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//! This is an implementation of [`Reader`] for reading from a `&[u8]` as
//! underlying byte stream. This implementation supports not using an
//! intermediate buffer as the byte slice itself can be used to borrow from.
use std::borrow::Cow;
use std::io;
#[cfg(feature = "encoding")]
use crate::reader::EncodingRef;
#[cfg(feature = "encoding")]
use encoding_rs::{Encoding, UTF_8};
use crate::errors::{Error, Result};
use crate::events::Event;
use crate::name::QName;
use crate::parser::Parser;
use crate::reader::{BangType, ReadTextResult, Reader, Span, XmlSource};
use crate::utils::is_whitespace;
/// This is an implementation for reading from a `&[u8]` as underlying byte stream.
/// This implementation supports not using an intermediate buffer as the byte slice
/// itself can be used to borrow from.
impl<'a> Reader<&'a [u8]> {
/// Creates an XML reader from a string slice.
#[allow(clippy::should_implement_trait)]
pub fn from_str(s: &'a str) -> Self {
// Rust strings are guaranteed to be UTF-8, so lock the encoding
#[cfg(feature = "encoding")]
{
let mut reader = Self::from_reader(s.as_bytes());
reader.state.encoding = EncodingRef::Explicit(UTF_8);
reader
}
#[cfg(not(feature = "encoding"))]
Self::from_reader(s.as_bytes())
}
/// Read an event that borrows from the input rather than a buffer.
///
/// There is no asynchronous `read_event_async()` version of this function,
/// because it is not necessary -- the contents are already in memory and no IO
/// is needed, therefore there is no potential for blocking.
///
/// # Examples
///
/// ```
/// # use pretty_assertions::assert_eq;
/// use quick_xml::events::Event;
/// use quick_xml::reader::Reader;
///
/// let mut reader = Reader::from_str(r#"
/// <tag1 att1 = "test">
/// <tag2><!--Test comment-->Test</tag2>
/// <tag2>Test 2</tag2>
/// </tag1>
/// "#);
/// reader.config_mut().trim_text(true);
///
/// let mut count = 0;
/// let mut txt = Vec::new();
/// loop {
/// match reader.read_event().unwrap() {
/// Event::Start(e) => count += 1,
/// Event::Text(e) => txt.push(e.unescape().unwrap().into_owned()),
/// Event::Eof => break,
/// _ => (),
/// }
/// }
/// assert_eq!(count, 3);
/// assert_eq!(txt, vec!["Test".to_string(), "Test 2".to_string()]);
/// ```
#[inline]
pub fn read_event(&mut self) -> Result<Event<'a>> {
self.read_event_impl(())
}
/// Reads until end element is found. This function is supposed to be called
/// after you already read a [`Start`] event.
///
/// Returns a span that cover content between `>` of an opening tag and `<` of
/// a closing tag or an empty slice, if [`expand_empty_elements`] is set and
/// this method was called after reading expanded [`Start`] event.
///
/// Manages nested cases where parent and child elements have the _literally_
/// same name.
///
/// If a corresponding [`End`] event is not found, an error of type [`Error::IllFormed`]
/// will be returned. In particularly, that error will be returned if you call
/// this method without consuming the corresponding [`Start`] event first.
///
/// The `end` parameter should contain name of the end element _in the reader
/// encoding_. It is good practice to always get that parameter using
/// [`BytesStart::to_end()`] method.
///
/// The correctness of the skipped events does not checked, if you disabled
/// the [`check_end_names`] option.
///
/// There is no asynchronous `read_to_end_async()` version of this function,
/// because it is not necessary -- the contents are already in memory and no IO
/// is needed, therefore there is no potential for blocking.
///
/// # Namespaces
///
/// While the `Reader` does not support namespace resolution, namespaces
/// does not change the algorithm for comparing names. Although the names
/// `a:name` and `b:name` where both prefixes `a` and `b` resolves to the
/// same namespace, are semantically equivalent, `</b:name>` cannot close
/// `<a:name>`, because according to [the specification]
///
/// > The end of every element that begins with a **start-tag** MUST be marked
/// > by an **end-tag** containing a name that echoes the element's type as
/// > given in the **start-tag**
///
/// # Examples
///
/// This example shows, how you can skip XML content after you read the
/// start event.
///
/// ```
/// # use pretty_assertions::assert_eq;
/// use quick_xml::events::{BytesStart, Event};
/// use quick_xml::reader::Reader;
///
/// let mut reader = Reader::from_str(r#"
/// <outer>
/// <inner>
/// <inner></inner>
/// <inner/>
/// <outer></outer>
/// <outer/>
/// </inner>
/// </outer>
/// "#);
/// reader.config_mut().trim_text(true);
///
/// let start = BytesStart::new("outer");
/// let end = start.to_end().into_owned();
///
/// // First, we read a start event...
/// assert_eq!(reader.read_event().unwrap(), Event::Start(start));
///
/// // ...then, we could skip all events to the corresponding end event.
/// // This call will correctly handle nested <outer> elements.
/// // Note, however, that this method does not handle namespaces.
/// reader.read_to_end(end.name()).unwrap();
///
/// // At the end we should get an Eof event, because we ate the whole XML
/// assert_eq!(reader.read_event().unwrap(), Event::Eof);
/// ```
///
/// [`Start`]: Event::Start
/// [`End`]: Event::End
/// [`BytesStart::to_end()`]: crate::events::BytesStart::to_end
/// [`expand_empty_elements`]: crate::reader::Config::expand_empty_elements
/// [`check_end_names`]: crate::reader::Config::check_end_names
/// [the specification]: https://www.w3.org/TR/xml11/#dt-etag
pub fn read_to_end(&mut self, end: QName) -> Result<Span> {
Ok(read_to_end!(self, end, (), read_event_impl, {}))
}
/// Reads content between start and end tags, including any markup. This
/// function is supposed to be called after you already read a [`Start`] event.
///
/// Manages nested cases where parent and child elements have the _literally_
/// same name.
///
/// This method does not unescape read data, instead it returns content
/// "as is" of the XML document. This is because it has no idea what text
/// it reads, and if, for example, it contains CDATA section, attempt to
/// unescape it content will spoil data.
///
/// Any text will be decoded using the XML current [`decoder()`].
///
/// Actually, this method perform the following code:
///
/// ```ignore
/// let span = reader.read_to_end(end)?;
/// let text = reader.decoder().decode(&reader.inner_slice[span]);
/// ```
///
/// # Examples
///
/// This example shows, how you can read a HTML content from your XML document.
///
/// ```
/// # use pretty_assertions::assert_eq;
/// # use std::borrow::Cow;
/// use quick_xml::events::{BytesStart, Event};
/// use quick_xml::reader::Reader;
///
/// let mut reader = Reader::from_str("
/// <html>
/// <title>This is a HTML text</title>
/// <p>Usual XML rules does not apply inside it
/// <p>For example, elements not needed to be "closed"
/// </html>
/// ");
/// reader.config_mut().trim_text(true);
///
/// let start = BytesStart::new("html");
/// let end = start.to_end().into_owned();
///
/// // First, we read a start event...
/// assert_eq!(reader.read_event().unwrap(), Event::Start(start));
/// // ...and disable checking of end names because we expect HTML further...
/// reader.config_mut().check_end_names = false;
///
/// // ...then, we could read text content until close tag.
/// // This call will correctly handle nested <html> elements.
/// let text = reader.read_text(end.name()).unwrap();
/// assert_eq!(text, Cow::Borrowed(r#"
/// <title>This is a HTML text</title>
/// <p>Usual XML rules does not apply inside it
/// <p>For example, elements not needed to be "closed"
/// "#));
/// assert!(matches!(text, Cow::Borrowed(_)));
///
/// // Now we can enable checks again
/// reader.config_mut().check_end_names = true;
///
/// // At the end we should get an Eof event, because we ate the whole XML
/// assert_eq!(reader.read_event().unwrap(), Event::Eof);
/// ```
///
/// [`Start`]: Event::Start
/// [`decoder()`]: Self::decoder()
pub fn read_text(&mut self, end: QName) -> Result<Cow<'a, str>> {
// self.reader will be changed, so store original reference
let buffer = self.reader;
let span = self.read_to_end(end)?;
let len = span.end - span.start;
// SAFETY: `span` can only contain indexes up to usize::MAX because it
// was created from offsets from a single &[u8] slice
self.decoder().decode(&buffer[0..len as usize])
}
}
////////////////////////////////////////////////////////////////////////////////////////////////////
/// Implementation of `XmlSource` for `&[u8]` reader using a `Self` as buffer
/// that will be borrowed by events. This implementation provides a zero-copy deserialization
impl<'a> XmlSource<'a, ()> for &'a [u8] {
#[cfg(not(feature = "encoding"))]
#[inline]
fn remove_utf8_bom(&mut self) -> io::Result<()> {
if self.starts_with(crate::encoding::UTF8_BOM) {
*self = &self[crate::encoding::UTF8_BOM.len()..];
}
Ok(())
}
#[cfg(feature = "encoding")]
#[inline]
fn detect_encoding(&mut self) -> io::Result<Option<&'static Encoding>> {
if let Some((enc, bom_len)) = crate::encoding::detect_encoding(self) {
*self = &self[bom_len..];
return Ok(Some(enc));
}
Ok(None)
}
#[inline]
fn read_text(&mut self, _buf: (), position: &mut u64) -> ReadTextResult<'a, ()> {
match memchr::memchr(b'<', self) {
Some(0) => {
*position += 1;
*self = &self[1..];
ReadTextResult::Markup(())
}
Some(i) => {
*position += i as u64 + 1;
let bytes = &self[..i];
*self = &self[i + 1..];
ReadTextResult::UpToMarkup(bytes)
}
None => {
*position += self.len() as u64;
let bytes = &self[..];
*self = &[];
ReadTextResult::UpToEof(bytes)
}
}
}
#[inline]
fn read_with<P>(&mut self, mut parser: P, _buf: (), position: &mut u64) -> Result<&'a [u8]>
where
P: Parser,
{
if let Some(i) = parser.feed(self) {
// +1 for `>` which we do not include
*position += i as u64 + 1;
let bytes = &self[..i];
*self = &self[i + 1..];
return Ok(bytes);
}
*position += self.len() as u64;
Err(Error::Syntax(P::eof_error()))
}
#[inline]
fn read_bang_element(&mut self, _buf: (), position: &mut u64) -> Result<(BangType, &'a [u8])> {
// Peeked one bang ('!') before being called, so it's guaranteed to
// start with it.
debug_assert_eq!(self[0], b'!');
let mut bang_type = BangType::new(self[1..].first().copied())?;
if let Some((bytes, i)) = bang_type.parse(&[], self) {
*position += i as u64;
*self = &self[i..];
return Ok((bang_type, bytes));
}
*position += self.len() as u64;
Err(bang_type.to_err())
}
#[inline]
fn skip_whitespace(&mut self, position: &mut u64) -> io::Result<()> {
let whitespaces = self
.iter()
.position(|b| !is_whitespace(*b))
.unwrap_or(self.len());
*position += whitespaces as u64;
*self = &self[whitespaces..];
Ok(())
}
#[inline]
fn peek_one(&mut self) -> io::Result<Option<u8>> {
Ok(self.first().copied())
}
}
#[cfg(test)]
mod test {
use crate::reader::test::check;
use crate::reader::XmlSource;
/// Default buffer constructor just pass the byte array from the test
fn identity<T>(input: T) -> T {
input
}
check!(
#[test]
read_event_impl,
read_until_close,
identity,
()
);
}