mirror of
https://github.com/rust-lang/rust-analyzer
synced 2024-12-27 05:23:24 +00:00
Speedup line index calculation via SSE2
This commit is contained in:
parent
a9c29a9ada
commit
97748b0fc6
5 changed files with 303 additions and 114 deletions
8
Cargo.lock
generated
8
Cargo.lock
generated
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@ -730,7 +730,7 @@ dependencies = [
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"indexmap 2.0.0",
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"itertools",
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"limit",
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"line-index 0.1.0-pre.1 (registry+https://github.com/rust-lang/crates.io-index)",
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"line-index 0.1.0-pre.1",
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"memchr",
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"nohash-hasher",
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"once_cell",
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@ -947,6 +947,8 @@ version = "0.0.0"
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[[package]]
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name = "line-index"
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version = "0.1.0-pre.1"
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source = "registry+https://github.com/rust-lang/crates.io-index"
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checksum = "2cad96769710c1745e11d4f940a8ff36000ade4bbada4285b001cb8aa2f745ce"
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dependencies = [
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"nohash-hasher",
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"text-size",
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@ -954,9 +956,7 @@ dependencies = [
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[[package]]
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name = "line-index"
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version = "0.1.0-pre.1"
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source = "registry+https://github.com/rust-lang/crates.io-index"
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checksum = "2cad96769710c1745e11d4f940a8ff36000ade4bbada4285b001cb8aa2f745ce"
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version = "0.1.0"
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dependencies = [
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"nohash-hasher",
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"text-size",
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@ -1,6 +1,6 @@
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[package]
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name = "line-index"
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version = "0.1.0-pre.1"
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version = "0.1.0"
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description = "Maps flat `TextSize` offsets to/from `(line, column)` representation."
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license = "MIT OR Apache-2.0"
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repository = "https://github.com/rust-lang/rust-analyzer/tree/master/lib/line-index"
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@ -94,44 +94,7 @@ pub struct LineIndex {
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impl LineIndex {
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/// Returns a `LineIndex` for the `text`.
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pub fn new(text: &str) -> LineIndex {
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let mut newlines = Vec::<TextSize>::with_capacity(16);
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let mut line_wide_chars = IntMap::<u32, Box<[WideChar]>>::default();
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let mut wide_chars = Vec::<WideChar>::new();
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let mut cur_row = TextSize::from(0);
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let mut cur_col = TextSize::from(0);
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let mut line = 0u32;
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for c in text.chars() {
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let c_len = TextSize::of(c);
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cur_row += c_len;
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if c == '\n' {
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newlines.push(cur_row);
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// Save any wide characters seen in the previous line
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if !wide_chars.is_empty() {
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let cs = std::mem::take(&mut wide_chars).into_boxed_slice();
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line_wide_chars.insert(line, cs);
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}
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// Prepare for processing the next line
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cur_col = TextSize::from(0);
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line += 1;
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continue;
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}
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if !c.is_ascii() {
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wide_chars.push(WideChar { start: cur_col, end: cur_col + c_len });
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}
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cur_col += c_len;
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}
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// Save any wide characters seen in the last line
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if !wide_chars.is_empty() {
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line_wide_chars.insert(line, wide_chars.into_boxed_slice());
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}
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let (newlines, line_wide_chars) = analyze_source_file(text);
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LineIndex {
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newlines: newlines.into_boxed_slice(),
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line_wide_chars,
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@ -235,3 +198,182 @@ impl LineIndex {
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self.len
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}
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}
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/// This is adapted from the rustc_span crate, https://github.com/rust-lang/rust/blob/master/compiler/rustc_span/src/analyze_source_file.rs
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fn analyze_source_file(src: &str) -> (Vec<TextSize>, IntMap<u32, Box<[WideChar]>>) {
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assert!(src.len() < !0u32 as usize);
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let mut lines = vec![];
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let mut line_wide_chars = IntMap::<u32, Vec<WideChar>>::default();
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// Calls the right implementation, depending on hardware support available.
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analyze_source_file_dispatch(src, &mut lines, &mut line_wide_chars);
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(lines, line_wide_chars.into_iter().map(|(k, v)| (k, v.into_boxed_slice())).collect())
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}
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#[cfg(any(target_arch = "x86", target_arch = "x86_64"))]
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fn analyze_source_file_dispatch(
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src: &str,
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lines: &mut Vec<TextSize>,
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multi_byte_chars: &mut IntMap<u32, Vec<WideChar>>,
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) {
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if is_x86_feature_detected!("sse2") {
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// SAFETY: SSE2 support was checked
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unsafe {
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analyze_source_file_sse2(src, lines, multi_byte_chars);
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}
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} else {
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analyze_source_file_generic(src, src.len(), TextSize::from(0), lines, multi_byte_chars);
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}
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}
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/// Checks 16 byte chunks of text at a time. If the chunk contains
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/// something other than printable ASCII characters and newlines, the
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/// function falls back to the generic implementation. Otherwise it uses
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/// SSE2 intrinsics to quickly find all newlines.
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#[target_feature(enable = "sse2")]
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#[cfg(any(target_arch = "x86", target_arch = "x86_64"))]
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unsafe fn analyze_source_file_sse2(
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src: &str,
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lines: &mut Vec<TextSize>,
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multi_byte_chars: &mut IntMap<u32, Vec<WideChar>>,
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) {
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#[cfg(target_arch = "x86")]
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use std::arch::x86::*;
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#[cfg(target_arch = "x86_64")]
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use std::arch::x86_64::*;
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const CHUNK_SIZE: usize = 16;
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let src_bytes = src.as_bytes();
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let chunk_count = src.len() / CHUNK_SIZE;
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// This variable keeps track of where we should start decoding a
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// chunk. If a multi-byte character spans across chunk boundaries,
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// we need to skip that part in the next chunk because we already
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// handled it.
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let mut intra_chunk_offset = 0;
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for chunk_index in 0..chunk_count {
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let ptr = src_bytes.as_ptr() as *const __m128i;
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// We don't know if the pointer is aligned to 16 bytes, so we
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// use `loadu`, which supports unaligned loading.
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let chunk = _mm_loadu_si128(ptr.add(chunk_index));
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// For character in the chunk, see if its byte value is < 0, which
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// indicates that it's part of a UTF-8 char.
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let multibyte_test = _mm_cmplt_epi8(chunk, _mm_set1_epi8(0));
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// Create a bit mask from the comparison results.
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let multibyte_mask = _mm_movemask_epi8(multibyte_test);
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// If the bit mask is all zero, we only have ASCII chars here:
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if multibyte_mask == 0 {
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assert!(intra_chunk_offset == 0);
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// Check for newlines in the chunk
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let newlines_test = _mm_cmpeq_epi8(chunk, _mm_set1_epi8(b'\n' as i8));
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let newlines_mask = _mm_movemask_epi8(newlines_test);
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if newlines_mask != 0 {
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// All control characters are newlines, record them
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let mut newlines_mask = 0xFFFF0000 | newlines_mask as u32;
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let output_offset = TextSize::from((chunk_index * CHUNK_SIZE + 1) as u32);
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loop {
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let index = newlines_mask.trailing_zeros();
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if index >= CHUNK_SIZE as u32 {
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// We have arrived at the end of the chunk.
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break;
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}
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lines.push(TextSize::from(index) + output_offset);
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// Clear the bit, so we can find the next one.
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newlines_mask &= (!1) << index;
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}
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}
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continue;
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}
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// The slow path.
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// There are control chars in here, fallback to generic decoding.
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let scan_start = chunk_index * CHUNK_SIZE + intra_chunk_offset;
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intra_chunk_offset = analyze_source_file_generic(
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&src[scan_start..],
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CHUNK_SIZE - intra_chunk_offset,
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TextSize::from(scan_start as u32),
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lines,
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multi_byte_chars,
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);
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}
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// There might still be a tail left to analyze
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let tail_start = chunk_count * CHUNK_SIZE + intra_chunk_offset;
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if tail_start < src.len() {
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analyze_source_file_generic(
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&src[tail_start..],
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src.len() - tail_start,
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TextSize::from(tail_start as u32),
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lines,
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multi_byte_chars,
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);
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}
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}
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#[cfg(not(any(target_arch = "x86", target_arch = "x86_64")))]
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// The target (or compiler version) does not support SSE2 ...
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fn analyze_source_file_dispatch(
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src: &str,
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lines: &mut Vec<TextSize>,
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multi_byte_chars: &mut IntMap<u32, Vec<WideChar>>,
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) {
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analyze_source_file_generic(src, src.len(), TextSize::from(0), lines, multi_byte_chars);
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}
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// `scan_len` determines the number of bytes in `src` to scan. Note that the
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// function can read past `scan_len` if a multi-byte character start within the
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// range but extends past it. The overflow is returned by the function.
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fn analyze_source_file_generic(
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src: &str,
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scan_len: usize,
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output_offset: TextSize,
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lines: &mut Vec<TextSize>,
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multi_byte_chars: &mut IntMap<u32, Vec<WideChar>>,
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) -> usize {
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assert!(src.len() >= scan_len);
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let mut i = 0;
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let src_bytes = src.as_bytes();
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while i < scan_len {
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let byte = unsafe {
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// We verified that i < scan_len <= src.len()
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*src_bytes.get_unchecked(i)
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};
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// How much to advance in order to get to the next UTF-8 char in the
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// string.
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let mut char_len = 1;
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if byte == b'\n' {
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lines.push(TextSize::from(i as u32 + 1) + output_offset);
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} else if byte >= 127 {
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// The slow path: Just decode to `char`.
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let c = src[i..].chars().next().unwrap();
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char_len = c.len_utf8();
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let pos = TextSize::from(i as u32) + output_offset;
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if char_len > 1 {
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assert!((2..=4).contains(&char_len));
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let mbc = WideChar { start: pos, end: pos + TextSize::from(char_len as u32) };
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multi_byte_chars.entry(lines.len() as u32).or_default().push(mbc);
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}
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}
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i += char_len;
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}
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i - scan_len
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}
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@ -1,11 +1,120 @@
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use super::LineIndex;
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use crate::{LineIndex, TextSize, WideChar};
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macro_rules! test {
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(
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case: $test_name:ident,
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text: $text:expr,
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lines: $lines:expr,
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multi_byte_chars: $multi_byte_chars:expr,
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) => {
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#[test]
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fn test_empty_index() {
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let col_index = LineIndex::new(
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"
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const C: char = 'x';
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",
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fn $test_name() {
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let line_index = LineIndex::new($text);
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let expected_lines: Vec<TextSize> =
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$lines.into_iter().map(<TextSize as From<u32>>::from).collect();
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assert_eq!(&*line_index.newlines, &*expected_lines);
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let expected_mbcs: Vec<_> = $multi_byte_chars
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.into_iter()
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.map(|(line, (pos, end)): (u32, (u32, u32))| {
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(line, WideChar { start: TextSize::from(pos), end: TextSize::from(end) })
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})
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.collect();
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assert_eq!(
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line_index
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.line_wide_chars
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.iter()
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.flat_map(|(line, val)| std::iter::repeat(*line).zip(val.iter().copied()))
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.collect::<Vec<_>>(),
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expected_mbcs
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);
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assert_eq!(col_index.line_wide_chars.len(), 0);
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}
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};
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}
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test!(
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case: empty_text,
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text: "",
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lines: vec![],
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multi_byte_chars: vec![],
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);
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test!(
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case: newlines_short,
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text: "a\nc",
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lines: vec![2],
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multi_byte_chars: vec![],
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);
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test!(
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case: newlines_long,
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text: "012345678\nabcdef012345678\na",
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lines: vec![10, 26],
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multi_byte_chars: vec![],
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);
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test!(
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case: newline_and_multi_byte_char_in_same_chunk,
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text: "01234β789\nbcdef0123456789abcdef",
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lines: vec![11],
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multi_byte_chars: vec![(0, (5, 7))],
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);
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test!(
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case: newline_and_control_char_in_same_chunk,
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text: "01234\u{07}6789\nbcdef0123456789abcdef",
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lines: vec![11],
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multi_byte_chars: vec![],
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);
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test!(
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case: multi_byte_char_short,
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text: "aβc",
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lines: vec![],
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multi_byte_chars: vec![(0, (1, 3))],
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);
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test!(
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case: multi_byte_char_long,
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text: "0123456789abcΔf012345β",
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lines: vec![],
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multi_byte_chars: vec![(0, (13, 15)), (0, (22, 24))],
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);
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test!(
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case: multi_byte_char_across_chunk_boundary,
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text: "0123456789abcdeΔ123456789abcdef01234",
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lines: vec![],
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multi_byte_chars: vec![(0, (15, 17))],
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);
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test!(
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case: multi_byte_char_across_chunk_boundary_tail,
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text: "0123456789abcdeΔ....",
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lines: vec![],
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multi_byte_chars: vec![(0, (15, 17))],
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);
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test!(
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case: multi_byte_with_new_lines,
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text: "01\t345\n789abcΔf01234567\u{07}9\nbcΔf",
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lines: vec![7, 27],
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multi_byte_chars: vec![(1, (13, 15)), (2, (29, 31))],
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);
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test!(
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case: trailing_newline,
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text: "0123456789\n",
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lines: vec![11],
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multi_byte_chars: vec![],
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);
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test!(
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case: trailing_newline_chunk_boundary,
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text: "0123456789abcde\n",
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lines: vec![16],
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multi_byte_chars: vec![],
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);
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@ -1,62 +0,0 @@
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use line_index::{LineCol, LineIndex, TextRange};
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#[test]
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fn test_line_index() {
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let text = "hello\nworld";
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let table = [
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(00, 0, 0),
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(01, 0, 1),
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(05, 0, 5),
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(06, 1, 0),
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(07, 1, 1),
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(08, 1, 2),
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(10, 1, 4),
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(11, 1, 5),
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];
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let index = LineIndex::new(text);
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for (offset, line, col) in table {
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assert_eq!(index.line_col(offset.into()), LineCol { line, col });
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}
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let text = "\nhello\nworld";
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let table = [(0, 0, 0), (1, 1, 0), (2, 1, 1), (6, 1, 5), (7, 2, 0)];
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let index = LineIndex::new(text);
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for (offset, line, col) in table {
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assert_eq!(index.line_col(offset.into()), LineCol { line, col });
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}
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}
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#[test]
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fn test_char_len() {
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assert_eq!('メ'.len_utf8(), 3);
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assert_eq!('メ'.len_utf16(), 1);
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}
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#[test]
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fn test_splitlines() {
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fn r(lo: u32, hi: u32) -> TextRange {
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TextRange::new(lo.into(), hi.into())
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}
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let text = "a\nbb\nccc\n";
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let line_index = LineIndex::new(text);
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let actual = line_index.lines(r(0, 9)).collect::<Vec<_>>();
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let expected = vec![r(0, 2), r(2, 5), r(5, 9)];
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assert_eq!(actual, expected);
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let text = "";
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let line_index = LineIndex::new(text);
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let actual = line_index.lines(r(0, 0)).collect::<Vec<_>>();
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let expected = vec![];
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assert_eq!(actual, expected);
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let text = "\n";
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let line_index = LineIndex::new(text);
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let actual = line_index.lines(r(0, 1)).collect::<Vec<_>>();
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let expected = vec![r(0, 1)];
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assert_eq!(actual, expected)
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}
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