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|
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
//! Streams of tendrils.
use fmt;
use tendril::{Atomicity, NonAtomic, Tendril};
use std::borrow::Cow;
use std::fs::File;
use std::io;
use std::marker::PhantomData;
use std::path::Path;
#[cfg(feature = "encoding")]
use encoding;
#[cfg(feature = "encoding_rs")]
use encoding_rs::{self, DecoderResult};
use utf8;
/// Trait for types that can process a tendril.
///
/// This is a "push" interface, unlike the "pull" interface of
/// `Iterator<Item=Tendril<F>>`. The push interface matches
/// [html5ever][] and other incremental parsers with a similar
/// architecture.
///
/// [html5ever]: https://github.com/servo/html5ever
pub trait TendrilSink<F, A = NonAtomic>
where
F: fmt::Format,
A: Atomicity,
{
/// Process this tendril.
fn process(&mut self, t: Tendril<F, A>);
/// Indicates that an error has occurred.
fn error(&mut self, desc: Cow<'static, str>);
/// What the overall result of processing is.
type Output;
/// Indicates the end of the stream.
fn finish(self) -> Self::Output;
/// Process one tendril and finish.
fn one<T>(mut self, t: T) -> Self::Output
where
Self: Sized,
T: Into<Tendril<F, A>>,
{
self.process(t.into());
self.finish()
}
/// Consume an iterator of tendrils, processing each item, then finish.
fn from_iter<I>(mut self, i: I) -> Self::Output
where
Self: Sized,
I: IntoIterator,
I::Item: Into<Tendril<F, A>>,
{
for t in i {
self.process(t.into())
}
self.finish()
}
/// Read from the given stream of bytes until exhaustion and process incrementally,
/// then finish. Return `Err` at the first I/O error.
fn read_from<R>(mut self, r: &mut R) -> io::Result<Self::Output>
where
Self: Sized,
R: io::Read,
F: fmt::SliceFormat<Slice = [u8]>,
{
const BUFFER_SIZE: u32 = 4 * 1024;
loop {
let mut tendril = Tendril::<F, A>::new();
// FIXME: this exposes uninitialized bytes to a generic R type
// this is fine for R=File which never reads these bytes,
// but user-defined types might.
// The standard library pushes zeros to `Vec<u8>` for that reason.
unsafe {
tendril.push_uninitialized(BUFFER_SIZE);
}
loop {
match r.read(&mut tendril) {
Ok(0) => return Ok(self.finish()),
Ok(n) => {
tendril.pop_back(BUFFER_SIZE - n as u32);
self.process(tendril);
break;
}
Err(ref e) if e.kind() == io::ErrorKind::Interrupted => {}
Err(e) => return Err(e),
}
}
}
}
/// Read from the file at the given path and process incrementally,
/// then finish. Return `Err` at the first I/O error.
fn from_file<P>(self, path: P) -> io::Result<Self::Output>
where
Self: Sized,
P: AsRef<Path>,
F: fmt::SliceFormat<Slice = [u8]>,
{
self.read_from(&mut File::open(path)?)
}
}
/// A `TendrilSink` adaptor that takes bytes, decodes them as UTF-8,
/// lossily replace ill-formed byte sequences with U+FFFD replacement characters,
/// and emits Unicode (`StrTendril`).
///
/// This does not allocate memory: the output is either subtendrils on the input,
/// on inline tendrils for a single code point.
pub struct Utf8LossyDecoder<Sink, A = NonAtomic>
where
Sink: TendrilSink<fmt::UTF8, A>,
A: Atomicity,
{
pub inner_sink: Sink,
incomplete: Option<utf8::Incomplete>,
marker: PhantomData<A>,
}
impl<Sink, A> Utf8LossyDecoder<Sink, A>
where
Sink: TendrilSink<fmt::UTF8, A>,
A: Atomicity,
{
/// Create a new incremental UTF-8 decoder.
#[inline]
pub fn new(inner_sink: Sink) -> Self {
Utf8LossyDecoder {
inner_sink: inner_sink,
incomplete: None,
marker: PhantomData,
}
}
}
impl<Sink, A> TendrilSink<fmt::Bytes, A> for Utf8LossyDecoder<Sink, A>
where
Sink: TendrilSink<fmt::UTF8, A>,
A: Atomicity,
{
#[inline]
fn process(&mut self, mut t: Tendril<fmt::Bytes, A>) {
// FIXME: remove take() and map() when non-lexical borrows are stable.
if let Some(mut incomplete) = self.incomplete.take() {
let resume_at = incomplete.try_complete(&t).map(|(result, rest)| {
match result {
Ok(s) => self.inner_sink.process(Tendril::from_slice(s)),
Err(_) => {
self.inner_sink.error("invalid byte sequence".into());
self.inner_sink
.process(Tendril::from_slice(utf8::REPLACEMENT_CHARACTER));
}
}
t.len() - rest.len()
});
match resume_at {
None => {
self.incomplete = Some(incomplete);
return;
}
Some(resume_at) => t.pop_front(resume_at as u32),
}
}
while !t.is_empty() {
let unborrowed_result = match utf8::decode(&t) {
Ok(s) => {
debug_assert!(s.as_ptr() == t.as_ptr());
debug_assert!(s.len() == t.len());
Ok(())
}
Err(utf8::DecodeError::Invalid {
valid_prefix,
invalid_sequence,
..
}) => {
debug_assert!(valid_prefix.as_ptr() == t.as_ptr());
debug_assert!(valid_prefix.len() <= t.len());
Err((
valid_prefix.len(),
Err(valid_prefix.len() + invalid_sequence.len()),
))
}
Err(utf8::DecodeError::Incomplete {
valid_prefix,
incomplete_suffix,
}) => {
debug_assert!(valid_prefix.as_ptr() == t.as_ptr());
debug_assert!(valid_prefix.len() <= t.len());
Err((valid_prefix.len(), Ok(incomplete_suffix)))
}
};
match unborrowed_result {
Ok(()) => {
unsafe { self.inner_sink.process(t.reinterpret_without_validating()) }
return;
}
Err((valid_len, and_then)) => {
if valid_len > 0 {
let subtendril = t.subtendril(0, valid_len as u32);
unsafe {
self.inner_sink
.process(subtendril.reinterpret_without_validating())
}
}
match and_then {
Ok(incomplete) => {
self.incomplete = Some(incomplete);
return;
}
Err(offset) => {
self.inner_sink.error("invalid byte sequence".into());
self.inner_sink
.process(Tendril::from_slice(utf8::REPLACEMENT_CHARACTER));
t.pop_front(offset as u32);
}
}
}
}
}
}
#[inline]
fn error(&mut self, desc: Cow<'static, str>) {
self.inner_sink.error(desc);
}
type Output = Sink::Output;
#[inline]
fn finish(mut self) -> Sink::Output {
if self.incomplete.is_some() {
self.inner_sink
.error("incomplete byte sequence at end of stream".into());
self.inner_sink
.process(Tendril::from_slice(utf8::REPLACEMENT_CHARACTER));
}
self.inner_sink.finish()
}
}
/// A `TendrilSink` adaptor that takes bytes, decodes them as the given character encoding,
/// lossily replace ill-formed byte sequences with U+FFFD replacement characters,
/// and emits Unicode (`StrTendril`).
///
/// This allocates new tendrils for encodings other than UTF-8.
#[cfg(any(feature = "encoding", feature = "encoding_rs"))]
pub struct LossyDecoder<Sink, A = NonAtomic>
where
Sink: TendrilSink<fmt::UTF8, A>,
A: Atomicity,
{
inner: LossyDecoderInner<Sink, A>,
}
#[cfg(any(feature = "encoding", feature = "encoding_rs"))]
enum LossyDecoderInner<Sink, A>
where
Sink: TendrilSink<fmt::UTF8, A>,
A: Atomicity,
{
Utf8(Utf8LossyDecoder<Sink, A>),
#[cfg(feature = "encoding")]
Encoding(Box<encoding::RawDecoder>, Sink),
#[cfg(feature = "encoding_rs")]
EncodingRs(encoding_rs::Decoder, Sink),
}
#[cfg(any(feature = "encoding", feature = "encoding_rs"))]
impl<Sink, A> LossyDecoder<Sink, A>
where
Sink: TendrilSink<fmt::UTF8, A>,
A: Atomicity,
{
/// Create a new incremental decoder using the encoding crate.
#[cfg(feature = "encoding")]
#[inline]
pub fn new(encoding: encoding::EncodingRef, sink: Sink) -> Self {
if encoding.name() == "utf-8" {
LossyDecoder::utf8(sink)
} else {
LossyDecoder {
inner: LossyDecoderInner::Encoding(encoding.raw_decoder(), sink),
}
}
}
/// Create a new incremental decoder using the encoding_rs crate.
#[cfg(feature = "encoding_rs")]
#[inline]
pub fn new_encoding_rs(encoding: &'static encoding_rs::Encoding, sink: Sink) -> Self {
if encoding == encoding_rs::UTF_8 {
return Self::utf8(sink);
}
Self {
inner: LossyDecoderInner::EncodingRs(encoding.new_decoder(), sink),
}
}
/// Create a new incremental decoder for the UTF-8 encoding.
///
/// This is useful for content that is known at run-time to be UTF-8
/// (whereas `Utf8LossyDecoder` requires knowning at compile-time.)
#[inline]
pub fn utf8(sink: Sink) -> LossyDecoder<Sink, A> {
LossyDecoder {
inner: LossyDecoderInner::Utf8(Utf8LossyDecoder::new(sink)),
}
}
/// Give a reference to the inner sink.
pub fn inner_sink(&self) -> &Sink {
match self.inner {
LossyDecoderInner::Utf8(ref utf8) => &utf8.inner_sink,
#[cfg(feature = "encoding")]
LossyDecoderInner::Encoding(_, ref inner_sink) => inner_sink,
#[cfg(feature = "encoding_rs")]
LossyDecoderInner::EncodingRs(_, ref inner_sink) => inner_sink,
}
}
/// Give a mutable reference to the inner sink.
pub fn inner_sink_mut(&mut self) -> &mut Sink {
match self.inner {
LossyDecoderInner::Utf8(ref mut utf8) => &mut utf8.inner_sink,
#[cfg(feature = "encoding")]
LossyDecoderInner::Encoding(_, ref mut inner_sink) => inner_sink,
#[cfg(feature = "encoding_rs")]
LossyDecoderInner::EncodingRs(_, ref mut inner_sink) => inner_sink,
}
}
}
#[cfg(any(feature = "encoding", feature = "encoding_rs"))]
impl<Sink, A> TendrilSink<fmt::Bytes, A> for LossyDecoder<Sink, A>
where
Sink: TendrilSink<fmt::UTF8, A>,
A: Atomicity,
{
#[inline]
fn process(&mut self, t: Tendril<fmt::Bytes, A>) {
match self.inner {
LossyDecoderInner::Utf8(ref mut utf8) => return utf8.process(t),
#[cfg(feature = "encoding")]
LossyDecoderInner::Encoding(ref mut decoder, ref mut sink) => {
let mut out = Tendril::new();
let mut t = t;
loop {
match decoder.raw_feed(&*t, &mut out) {
(_, Some(err)) => {
out.push_char('\u{fffd}');
sink.error(err.cause);
debug_assert!(err.upto >= 0);
t.pop_front(err.upto as u32);
// continue loop and process remainder of t
}
(_, None) => break,
}
}
if out.len() > 0 {
sink.process(out);
}
}
#[cfg(feature = "encoding_rs")]
LossyDecoderInner::EncodingRs(ref mut decoder, ref mut sink) => {
if t.is_empty() {
return;
}
decode_to_sink(t, decoder, sink, false);
}
}
}
#[inline]
fn error(&mut self, desc: Cow<'static, str>) {
match self.inner {
LossyDecoderInner::Utf8(ref mut utf8) => utf8.error(desc),
#[cfg(feature = "encoding")]
LossyDecoderInner::Encoding(_, ref mut sink) => sink.error(desc),
#[cfg(feature = "encoding_rs")]
LossyDecoderInner::EncodingRs(_, ref mut sink) => sink.error(desc),
}
}
type Output = Sink::Output;
#[inline]
fn finish(self) -> Sink::Output {
match self.inner {
LossyDecoderInner::Utf8(utf8) => return utf8.finish(),
#[cfg(feature = "encoding")]
LossyDecoderInner::Encoding(mut decoder, mut sink) => {
let mut out = Tendril::new();
if let Some(err) = decoder.raw_finish(&mut out) {
out.push_char('\u{fffd}');
sink.error(err.cause);
}
if out.len() > 0 {
sink.process(out);
}
sink.finish()
}
#[cfg(feature = "encoding_rs")]
LossyDecoderInner::EncodingRs(mut decoder, mut sink) => {
decode_to_sink(Tendril::new(), &mut decoder, &mut sink, true);
sink.finish()
}
}
}
}
#[cfg(feature = "encoding_rs")]
fn decode_to_sink<Sink, A>(
mut t: Tendril<fmt::Bytes, A>,
decoder: &mut encoding_rs::Decoder,
sink: &mut Sink,
last: bool,
) where
Sink: TendrilSink<fmt::UTF8, A>,
A: Atomicity,
{
loop {
let mut out = <Tendril<fmt::Bytes, A>>::new();
let max_len = decoder
.max_utf8_buffer_length_without_replacement(t.len())
.unwrap_or(8192);
unsafe {
out.push_uninitialized(std::cmp::min(max_len as u32, 8192));
}
let (result, bytes_read, bytes_written) =
decoder.decode_to_utf8_without_replacement(&t, &mut out, last);
if bytes_written > 0 {
sink.process(unsafe {
out.subtendril(0, bytes_written as u32)
.reinterpret_without_validating()
});
}
match result {
DecoderResult::InputEmpty => return,
DecoderResult::OutputFull => {}
DecoderResult::Malformed(_, _) => {
sink.error(Cow::Borrowed("invalid sequence"));
sink.process("\u{FFFD}".into());
}
}
t.pop_front(bytes_read as u32);
if t.is_empty() {
return;
}
}
}
#[cfg(test)]
mod test {
use super::{TendrilSink, Utf8LossyDecoder};
use fmt;
use std::borrow::Cow;
use tendril::{Atomicity, NonAtomic, Tendril};
#[cfg(any(feature = "encoding", feature = "encoding_rs"))]
use super::LossyDecoder;
#[cfg(any(feature = "encoding", feature = "encoding_rs"))]
use tendril::SliceExt;
#[cfg(feature = "encoding")]
use encoding::all as enc;
#[cfg(feature = "encoding_rs")]
use encoding_rs as enc_rs;
struct Accumulate<A>
where
A: Atomicity,
{
tendrils: Vec<Tendril<fmt::UTF8, A>>,
errors: Vec<String>,
}
impl<A> Accumulate<A>
where
A: Atomicity,
{
fn new() -> Accumulate<A> {
Accumulate {
tendrils: vec![],
errors: vec![],
}
}
}
impl<A> TendrilSink<fmt::UTF8, A> for Accumulate<A>
where
A: Atomicity,
{
fn process(&mut self, t: Tendril<fmt::UTF8, A>) {
self.tendrils.push(t);
}
fn error(&mut self, desc: Cow<'static, str>) {
self.errors.push(desc.into_owned());
}
type Output = (Vec<Tendril<fmt::UTF8, A>>, Vec<String>);
fn finish(self) -> Self::Output {
(self.tendrils, self.errors)
}
}
fn check_utf8(input: &[&[u8]], expected: &[&str], errs: usize) {
let decoder = Utf8LossyDecoder::new(Accumulate::<NonAtomic>::new());
let (tendrils, errors) = decoder.from_iter(input.iter().cloned());
assert_eq!(
expected,
&*tendrils.iter().map(|t| &**t).collect::<Vec<_>>()
);
assert_eq!(errs, errors.len());
}
#[test]
fn utf8() {
check_utf8(&[], &[], 0);
check_utf8(&[b""], &[], 0);
check_utf8(&[b"xyz"], &["xyz"], 0);
check_utf8(&[b"x", b"y", b"z"], &["x", "y", "z"], 0);
check_utf8(&[b"xy\xEA\x99\xAEzw"], &["xy\u{a66e}zw"], 0);
check_utf8(&[b"xy\xEA", b"\x99\xAEzw"], &["xy", "\u{a66e}z", "w"], 0);
check_utf8(&[b"xy\xEA\x99", b"\xAEzw"], &["xy", "\u{a66e}z", "w"], 0);
check_utf8(
&[b"xy\xEA", b"\x99", b"\xAEzw"],
&["xy", "\u{a66e}z", "w"],
0,
);
check_utf8(&[b"\xEA", b"", b"\x99", b"", b"\xAE"], &["\u{a66e}"], 0);
check_utf8(
&[b"", b"\xEA", b"", b"\x99", b"", b"\xAE", b""],
&["\u{a66e}"],
0,
);
check_utf8(
&[b"xy\xEA", b"\xFF", b"\x99\xAEz"],
&["xy", "\u{fffd}", "\u{fffd}", "\u{fffd}", "\u{fffd}", "z"],
4,
);
check_utf8(
&[b"xy\xEA\x99", b"\xFFz"],
&["xy", "\u{fffd}", "\u{fffd}", "z"],
2,
);
check_utf8(&[b"\xC5\x91\xC5\x91\xC5\x91"], &["őőő"], 0);
check_utf8(
&[b"\xC5\x91", b"\xC5\x91", b"\xC5\x91"],
&["ő", "ő", "ő"],
0,
);
check_utf8(
&[b"\xC5", b"\x91\xC5", b"\x91\xC5", b"\x91"],
&["ő", "ő", "ő"],
0,
);
check_utf8(
&[b"\xC5", b"\x91\xff", b"\x91\xC5", b"\x91"],
&["ő", "\u{fffd}", "\u{fffd}", "ő"],
2,
);
// incomplete char at end of input
check_utf8(&[b"\xC0"], &["\u{fffd}"], 1);
check_utf8(&[b"\xEA\x99"], &["\u{fffd}"], 1);
}
#[cfg(any(feature = "encoding", feature = "encoding_rs"))]
fn check_decode(
mut decoder: LossyDecoder<Accumulate<NonAtomic>>,
input: &[&[u8]],
expected: &str,
errs: usize,
) {
for x in input {
decoder.process(x.to_tendril());
}
let (tendrils, errors) = decoder.finish();
let mut tendril: Tendril<fmt::UTF8> = Tendril::new();
for t in tendrils {
tendril.push_tendril(&t);
}
assert_eq!(expected, &*tendril);
assert_eq!(errs, errors.len());
}
#[cfg(any(feature = "encoding", feature = "encoding_rs"))]
pub type Tests = &'static [(&'static [&'static [u8]], &'static str, usize)];
#[cfg(any(feature = "encoding"))]
const ASCII: Tests = &[
(&[], "", 0),
(&[b""], "", 0),
(&[b"xyz"], "xyz", 0),
(&[b"xy", b"", b"", b"z"], "xyz", 0),
(&[b"x", b"y", b"z"], "xyz", 0),
(&[b"\xFF"], "\u{fffd}", 1),
(&[b"x\xC0yz"], "x\u{fffd}yz", 1),
(&[b"x", b"\xC0y", b"z"], "x\u{fffd}yz", 1),
(&[b"x\xC0yz\xFF\xFFw"], "x\u{fffd}yz\u{fffd}\u{fffd}w", 3),
];
#[cfg(feature = "encoding")]
#[test]
fn decode_ascii() {
for &(input, expected, errs) in ASCII {
let decoder = LossyDecoder::new(enc::ASCII, Accumulate::new());
check_decode(decoder, input, expected, errs);
}
}
#[cfg(any(feature = "encoding", feature = "encoding_rs"))]
const UTF_8: Tests = &[
(&[], "", 0),
(&[b""], "", 0),
(&[b"xyz"], "xyz", 0),
(&[b"x", b"y", b"z"], "xyz", 0),
(&[b"\xEA\x99\xAE"], "\u{a66e}", 0),
(&[b"\xEA", b"\x99\xAE"], "\u{a66e}", 0),
(&[b"\xEA\x99", b"\xAE"], "\u{a66e}", 0),
(&[b"\xEA", b"\x99", b"\xAE"], "\u{a66e}", 0),
(&[b"\xEA", b"", b"\x99", b"", b"\xAE"], "\u{a66e}", 0),
(
&[b"", b"\xEA", b"", b"\x99", b"", b"\xAE", b""],
"\u{a66e}",
0,
),
(&[b"xy\xEA", b"\x99\xAEz"], "xy\u{a66e}z", 0),
(
&[b"xy\xEA", b"\xFF", b"\x99\xAEz"],
"xy\u{fffd}\u{fffd}\u{fffd}\u{fffd}z",
4,
),
(&[b"xy\xEA\x99", b"\xFFz"], "xy\u{fffd}\u{fffd}z", 2),
// incomplete char at end of input
(&[b"\xC0"], "\u{fffd}", 1),
(&[b"\xEA\x99"], "\u{fffd}", 1),
];
#[cfg(feature = "encoding")]
#[test]
fn decode_utf8() {
for &(input, expected, errs) in UTF_8 {
let decoder = LossyDecoder::new(enc::UTF_8, Accumulate::new());
check_decode(decoder, input, expected, errs);
}
}
#[cfg(feature = "encoding_rs")]
#[test]
fn decode_utf8_encoding_rs() {
for &(input, expected, errs) in UTF_8 {
let decoder = LossyDecoder::new_encoding_rs(enc_rs::UTF_8, Accumulate::new());
check_decode(decoder, input, expected, errs);
}
}
#[cfg(any(feature = "encoding", feature = "encoding_rs"))]
const KOI8_U: Tests = &[
(&[b"\xfc\xce\xc5\xd2\xc7\xc9\xd1"], "Энергия", 0),
(&[b"\xfc\xce", b"\xc5\xd2\xc7\xc9\xd1"], "Энергия", 0),
(&[b"\xfc\xce", b"\xc5\xd2\xc7", b"\xc9\xd1"], "Энергия", 0),
(
&[b"\xfc\xce", b"", b"\xc5\xd2\xc7", b"\xc9\xd1", b""],
"Энергия",
0,
),
];
#[cfg(feature = "encoding")]
#[test]
fn decode_koi8_u() {
for &(input, expected, errs) in KOI8_U {
let decoder = LossyDecoder::new(enc::KOI8_U, Accumulate::new());
check_decode(decoder, input, expected, errs);
}
}
#[cfg(feature = "encoding_rs")]
#[test]
fn decode_koi8_u_encoding_rs() {
for &(input, expected, errs) in KOI8_U {
let decoder = LossyDecoder::new_encoding_rs(enc_rs::KOI8_U, Accumulate::new());
check_decode(decoder, input, expected, errs);
}
}
#[cfg(any(feature = "encoding", feature = "encoding_rs"))]
const WINDOWS_949: Tests = &[
(&[], "", 0),
(&[b""], "", 0),
(&[b"\xbe\xc8\xb3\xe7"], "안녕", 0),
(&[b"\xbe", b"\xc8\xb3\xe7"], "안녕", 0),
(&[b"\xbe", b"", b"\xc8\xb3\xe7"], "안녕", 0),
(
&[b"\xbe\xc8\xb3\xe7\xc7\xcf\xbc\xbc\xbf\xe4"],
"안녕하세요",
0,
),
(&[b"\xbe\xc8\xb3\xe7\xc7"], "안녕\u{fffd}", 1),
(&[b"\xbe", b"", b"\xc8\xb3"], "안\u{fffd}", 1),
(&[b"\xbe\x28\xb3\xe7"], "\u{fffd}(녕", 1),
];
#[cfg(feature = "encoding")]
#[test]
fn decode_windows_949() {
for &(input, expected, errs) in WINDOWS_949 {
let decoder = LossyDecoder::new(enc::WINDOWS_949, Accumulate::new());
check_decode(decoder, input, expected, errs);
}
}
#[cfg(feature = "encoding_rs")]
#[test]
fn decode_windows_949_encoding_rs() {
for &(input, expected, errs) in WINDOWS_949 {
let decoder = LossyDecoder::new_encoding_rs(enc_rs::EUC_KR, Accumulate::new());
check_decode(decoder, input, expected, errs);
}
}
#[test]
fn read_from() {
let decoder = Utf8LossyDecoder::new(Accumulate::<NonAtomic>::new());
let mut bytes: &[u8] = b"foo\xffbar";
let (tendrils, errors) = decoder.read_from(&mut bytes).unwrap();
assert_eq!(
&*tendrils.iter().map(|t| &**t).collect::<Vec<_>>(),
&["foo", "\u{FFFD}", "bar"]
);
assert_eq!(errors, &["invalid byte sequence"]);
}
}
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