: MultiBufferSnapshot) -> (Self, InlaySnapshot) {
let version = 0;
let snapshot = InlaySnapshot {
buffer: buffer.clone(),
transforms: SumTree::from_iter(Some(Transform::Isomorphic(buffer.text_summary())), &()),
version,
};
(
Self {
snapshot: snapshot.clone(),
inlays: Vec::new(),
},
snapshot,
)
}
pub fn sync(
&mut self,
buffer_snapshot: MultiBufferSnapshot,
mut buffer_edits: Vec<text::Edit<usize>>,
) -> (InlaySnapshot, Vec<InlayEdit>) {
let snapshot = &mut self.snapshot;
if buffer_edits.is_empty() {
if snapshot.buffer.trailing_excerpt_update_count()
!= buffer_snapshot.trailing_excerpt_update_count()
{
buffer_edits.push(Edit {
old: snapshot.buffer.len()..snapshot.buffer.len(),
new: buffer_snapshot.len()..buffer_snapshot.len(),
});
}
}
if buffer_edits.is_empty() {
if snapshot.buffer.edit_count() != buffer_snapshot.edit_count()
|| snapshot.buffer.parse_count() != buffer_snapshot.parse_count()
|| snapshot.buffer.diagnostics_update_count()
!= buffer_snapshot.diagnostics_update_count()
|| snapshot.buffer.git_diff_update_count()
!= buffer_snapshot.git_diff_update_count()
|| snapshot.buffer.trailing_excerpt_update_count()
!= buffer_snapshot.trailing_excerpt_update_count()
{
snapshot.version += 1;
}
snapshot.buffer = buffer_snapshot;
(snapshot.clone(), Vec::new())
} else {
let mut inlay_edits = Patch::default();
let mut new_transforms = SumTree::new();
let mut cursor = snapshot.transforms.cursor::<(usize, InlayOffset)>();
let mut buffer_edits_iter = buffer_edits.iter().peekable();
while let Some(buffer_edit) = buffer_edits_iter.next() {
new_transforms.append(cursor.slice(&buffer_edit.old.start, Bias::Left, &()), &());
if let Some(Transform::Isomorphic(transform)) = cursor.item() {
if cursor.end(&()).0 == buffer_edit.old.start {
push_isomorphic(&mut new_transforms, transform.clone());
cursor.next(&());
}
}
let old_start =
cursor.start().1 + InlayOffset(buffer_edit.old.start - cursor.start().0);
cursor.seek(&buffer_edit.old.end, Bias::Right, &());
let old_end =
cursor.start().1 + InlayOffset(buffer_edit.old.end - cursor.start().0);
let prefix_start = new_transforms.summary().input.len;
let prefix_end = buffer_edit.new.start;
push_isomorphic(
&mut new_transforms,
buffer_snapshot.text_summary_for_range(prefix_start..prefix_end),
);
let new_start = InlayOffset(new_transforms.summary().output.len);
let start_ix = match self.inlays.binary_search_by(|probe| {
probe
.position
.to_offset(&buffer_snapshot)
.cmp(&buffer_edit.new.start)
.then(std::cmp::Ordering::Greater)
}) {
Ok(ix) | Err(ix) => ix,
};
for inlay in &self.inlays[start_ix..] {
let buffer_offset = inlay.position.to_offset(&buffer_snapshot);
if buffer_offset > buffer_edit.new.end {
break;
}
let prefix_start = new_transforms.summary().input.len;
let prefix_end = buffer_offset;
push_isomorphic(
&mut new_transforms,
buffer_snapshot.text_summary_for_range(prefix_start..prefix_end),
);
if inlay.position.is_valid(&buffer_snapshot) {
new_transforms.push(Transform::Inlay(inlay.clone()), &());
}
}
let transform_start = new_transforms.summary().input.len;
push_isomorphic(
&mut new_transforms,
buffer_snapshot.text_summary_for_range(transform_start..buffer_edit.new.end),
);
let new_end = InlayOffset(new_transforms.summary().output.len);
inlay_edits.push(Edit {
old: old_start..old_end,
new: new_start..new_end,
});
if buffer_edits_iter
.peek()
.map_or(true, |edit| edit.old.start >= cursor.end(&()).0)
{
let transform_start = new_transforms.summary().input.len;
let transform_end =
buffer_edit.new.end + (cursor.end(&()).0 - buffer_edit.old.end);
push_isomorphic(
&mut new_transforms,
buffer_snapshot.text_summary_for_range(transform_start..transform_end),
);
cursor.next(&());
}
}
new_transforms.append(cursor.suffix(&()), &());
if new_transforms.is_empty() {
new_transforms.push(Transform::Isomorphic(Default::default()), &());
}
drop(cursor);
snapshot.transforms = new_transforms;
snapshot.version += 1;
snapshot.buffer = buffer_snapshot;
snapshot.check_invariants();
(snapshot.clone(), inlay_edits.into_inner())
}
}
pub fn splice(
&mut self,
to_remove: Vec<InlayId>,
to_insert: Vec<Inlay>,
) -> (InlaySnapshot, Vec<InlayEdit>) {
let snapshot = &mut self.snapshot;
let mut edits = BTreeSet::new();
self.inlays.retain(|inlay| {
let retain = !to_remove.contains(&inlay.id);
if !retain {
let offset = inlay.position.to_offset(&snapshot.buffer);
edits.insert(offset);
}
retain
});
for inlay_to_insert in to_insert {
if inlay_to_insert.text.is_empty() {
continue;
}
let offset = inlay_to_insert.position.to_offset(&snapshot.buffer);
match self.inlays.binary_search_by(|probe| {
probe
.position
.cmp(&inlay_to_insert.position, &snapshot.buffer)
}) {
Ok(ix) | Err(ix) => {
self.inlays.insert(ix, inlay_to_insert);
}
}
edits.insert(offset);
}
let buffer_edits = edits
.into_iter()
.map(|offset| Edit {
old: offset..offset,
new: offset..offset,
})
.collect();
let buffer_snapshot = snapshot.buffer.clone();
let (snapshot, edits) = self.sync(buffer_snapshot, buffer_edits);
(snapshot, edits)
}
pub fn current_inlays(&self) -> impl Iterator<Item = &Inlay> {
self.inlays.iter()
}
#[cfg(test)]
pub(crate) fn randomly_mutate(
&mut self,
next_inlay_id: &mut usize,
rng: &mut rand::rngs::StdRng,
) -> (InlaySnapshot, Vec<InlayEdit>) {
use rand::prelude::*;
use util::post_inc;
let mut to_remove = Vec::new();
let mut to_insert = Vec::new();
let snapshot = &mut self.snapshot;
for i in 0..rng.gen_range(1..=5) {
if self.inlays.is_empty() || rng.gen() {
let position = snapshot.buffer.random_byte_range(0, rng).start;
let bias = if rng.gen() { Bias::Left } else { Bias::Right };
let len = if rng.gen_bool(0.01) {
0
} else {
rng.gen_range(1..=5)
};
let text = util::RandomCharIter::new(&mut *rng)
.filter(|ch| *ch != '\r')
.take(len)
.collect::<String>();
let inlay_id = if i % 2 == 0 {
InlayId::Hint(post_inc(next_inlay_id))
} else {
InlayId::Suggestion(post_inc(next_inlay_id))
};
log::info!(
"creating inlay {:?} at buffer offset {} with bias {:?} and text {:?}",
inlay_id,
position,
bias,
text
);
to_insert.push(Inlay {
id: inlay_id,
position: snapshot.buffer.anchor_at(position, bias),
text: text.into(),
});
} else {
to_remove.push(
self.inlays
.iter()
.choose(rng)
.map(|inlay| inlay.id)
.unwrap(),
);
}
}
log::info!("removing inlays: {:?}", to_remove);
let (snapshot, edits) = self.splice(to_remove, to_insert);
(snapshot, edits)
}
}
impl InlaySnapshot {
pub fn to_point(&self, offset: InlayOffset) -> InlayPoint {
let mut cursor = self
.transforms
.cursor::<(InlayOffset, (InlayPoint, usize))>();
cursor.seek(&offset, Bias::Right, &());
let overshoot = offset.0 - cursor.start().0 .0;
match cursor.item() {
Some(Transform::Isomorphic(_)) => {
let buffer_offset_start = cursor.start().1 .1;
let buffer_offset_end = buffer_offset_start + overshoot;
let buffer_start = self.buffer.offset_to_point(buffer_offset_start);
let buffer_end = self.buffer.offset_to_point(buffer_offset_end);
InlayPoint(cursor.start().1 .0 .0 + (buffer_end - buffer_start))
}
Some(Transform::Inlay(inlay)) => {
let overshoot = inlay.text.offset_to_point(overshoot);
InlayPoint(cursor.start().1 .0 .0 + overshoot)
}
None => self.max_point(),
}
}
pub fn len(&self) -> InlayOffset {
InlayOffset(self.transforms.summary().output.len)
}
pub fn max_point(&self) -> InlayPoint {
InlayPoint(self.transforms.summary().output.lines)
}
pub fn to_offset(&self, point: InlayPoint) -> InlayOffset {
let mut cursor = self
.transforms
.cursor::<(InlayPoint, (InlayOffset, Point))>();
cursor.seek(&point, Bias::Right, &());
let overshoot = point.0 - cursor.start().0 .0;
match cursor.item() {
Some(Transform::Isomorphic(_)) => {
let buffer_point_start = cursor.start().1 .1;
let buffer_point_end = buffer_point_start + overshoot;
let buffer_offset_start = self.buffer.point_to_offset(buffer_point_start);
let buffer_offset_end = self.buffer.point_to_offset(buffer_point_end);
InlayOffset(cursor.start().1 .0 .0 + (buffer_offset_end - buffer_offset_start))
}
Some(Transform::Inlay(inlay)) => {
let overshoot = inlay.text.point_to_offset(overshoot);
InlayOffset(cursor.start().1 .0 .0 + overshoot)
}
None => self.len(),
}
}
pub fn to_buffer_point(&self, point: InlayPoint) -> Point {
let mut cursor = self.transforms.cursor::<(InlayPoint, Point)>();
cursor.seek(&point, Bias::Right, &());
match cursor.item() {
Some(Transform::Isomorphic(_)) => {
let overshoot = point.0 - cursor.start().0 .0;
cursor.start().1 + overshoot
}
Some(Transform::Inlay(_)) => cursor.start().1,
None => self.buffer.max_point(),
}
}
pub fn to_buffer_offset(&self, offset: InlayOffset) -> usize {
let mut cursor = self.transforms.cursor::<(InlayOffset, usize)>();
cursor.seek(&offset, Bias::Right, &());
match cursor.item() {
Some(Transform::Isomorphic(_)) => {
let overshoot = offset - cursor.start().0;
cursor.start().1 + overshoot.0
}
Some(Transform::Inlay(_)) => cursor.start().1,
None => self.buffer.len(),
}
}
pub fn to_inlay_offset(&self, offset: usize) -> InlayOffset {
let mut cursor = self.transforms.cursor::<(usize, InlayOffset)>();
cursor.seek(&offset, Bias::Left, &());
loop {
match cursor.item() {
Some(Transform::Isomorphic(_)) => {
if offset == cursor.end(&()).0 {
while let Some(Transform::Inlay(inlay)) = cursor.next_item() {
if inlay.position.bias() == Bias::Right {
break;
} else {
cursor.next(&());
}
}
return cursor.end(&()).1;
} else {
let overshoot = offset - cursor.start().0;
return InlayOffset(cursor.start().1 .0 + overshoot);
}
}
Some(Transform::Inlay(inlay)) => {
if inlay.position.bias() == Bias::Left {
cursor.next(&());
} else {
return cursor.start().1;
}
}
None => {
return self.len();
}
}
}
}
pub fn to_inlay_point(&self, point: Point) -> InlayPoint {
let mut cursor = self.transforms.cursor::<(Point, InlayPoint)>();
cursor.seek(&point, Bias::Left, &());
loop {
match cursor.item() {
Some(Transform::Isomorphic(_)) => {
if point == cursor.end(&()).0 {
while let Some(Transform::Inlay(inlay)) = cursor.next_item() {
if inlay.position.bias() == Bias::Right {
break;
} else {
cursor.next(&());
}
}
return cursor.end(&()).1;
} else {
let overshoot = point - cursor.start().0;
return InlayPoint(cursor.start().1 .0 + overshoot);
}
}
Some(Transform::Inlay(inlay)) => {
if inlay.position.bias() == Bias::Left {
cursor.next(&());
} else {
return cursor.start().1;
}
}
None => {
return self.max_point();
}
}
}
}
pub fn clip_point(&self, mut point: InlayPoint, mut bias: Bias) -> InlayPoint {
let mut cursor = self.transforms.cursor::<(InlayPoint, Point)>();
cursor.seek(&point, Bias::Left, &());
loop {
match cursor.item() {
Some(Transform::Isomorphic(transform)) => {
if cursor.start().0 == point {
if let Some(Transform::Inlay(inlay)) = cursor.prev_item() {
if inlay.position.bias() == Bias::Left {
return point;
} else if bias == Bias::Left {
cursor.prev(&());
} else if transform.first_line_chars == 0 {
point.0 += Point::new(1, 0);
} else {
point.0 += Point::new(0, 1);
}
} else {
return point;
}
} else if cursor.end(&()).0 == point {
if let Some(Transform::Inlay(inlay)) = cursor.next_item() {
if inlay.position.bias() == Bias::Right {
return point;
} else if bias == Bias::Right {
cursor.next(&());
} else if point.0.column == 0 {
point.0.row -= 1;
point.0.column = self.line_len(point.0.row);
} else {
point.0.column -= 1;
}
} else {
return point;
}
} else {
let overshoot = point.0 - cursor.start().0 .0;
let buffer_point = cursor.start().1 + overshoot;
let clipped_buffer_point = self.buffer.clip_point(buffer_point, bias);
let clipped_overshoot = clipped_buffer_point - cursor.start().1;
let clipped_point = InlayPoint(cursor.start().0 .0 + clipped_overshoot);
if clipped_point == point {
return clipped_point;
} else {
point = clipped_point;
}
}
}
Some(Transform::Inlay(inlay)) => {
if point == cursor.start().0 && inlay.position.bias() == Bias::Right {
match cursor.prev_item() {
Some(Transform::Inlay(inlay)) => {
if inlay.position.bias() == Bias::Left {
return point;
}
}
_ => return point,
}
} else if point == cursor.end(&()).0 && inlay.position.bias() == Bias::Left {
match cursor.next_item() {
Some(Transform::Inlay(inlay)) => {
if inlay.position.bias() == Bias::Right {
return point;
}
}
_ => return point,
}
}
if bias == Bias::Left {
point = cursor.start().0;
cursor.prev(&());
} else {
cursor.next(&());
point = cursor.start().0;
}
}
None => {
bias = bias.invert();
if bias == Bias::Left {
point = cursor.start().0;
cursor.prev(&());
} else {
cursor.next(&());
point = cursor.start().0;
}
}
}
}
}
pub fn text_summary(&self) -> TextSummary {
self.transforms.summary().output.clone()
}
pub fn text_summary_for_range(&self, range: Range<InlayOffset>) -> TextSummary {
let mut summary = TextSummary::default();
let mut cursor = self.transforms.cursor::<(InlayOffset, usize)>();
cursor.seek(&range.start, Bias::Right, &());
let overshoot = range.start.0 - cursor.start().0 .0;
match cursor.item() {
Some(Transform::Isomorphic(_)) => {
let buffer_start = cursor.start().1;
let suffix_start = buffer_start + overshoot;
let suffix_end =
buffer_start + (cmp::min(cursor.end(&()).0, range.end).0 - cursor.start().0 .0);
summary = self.buffer.text_summary_for_range(suffix_start..suffix_end);
cursor.next(&());
}
Some(Transform::Inlay(inlay)) => {
let suffix_start = overshoot;
let suffix_end = cmp::min(cursor.end(&()).0, range.end).0 - cursor.start().0 .0;
summary = inlay.text.cursor(suffix_start).summary(suffix_end);
cursor.next(&());
}
None => {}
}
if range.end > cursor.start().0 {
summary += cursor
.summary::<_, TransformSummary>(&range.end, Bias::Right, &())
.output;
let overshoot = range.end.0 - cursor.start().0 .0;
match cursor.item() {
Some(Transform::Isomorphic(_)) => {
let prefix_start = cursor.start().1;
let prefix_end = prefix_start + overshoot;
summary += self
.buffer
.text_summary_for_range::<TextSummary, _>(prefix_start..prefix_end);
}
Some(Transform::Inlay(inlay)) => {
let prefix_end = overshoot;
summary += inlay.text.cursor(0).summary::<TextSummary>(prefix_end);
}
None => {}
}
}
summary
}
pub fn buffer_rows<'a>(&'a self, row: u32) -> InlayBufferRows<'a> {
let mut cursor = self.transforms.cursor::<(InlayPoint, Point)>();
let inlay_point = InlayPoint::new(row, 0);
cursor.seek(&inlay_point, Bias::Left, &());
let max_buffer_row = self.buffer.max_point().row;
let mut buffer_point = cursor.start().1;
let buffer_row = if row == 0 {
0
} else {
match cursor.item() {
Some(Transform::Isomorphic(_)) => {
buffer_point += inlay_point.0 - cursor.start().0 .0;
buffer_point.row
}
_ => cmp::min(buffer_point.row + 1, max_buffer_row),
}
};
InlayBufferRows {
transforms: cursor,
inlay_row: inlay_point.row(),
buffer_rows: self.buffer.buffer_rows(buffer_row),
max_buffer_row,
}
}
pub fn line_len(&self, row: u32) -> u32 {
let line_start = self.to_offset(InlayPoint::new(row, 0)).0;
let line_end = if row >= self.max_point().row() {
self.len().0
} else {
self.to_offset(InlayPoint::new(row + 1, 0)).0 - 1
};
(line_end - line_start) as u32
}
pub fn chunks<'a>(
&'a self,
range: Range<InlayOffset>,
language_aware: bool,
highlights: Highlights<'a>,
) -> InlayChunks<'a> {
let mut cursor = self.transforms.cursor::<(InlayOffset, usize)>();
cursor.seek(&range.start, Bias::Right, &());
let mut highlight_endpoints = Vec::new();
if let Some(text_highlights) = highlights.text_highlights {
if !text_highlights.is_empty() {
self.apply_text_highlights(
&mut cursor,
&range,
text_highlights,
&mut highlight_endpoints,
);
cursor.seek(&range.start, Bias::Right, &());
}
}
highlight_endpoints.sort();
let buffer_range = self.to_buffer_offset(range.start)..self.to_buffer_offset(range.end);
let buffer_chunks = self.buffer.chunks(buffer_range, language_aware);
InlayChunks {
transforms: cursor,
buffer_chunks,
inlay_chunks: None,
inlay_chunk: None,
buffer_chunk: None,
output_offset: range.start,
max_output_offset: range.end,
inlay_highlight_style: highlights.inlay_highlight_style,
suggestion_highlight_style: highlights.suggestion_highlight_style,
highlight_endpoints: highlight_endpoints.into_iter().peekable(),
active_highlights: Default::default(),
highlights,
snapshot: self,
}
}
fn apply_text_highlights(
&self,
cursor: &mut Cursor<'_, Transform, (InlayOffset, usize)>,
range: &Range<InlayOffset>,
text_highlights: &TreeMap<Option<TypeId>, Arc<(HighlightStyle, Vec<Range<Anchor>>)>>,
highlight_endpoints: &mut Vec<HighlightEndpoint>,
) {
while cursor.start().0 < range.end {
let transform_start = self
.buffer
.anchor_after(self.to_buffer_offset(cmp::max(range.start, cursor.start().0)));
let transform_end =
{
let overshoot = InlayOffset(range.end.0 - cursor.start().0 .0);
self.buffer.anchor_before(self.to_buffer_offset(cmp::min(
cursor.end(&()).0,
cursor.start().0 + overshoot,
)))
};
for (tag, text_highlights) in text_highlights.iter() {
let style = text_highlights.0;
let ranges = &text_highlights.1;
let start_ix = match ranges.binary_search_by(|probe| {
let cmp = probe.end.cmp(&transform_start, &self.buffer);
if cmp.is_gt() {
cmp::Ordering::Greater
} else {
cmp::Ordering::Less
}
}) {
Ok(i) | Err(i) => i,
};
for range in &ranges[start_ix..] {
if range.start.cmp(&transform_end, &self.buffer).is_ge() {
break;
}
highlight_endpoints.push(HighlightEndpoint {
offset: self.to_inlay_offset(range.start.to_offset(&self.buffer)),
is_start: true,
tag: *tag,
style,
});
highlight_endpoints.push(HighlightEndpoint {
offset: self.to_inlay_offset(range.end.to_offset(&self.buffer)),
is_start: false,
tag: *tag,
style,
});
}
}
cursor.next(&());
}
}
#[cfg(test)]
pub fn text(&self) -> String {
self.chunks(Default::default()..self.len(), false, Highlights::default())
.map(|chunk| chunk.text)
.collect()
}
fn check_invariants(&self) {
#[cfg(any(debug_assertions, feature = "test-support"))]
{
assert_eq!(self.transforms.summary().input, self.buffer.text_summary());
let mut transforms = self.transforms.iter().peekable();
while let Some(transform) = transforms.next() {
let transform_is_isomorphic = matches!(transform, Transform::Isomorphic(_));
if let Some(next_transform) = transforms.peek() {
let next_transform_is_isomorphic =
matches!(next_transform, Transform::Isomorphic(_));
assert!(
!transform_is_isomorphic || !next_transform_is_isomorphic,
"two adjacent isomorphic transforms"
);
}
}
}
}
}
fn push_isomorphic(sum_tree: &mut SumTree<Transform>, summary: TextSummary) {
if summary.len == 0 {
return;
}
let mut summary = Some(summary);
sum_tree.update_last(
|transform| {
if let Transform::Isomorphic(transform) = transform {
*transform += summary.take().unwrap();
}
},
&(),
);
if let Some(summary) = summary {
sum_tree.push(Transform::Isomorphic(summary), &());
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::{
display_map::{InlayHighlights, TextHighlights},
link_go_to_definition::InlayHighlight,
InlayId, MultiBuffer,
};
use gpui::AppContext;
use project::{InlayHint, InlayHintLabel, ResolveState};
use rand::prelude::*;
use settings::SettingsStore;
use std::{cmp::Reverse, env, sync::Arc};
use text::Patch;
use util::post_inc;
#[test]
fn test_inlay_properties_label_padding() {
assert_eq!(
Inlay::hint(
0,
Anchor::min(),
&InlayHint {
label: InlayHintLabel::String("a".to_string()),
position: text::Anchor::default(),
padding_left: false,
padding_right: false,
tooltip: None,
kind: None,
resolve_state: ResolveState::Resolved,
},
)
.text
.to_string(),
"a",
"Should not pad label if not requested"
);
assert_eq!(
Inlay::hint(
0,
Anchor::min(),
&InlayHint {
label: InlayHintLabel::String("a".to_string()),
position: text::Anchor::default(),
padding_left: true,
padding_right: true,
tooltip: None,
kind: None,
resolve_state: ResolveState::Resolved,
},
)
.text
.to_string(),
" a ",
"Should pad label for every side requested"
);
assert_eq!(
Inlay::hint(
0,
Anchor::min(),
&InlayHint {
label: InlayHintLabel::String(" a ".to_string()),
position: text::Anchor::default(),
padding_left: false,
padding_right: false,
tooltip: None,
kind: None,
resolve_state: ResolveState::Resolved,
},
)
.text
.to_string(),
" a ",
"Should not change already padded label"
);
assert_eq!(
Inlay::hint(
0,
Anchor::min(),
&InlayHint {
label: InlayHintLabel::String(" a ".to_string()),
position: text::Anchor::default(),
padding_left: true,
padding_right: true,
tooltip: None,
kind: None,
resolve_state: ResolveState::Resolved,
},
)
.text
.to_string(),
" a ",
"Should not change already padded label"
);
}
#[gpui::test]
fn test_basic_inlays(cx: &mut AppContext) {
let buffer = MultiBuffer::build_simple("abcdefghi", cx);
let buffer_edits = buffer.update(cx, |buffer, _| buffer.subscribe());
let (mut inlay_map, inlay_snapshot) = InlayMap::new(buffer.read(cx).snapshot(cx));
assert_eq!(inlay_snapshot.text(), "abcdefghi");
let mut next_inlay_id = 0;
let (inlay_snapshot, _) = inlay_map.splice(
Vec::new(),
vec![Inlay {
id: InlayId::Hint(post_inc(&mut next_inlay_id)),
position: buffer.read(cx).snapshot(cx).anchor_after(3),
text: "|123|".into(),
}],
);
assert_eq!(inlay_snapshot.text(), "abc|123|defghi");
assert_eq!(
inlay_snapshot.to_inlay_point(Point::new(0, 0)),
InlayPoint::new(0, 0)
);
assert_eq!(
inlay_snapshot.to_inlay_point(Point::new(0, 1)),
InlayPoint::new(0, 1)
);
assert_eq!(
inlay_snapshot.to_inlay_point(Point::new(0, 2)),
InlayPoint::new(0, 2)
);
assert_eq!(
inlay_snapshot.to_inlay_point(Point::new(0, 3)),
InlayPoint::new(0, 3)
);
assert_eq!(
inlay_snapshot.to_inlay_point(Point::new(0, 4)),
InlayPoint::new(0, 9)
);
assert_eq!(
inlay_snapshot.to_inlay_point(Point::new(0, 5)),
InlayPoint::new(0, 10)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 0), Bias::Left),
InlayPoint::new(0, 0)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 0), Bias::Right),
InlayPoint::new(0, 0)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 3), Bias::Left),
InlayPoint::new(0, 3)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 3), Bias::Right),
InlayPoint::new(0, 3)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 4), Bias::Left),
InlayPoint::new(0, 3)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 4), Bias::Right),
InlayPoint::new(0, 9)
);
buffer.update(cx, |buffer, cx| {
buffer.edit([(2..3, "x"), (3..3, "y"), (4..4, "z")], None, cx)
});
let (inlay_snapshot, _) = inlay_map.sync(
buffer.read(cx).snapshot(cx),
buffer_edits.consume().into_inner(),
);
assert_eq!(inlay_snapshot.text(), "abxy|123|dzefghi");
buffer.update(cx, |buffer, cx| buffer.edit([(4..5, "D")], None, cx));
let (inlay_snapshot, _) = inlay_map.sync(
buffer.read(cx).snapshot(cx),
buffer_edits.consume().into_inner(),
);
assert_eq!(inlay_snapshot.text(), "abxyDzefghi");
let (inlay_snapshot, _) = inlay_map.splice(
Vec::new(),
vec![
Inlay {
id: InlayId::Hint(post_inc(&mut next_inlay_id)),
position: buffer.read(cx).snapshot(cx).anchor_before(3),
text: "|123|".into(),
},
Inlay {
id: InlayId::Suggestion(post_inc(&mut next_inlay_id)),
position: buffer.read(cx).snapshot(cx).anchor_after(3),
text: "|456|".into(),
},
],
);
assert_eq!(inlay_snapshot.text(), "abx|123||456|yDzefghi");
buffer.update(cx, |buffer, cx| buffer.edit([(3..3, "JKL")], None, cx));
let (inlay_snapshot, _) = inlay_map.sync(
buffer.read(cx).snapshot(cx),
buffer_edits.consume().into_inner(),
);
assert_eq!(inlay_snapshot.text(), "abx|123|JKL|456|yDzefghi");
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 0), Bias::Left),
InlayPoint::new(0, 0)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 0), Bias::Right),
InlayPoint::new(0, 0)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 1), Bias::Left),
InlayPoint::new(0, 1)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 1), Bias::Right),
InlayPoint::new(0, 1)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 2), Bias::Left),
InlayPoint::new(0, 2)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 2), Bias::Right),
InlayPoint::new(0, 2)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 3), Bias::Left),
InlayPoint::new(0, 2)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 3), Bias::Right),
InlayPoint::new(0, 8)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 4), Bias::Left),
InlayPoint::new(0, 2)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 4), Bias::Right),
InlayPoint::new(0, 8)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 5), Bias::Left),
InlayPoint::new(0, 2)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 5), Bias::Right),
InlayPoint::new(0, 8)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 6), Bias::Left),
InlayPoint::new(0, 2)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 6), Bias::Right),
InlayPoint::new(0, 8)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 7), Bias::Left),
InlayPoint::new(0, 2)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 7), Bias::Right),
InlayPoint::new(0, 8)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 8), Bias::Left),
InlayPoint::new(0, 8)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 8), Bias::Right),
InlayPoint::new(0, 8)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 9), Bias::Left),
InlayPoint::new(0, 9)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 9), Bias::Right),
InlayPoint::new(0, 9)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 10), Bias::Left),
InlayPoint::new(0, 10)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 10), Bias::Right),
InlayPoint::new(0, 10)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 11), Bias::Left),
InlayPoint::new(0, 11)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 11), Bias::Right),
InlayPoint::new(0, 11)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 12), Bias::Left),
InlayPoint::new(0, 11)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 12), Bias::Right),
InlayPoint::new(0, 17)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 13), Bias::Left),
InlayPoint::new(0, 11)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 13), Bias::Right),
InlayPoint::new(0, 17)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 14), Bias::Left),
InlayPoint::new(0, 11)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 14), Bias::Right),
InlayPoint::new(0, 17)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 15), Bias::Left),
InlayPoint::new(0, 11)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 15), Bias::Right),
InlayPoint::new(0, 17)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 16), Bias::Left),
InlayPoint::new(0, 11)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 16), Bias::Right),
InlayPoint::new(0, 17)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 17), Bias::Left),
InlayPoint::new(0, 17)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 17), Bias::Right),
InlayPoint::new(0, 17)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 18), Bias::Left),
InlayPoint::new(0, 18)
);
assert_eq!(
inlay_snapshot.clip_point(InlayPoint::new(0, 18), Bias::Right),
InlayPoint::new(0, 18)
);
let (inlay_snapshot, _) = inlay_map.splice(
inlay_map.inlays.iter().map(|inlay| inlay.id).collect(),
Vec::new(),
);
assert_eq!(inlay_snapshot.text(), "abxJKLyDzefghi");
}
#[gpui::test]
fn test_inlay_buffer_rows(cx: &mut AppContext) {
let buffer = MultiBuffer::build_simple("abc\ndef\nghi", cx);
let (mut inlay_map, inlay_snapshot) = InlayMap::new(buffer.read(cx).snapshot(cx));
assert_eq!(inlay_snapshot.text(), "abc\ndef\nghi");
let mut next_inlay_id = 0;
let (inlay_snapshot, _) = inlay_map.splice(
Vec::new(),
vec![
Inlay {
id: InlayId::Hint(post_inc(&mut next_inlay_id)),
position: buffer.read(cx).snapshot(cx).anchor_before(0),
text: "|123|\n".into(),
},
Inlay {
id: InlayId::Hint(post_inc(&mut next_inlay_id)),
position: buffer.read(cx).snapshot(cx).anchor_before(4),
text: "|456|".into(),
},
Inlay {
id: InlayId::Suggestion(post_inc(&mut next_inlay_id)),
position: buffer.read(cx).snapshot(cx).anchor_before(7),
text: "\n|567|\n".into(),
},
],
);
assert_eq!(inlay_snapshot.text(), "|123|\nabc\n|456|def\n|567|\n\nghi");
assert_eq!(
inlay_snapshot.buffer_rows(0).collect::<Vec<_>>(),
vec![Some(0), None, Some(1), None, None, Some(2)]
);
}
#[gpui::test(iterations = 100)]
fn test_random_inlays(cx: &mut AppContext, mut rng: StdRng) {
init_test(cx);
let operations = env::var("OPERATIONS")
.map(|i| i.parse().expect("invalid `OPERATIONS` variable"))
.unwrap_or(10);
let len = rng.gen_range(0..30);
let buffer = if rng.gen() {
let text = util::RandomCharIter::new(&mut rng)
.take(len)
.collect::<String>();
MultiBuffer::build_simple(&text, cx)
} else {
MultiBuffer::build_random(&mut rng, cx)
};
let mut buffer_snapshot = buffer.read(cx).snapshot(cx);
let mut next_inlay_id = 0;
log::info!("buffer text: {:?}", buffer_snapshot.text());
let (mut inlay_map, mut inlay_snapshot) = InlayMap::new(buffer_snapshot.clone());
for _ in 0..operations {
let mut inlay_edits = Patch::default();
let mut prev_inlay_text = inlay_snapshot.text();
let mut buffer_edits = Vec::new();
match rng.gen_range(0..=100) {
0..=50 => {
let (snapshot, edits) = inlay_map.randomly_mutate(&mut next_inlay_id, &mut rng);
log::info!("mutated text: {:?}", snapshot.text());
inlay_edits = Patch::new(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);
let edits = subscription.consume().into_inner();
log::info!("editing {:?}", edits);
buffer_edits.extend(edits);
}),
};
let (new_inlay_snapshot, new_inlay_edits) =
inlay_map.sync(buffer_snapshot.clone(), buffer_edits);
inlay_snapshot = new_inlay_snapshot;
inlay_edits = inlay_edits.compose(new_inlay_edits);
log::info!("buffer text: {:?}", buffer_snapshot.text());
log::info!("inlay text: {:?}", inlay_snapshot.text());
let inlays = inlay_map
.inlays
.iter()
.filter(|inlay| inlay.position.is_valid(&buffer_snapshot))
.map(|inlay| {
let offset = inlay.position.to_offset(&buffer_snapshot);
(offset, inlay.clone())
})
.collect::<Vec<_>>();
let mut expected_text = Rope::from(buffer_snapshot.text());
for (offset, inlay) in inlays.iter().rev() {
expected_text.replace(*offset..*offset, &inlay.text.to_string());
}
assert_eq!(inlay_snapshot.text(), expected_text.to_string());
let expected_buffer_rows = inlay_snapshot.buffer_rows(0).collect::<Vec<_>>();
assert_eq!(
expected_buffer_rows.len() as u32,
expected_text.max_point().row + 1
);
for row_start in 0..expected_buffer_rows.len() {
assert_eq!(
inlay_snapshot
.buffer_rows(row_start as u32)
.collect::<Vec<_>>(),
&expected_buffer_rows[row_start..],
"incorrect buffer rows starting at {}",
row_start
);
}
let mut text_highlights = TextHighlights::default();
let text_highlight_count = rng.gen_range(0_usize..10);
let mut text_highlight_ranges = (0..text_highlight_count)
.map(|_| buffer_snapshot.random_byte_range(0, &mut rng))
.collect::<Vec<_>>();
text_highlight_ranges.sort_by_key(|range| (range.start, Reverse(range.end)));
log::info!("highlighting text ranges {text_highlight_ranges:?}");
text_highlights.insert(
Some(TypeId::of::<()>()),
Arc::new((
HighlightStyle::default(),
text_highlight_ranges
.into_iter()
.map(|range| {
buffer_snapshot.anchor_before(range.start)
..buffer_snapshot.anchor_after(range.end)
})
.collect(),
)),
);
let mut inlay_highlights = InlayHighlights::default();
if !inlays.is_empty() {
let inlay_highlight_count = rng.gen_range(0..inlays.len());
let mut inlay_indices = BTreeSet::default();
while inlay_indices.len() < inlay_highlight_count {
inlay_indices.insert(rng.gen_range(0..inlays.len()));
}
let new_highlights = inlay_indices
.into_iter()
.filter_map(|i| {
let (_, inlay) = &inlays[i];
let inlay_text_len = inlay.text.len();
match inlay_text_len {
0 => None,
1 => Some(InlayHighlight {
inlay: inlay.id,
inlay_position: inlay.position,
range: 0..1,
}),
n => {
let inlay_text = inlay.text.to_string();
let mut highlight_end = rng.gen_range(1..n);
let mut highlight_start = rng.gen_range(0..highlight_end);
while !inlay_text.is_char_boundary(highlight_end) {
highlight_end += 1;
}
while !inlay_text.is_char_boundary(highlight_start) {
highlight_start -= 1;
}
Some(InlayHighlight {
inlay: inlay.id,
inlay_position: inlay.position,
range: highlight_start..highlight_end,
})
}
}
})
.map(|highlight| (highlight.inlay, (HighlightStyle::default(), highlight)))
.collect();
log::info!("highlighting inlay ranges {new_highlights:?}");
inlay_highlights.insert(TypeId::of::<()>(), new_highlights);
}
for _ in 0..5 {
let mut end = rng.gen_range(0..=inlay_snapshot.len().0);
end = expected_text.clip_offset(end, Bias::Right);
let mut start = rng.gen_range(0..=end);
start = expected_text.clip_offset(start, Bias::Right);
let range = InlayOffset(start)..InlayOffset(end);
log::info!("calling inlay_snapshot.chunks({range:?})");
let actual_text = inlay_snapshot
.chunks(
range,
false,
Highlights {
text_highlights: Some(&text_highlights),
inlay_highlights: Some(&inlay_highlights),
..Highlights::default()
},
)
.map(|chunk| chunk.text)
.collect::<String>();
assert_eq!(
actual_text,
expected_text.slice(start..end).to_string(),
"incorrect text in range {:?}",
start..end
);
assert_eq!(
inlay_snapshot.text_summary_for_range(InlayOffset(start)..InlayOffset(end)),
expected_text.slice(start..end).summary()
);
}
for edit in inlay_edits {
prev_inlay_text.replace_range(
edit.new.start.0..edit.new.start.0 + edit.old_len().0,
&inlay_snapshot.text()[edit.new.start.0..edit.new.end.0],
);
}
assert_eq!(prev_inlay_text, inlay_snapshot.text());
assert_eq!(expected_text.max_point(), inlay_snapshot.max_point().0);
assert_eq!(expected_text.len(), inlay_snapshot.len().0);
let mut buffer_point = Point::default();
let mut inlay_point = inlay_snapshot.to_inlay_point(buffer_point);
let mut buffer_chars = buffer_snapshot.chars_at(0);
loop {
let buffer_offset = buffer_snapshot.point_to_offset(buffer_point);
assert_eq!(
inlay_snapshot.to_point(inlay_snapshot.to_inlay_offset(buffer_offset)),
inlay_point
);
assert_eq!(
inlay_snapshot.clip_point(inlay_point, Bias::Left),
inlay_point,
"invalid inlay point for buffer point {:?} when clipped left",
buffer_point
);
assert_eq!(
inlay_snapshot.clip_point(inlay_point, Bias::Right),
inlay_point,
"invalid inlay point for buffer point {:?} when clipped right",
buffer_point
);
if let Some(ch) = buffer_chars.next() {
if ch == '\n' {
buffer_point += Point::new(1, 0);
} else {
buffer_point += Point::new(0, ch.len_utf8() as u32);
}
let new_inlay_point = inlay_snapshot.to_inlay_point(buffer_point);
assert!(new_inlay_point > inlay_point);
inlay_point = new_inlay_point;
} else {
break;
}
}
let mut inlay_point = InlayPoint::default();
let mut inlay_offset = InlayOffset::default();
for ch in expected_text.chars() {
assert_eq!(
inlay_snapshot.to_offset(inlay_point),
inlay_offset,
"invalid to_offset({:?})",
inlay_point
);
assert_eq!(
inlay_snapshot.to_point(inlay_offset),
inlay_point,
"invalid to_point({:?})",
inlay_offset
);
let mut bytes = [0; 4];
for byte in ch.encode_utf8(&mut bytes).as_bytes() {
inlay_offset.0 += 1;
if *byte == b'\n' {
inlay_point.0 += Point::new(1, 0);
} else {
inlay_point.0 += Point::new(0, 1);
}
let clipped_left_point = inlay_snapshot.clip_point(inlay_point, Bias::Left);
let clipped_right_point = inlay_snapshot.clip_point(inlay_point, Bias::Right);
assert!(
clipped_left_point <= clipped_right_point,
"inlay point {:?} when clipped left is greater than when clipped right ({:?} > {:?})",
inlay_point,
clipped_left_point,
clipped_right_point
);
assert_eq!(
clipped_left_point.0,
expected_text.clip_point(clipped_left_point.0, Bias::Left)
);
assert_eq!(
clipped_right_point.0,
expected_text.clip_point(clipped_right_point.0, Bias::Right)
);
assert!(clipped_left_point <= inlay_snapshot.max_point());
assert!(clipped_right_point <= inlay_snapshot.max_point());
assert_eq!(
inlay_snapshot
.to_inlay_point(inlay_snapshot.to_buffer_point(clipped_left_point)),
clipped_left_point,
"to_buffer_point({:?}) = {:?}",
clipped_left_point,
inlay_snapshot.to_buffer_point(clipped_left_point),
);
assert_eq!(
inlay_snapshot
.to_inlay_point(inlay_snapshot.to_buffer_point(clipped_right_point)),
clipped_right_point,
"to_buffer_point({:?}) = {:?}",
clipped_right_point,
inlay_snapshot.to_buffer_point(clipped_right_point),
);
}
}
}
}
fn init_test(cx: &mut AppContext) {
let store = SettingsStore::test(cx);
cx.set_global(store);
theme::init(theme::LoadThemes::JustBase, cx);
}
}