mirror of
https://github.com/swc-project/swc.git
synced 2024-12-25 22:56:11 +03:00
fix(common): Mark \r
as a line ending (#6752)
**Related issue:** - Closes https://github.com/swc-project/swc/issues/6694.
This commit is contained in:
parent
ec8497b42c
commit
26a0c13589
@ -11,7 +11,9 @@ use std::{
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use anyhow::{Context, Error};
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use anyhow::{Context, Error};
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use swc::{
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use swc::{
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config::{Config, InputSourceMap, IsModule, ModuleConfig, Options, SourceMapsConfig},
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config::{
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Config, InputSourceMap, IsModule, JscConfig, ModuleConfig, Options, SourceMapsConfig,
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},
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Compiler,
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Compiler,
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};
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};
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use testing::{assert_eq, NormalizedOutput, StdErr, Tester};
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use testing::{assert_eq, NormalizedOutput, StdErr, Tester};
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@ -25,8 +25,9 @@ pub fn analyze_source_file(
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let mut non_narrow_chars = vec![];
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let mut non_narrow_chars = vec![];
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// Calls the right implementation, depending on hardware support available.
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// Calls the right implementation, depending on hardware support available.
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analyze_source_file_dispatch(
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analyze_source_file_generic(
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src,
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src,
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src.len(),
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source_file_start_pos,
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source_file_start_pos,
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&mut lines,
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&mut lines,
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&mut multi_byte_chars,
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&mut multi_byte_chars,
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@ -47,167 +48,6 @@ pub fn analyze_source_file(
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(lines, multi_byte_chars, non_narrow_chars)
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(lines, multi_byte_chars, non_narrow_chars)
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}
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}
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cfg_if::cfg_if! {
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if #[cfg(all(any(target_arch = "x86", target_arch = "x86_64")))] {
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fn analyze_source_file_dispatch(src: &str,
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source_file_start_pos: BytePos,
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lines: &mut Vec<BytePos>,
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multi_byte_chars: &mut Vec<MultiByteChar>,
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non_narrow_chars: &mut Vec<NonNarrowChar>) {
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if is_x86_feature_detected!("sse2") && cfg!(not(miri)) {
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unsafe {
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analyze_source_file_sse2(src,
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source_file_start_pos,
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lines,
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multi_byte_chars,
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non_narrow_chars);
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}
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} else {
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analyze_source_file_generic(src,
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src.len(),
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source_file_start_pos,
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lines,
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multi_byte_chars,
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non_narrow_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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unsafe fn analyze_source_file_sse2(src: &str,
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output_offset: BytePos,
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lines: &mut Vec<BytePos>,
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multi_byte_chars: &mut Vec<MultiByteChar>,
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non_narrow_chars: &mut Vec<NonNarrowChar>) {
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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 if there are any control characters in the chunk. All
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// control characters that we can encounter at this point have a
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// byte value less than 32 or ...
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let control_char_test0 = _mm_cmplt_epi8(chunk, _mm_set1_epi8(32));
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let control_char_mask0 = _mm_movemask_epi8(control_char_test0);
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// ... it's the ASCII 'DEL' character with a value of 127.
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let control_char_test1 = _mm_cmpeq_epi8(chunk, _mm_set1_epi8(127));
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let control_char_mask1 = _mm_movemask_epi8(control_char_test1);
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let control_char_mask = control_char_mask0 | control_char_mask1;
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if control_char_mask != 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 control_char_mask == newlines_mask {
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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 = output_offset +
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BytePos::from_usize(chunk_index * CHUNK_SIZE + 1);
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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(BytePos(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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// We are done for this chunk. All control characters were
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// newlines and we took care of those.
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continue
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} else {
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// Some of the control characters are not newlines,
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// fall through to the slow path below.
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}
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} else {
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// No control characters, nothing to record for this chunk
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continue
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}
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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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BytePos::from_usize(scan_start) + output_offset,
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lines,
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multi_byte_chars,
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non_narrow_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(&src[tail_start as usize ..],
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src.len() - tail_start,
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output_offset + BytePos::from_usize(tail_start),
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lines,
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multi_byte_chars,
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non_narrow_chars);
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}
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}
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} else {
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// The target (or compiler version) does not support SSE2 ...
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fn analyze_source_file_dispatch(src: &str,
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source_file_start_pos: BytePos,
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lines: &mut Vec<BytePos>,
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multi_byte_chars: &mut Vec<MultiByteChar>,
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non_narrow_chars: &mut Vec<NonNarrowChar>) {
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analyze_source_file_generic(src,
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src.len(),
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source_file_start_pos,
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lines,
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multi_byte_chars,
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non_narrow_chars);
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}
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}
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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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// `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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// 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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// range but extends past it. The overflow is returned by the function.
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@ -240,6 +80,15 @@ fn analyze_source_file_generic(
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let pos = BytePos::from_usize(i) + output_offset;
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let pos = BytePos::from_usize(i) + output_offset;
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match byte {
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match byte {
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b'\r' => {
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if let Some(b'\n') = src_bytes.get(i as usize + 1) {
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lines.push(pos + BytePos(2));
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i += 2;
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continue;
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}
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lines.push(pos + BytePos(1));
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}
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b'\n' => {
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b'\n' => {
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lines.push(pos + BytePos(1));
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lines.push(pos + BytePos(1));
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}
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}
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@ -432,4 +281,13 @@ mod tests {
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multi_byte_chars: vec![(13 + 1000, 2), (29 + 1000, 2)],
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multi_byte_chars: vec![(13 + 1000, 2), (29 + 1000, 2)],
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non_narrow_chars: vec![(2 + 1000, 4), (24 + 1000, 0)],
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non_narrow_chars: vec![(2 + 1000, 4), (24 + 1000, 0)],
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);
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);
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test!(
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case: windows_crlf,
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text: "012345678\r\nabcdef012345678\r\na",
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source_file_start_pos: 0,
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lines: vec![0, 11, 28],
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multi_byte_chars: vec![],
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non_narrow_chars: vec![],
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);
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}
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}
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