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//! A reader that manages namespace declarations found in the input and able
//! to resolve [qualified names] to [expanded names].
//!
//! [qualified names]: https://www.w3.org/TR/xml-names11/#dt-qualname
//! [expanded names]: https://www.w3.org/TR/xml-names11/#dt-expname
use std::borrow::Cow;
use std::fs::File;
use std::io::{BufRead, BufReader};
use std::ops::Deref;
use std::path::Path;
use crate::errors::Result;
use crate::events::Event;
use crate::name::{LocalName, NamespaceResolver, QName, ResolveResult};
use crate::reader::{Reader, Span, XmlSource};
/// A low level encoding-agnostic XML event reader that performs namespace resolution.
///
/// Consumes a [`BufRead`] and streams XML `Event`s.
pub struct NsReader<R> {
/// An XML reader
pub(super) reader: Reader<R>,
/// A buffer to manage namespaces
ns_resolver: NamespaceResolver,
/// We cannot pop data from the namespace stack until returned `Empty` or `End`
/// event will be processed by the user, so we only mark that we should that
/// in the next [`Self::read_event_impl()`] call.
pending_pop: bool,
}
/// Builder methods
impl<R> NsReader<R> {
/// Creates a `NsReader` that reads from a reader.
#[inline]
pub fn from_reader(reader: R) -> Self {
Self::new(Reader::from_reader(reader))
}
configure_methods!(reader);
}
/// Private methods
impl<R> NsReader<R> {
#[inline]
fn new(reader: Reader<R>) -> Self {
Self {
reader,
ns_resolver: NamespaceResolver::default(),
pending_pop: false,
}
}
fn read_event_impl<'i, B>(&mut self, buf: B) -> Result<Event<'i>>
where
R: XmlSource<'i, B>,
{
self.pop();
let event = self.reader.read_event_impl(buf);
self.process_event(event)
}
pub(super) fn pop(&mut self) {
if self.pending_pop {
self.ns_resolver.pop();
self.pending_pop = false;
}
}
pub(super) fn process_event<'i>(&mut self, event: Result<Event<'i>>) -> Result<Event<'i>> {
match event {
Ok(Event::Start(e)) => {
self.ns_resolver.push(&e)?;
Ok(Event::Start(e))
}
Ok(Event::Empty(e)) => {
self.ns_resolver.push(&e)?;
// notify next `read_event_impl()` invocation that it needs to pop this
// namespace scope
self.pending_pop = true;
Ok(Event::Empty(e))
}
Ok(Event::End(e)) => {
// notify next `read_event_impl()` invocation that it needs to pop this
// namespace scope
self.pending_pop = true;
Ok(Event::End(e))
}
e => e,
}
}
pub(super) fn resolve_event<'i>(
&mut self,
event: Result<Event<'i>>,
) -> Result<(ResolveResult, Event<'i>)> {
match event {
Ok(Event::Start(e)) => Ok((self.ns_resolver.find(e.name()), Event::Start(e))),
Ok(Event::Empty(e)) => Ok((self.ns_resolver.find(e.name()), Event::Empty(e))),
Ok(Event::End(e)) => Ok((self.ns_resolver.find(e.name()), Event::End(e))),
Ok(e) => Ok((ResolveResult::Unbound, e)),
Err(e) => Err(e),
}
}
}
/// Getters
impl<R> NsReader<R> {
/// Consumes `NsReader` returning the underlying reader
///
/// See the [`Reader::into_inner`] for examples
#[inline]
pub fn into_inner(self) -> R {
self.reader.into_inner()
}
/// Gets a mutable reference to the underlying reader.
pub fn get_mut(&mut self) -> &mut R {
self.reader.get_mut()
}
/// Resolves a potentially qualified **element name** or **attribute name**
/// into _(namespace name, local name)_.
///
/// _Qualified_ names have the form `prefix:local-name` where the `prefix`
/// is defined on any containing XML element via `xmlns:prefix="the:namespace:uri"`.
/// The namespace prefix can be defined on the same element as the name in question.
///
/// The method returns following results depending on the `name` shape,
/// `attribute` flag and the presence of the default namespace:
///
/// |attribute|`xmlns="..."`|QName |ResolveResult |LocalName
/// |---------|-------------|-------------------|-----------------------|------------
/// |`true` |Not defined |`local-name` |[`Unbound`] |`local-name`
/// |`true` |Defined |`local-name` |[`Unbound`] |`local-name`
/// |`true` |_any_ |`prefix:local-name`|[`Bound`] / [`Unknown`]|`local-name`
/// |`false` |Not defined |`local-name` |[`Unbound`] |`local-name`
/// |`false` |Defined |`local-name` |[`Bound`] (default) |`local-name`
/// |`false` |_any_ |`prefix:local-name`|[`Bound`] / [`Unknown`]|`local-name`
///
/// If you want to clearly indicate that name that you resolve is an element
/// or an attribute name, you could use [`resolve_attribute()`] or [`resolve_element()`]
/// methods.
///
/// # Lifetimes
///
/// - `'n`: lifetime of a name. Returned local name will be bound to the same
/// lifetime as the name in question.
/// - returned namespace name will be bound to the reader itself
///
/// [`Bound`]: ResolveResult::Bound
/// [`Unbound`]: ResolveResult::Unbound
/// [`Unknown`]: ResolveResult::Unknown
/// [`resolve_attribute()`]: Self::resolve_attribute()
/// [`resolve_element()`]: Self::resolve_element()
#[inline]
pub fn resolve<'n>(&self, name: QName<'n>, attribute: bool) -> (ResolveResult, LocalName<'n>) {
self.ns_resolver.resolve(name, !attribute)
}
/// Resolves a potentially qualified **element name** into _(namespace name, local name)_.
///
/// _Qualified_ element names have the form `prefix:local-name` where the
/// `prefix` is defined on any containing XML element via `xmlns:prefix="the:namespace:uri"`.
/// The namespace prefix can be defined on the same element as the element
/// in question.
///
/// _Unqualified_ elements inherits the current _default namespace_.
///
/// The method returns following results depending on the `name` shape and
/// the presence of the default namespace:
///
/// |`xmlns="..."`|QName |ResolveResult |LocalName
/// |-------------|-------------------|-----------------------|------------
/// |Not defined |`local-name` |[`Unbound`] |`local-name`
/// |Defined |`local-name` |[`Bound`] (default) |`local-name`
/// |_any_ |`prefix:local-name`|[`Bound`] / [`Unknown`]|`local-name`
///
/// # Lifetimes
///
/// - `'n`: lifetime of an element name. Returned local name will be bound
/// to the same lifetime as the name in question.
/// - returned namespace name will be bound to the reader itself
///
/// # Examples
///
/// This example shows how you can resolve qualified name into a namespace.
/// Note, that in the code like this you do not need to do that manually,
/// because the namespace resolution result returned by the [`read_resolved_event()`].
///
/// ```
/// # use pretty_assertions::assert_eq;
/// use quick_xml::events::Event;
/// use quick_xml::name::{Namespace, QName, ResolveResult::*};
/// use quick_xml::reader::NsReader;
///
/// let mut reader = NsReader::from_str("<tag xmlns='root namespace'/>");
///
/// match reader.read_event().unwrap() {
/// Event::Empty(e) => assert_eq!(
/// reader.resolve_element(e.name()),
/// (Bound(Namespace(b"root namespace")), QName(b"tag").into())
/// ),
/// _ => unreachable!(),
/// }
/// ```
///
/// [`Bound`]: ResolveResult::Bound
/// [`Unbound`]: ResolveResult::Unbound
/// [`Unknown`]: ResolveResult::Unknown
/// [`read_resolved_event()`]: Self::read_resolved_event
#[inline]
pub fn resolve_element<'n>(&self, name: QName<'n>) -> (ResolveResult, LocalName<'n>) {
self.ns_resolver.resolve(name, true)
}
/// Resolves a potentially qualified **attribute name** into _(namespace name, local name)_.
///
/// _Qualified_ attribute names have the form `prefix:local-name` where the
/// `prefix` is defined on any containing XML element via `xmlns:prefix="the:namespace:uri"`.
/// The namespace prefix can be defined on the same element as the attribute
/// in question.
///
/// _Unqualified_ attribute names do *not* inherit the current _default namespace_.
///
/// The method returns following results depending on the `name` shape and
/// the presence of the default namespace:
///
/// |`xmlns="..."`|QName |ResolveResult |LocalName
/// |-------------|-------------------|-----------------------|------------
/// |Not defined |`local-name` |[`Unbound`] |`local-name`
/// |Defined |`local-name` |[`Unbound`] |`local-name`
/// |_any_ |`prefix:local-name`|[`Bound`] / [`Unknown`]|`local-name`
///
/// # Lifetimes
///
/// - `'n`: lifetime of an attribute name. Returned local name will be bound
/// to the same lifetime as the name in question.
/// - returned namespace name will be bound to the reader itself
///
/// # Examples
///
/// ```
/// # use pretty_assertions::assert_eq;
/// use quick_xml::events::Event;
/// use quick_xml::events::attributes::Attribute;
/// use quick_xml::name::{Namespace, QName, ResolveResult::*};
/// use quick_xml::reader::NsReader;
///
/// let mut reader = NsReader::from_str("
/// <tag one='1'
/// p:two='2'
/// xmlns='root namespace'
/// xmlns:p='other namespace'/>
/// ");
/// reader.trim_text(true);
///
/// match reader.read_event().unwrap() {
/// Event::Empty(e) => {
/// let mut iter = e.attributes();
///
/// // Unlike elements, attributes without explicit namespace
/// // not bound to any namespace
/// let one = iter.next().unwrap().unwrap();
/// assert_eq!(
/// reader.resolve_attribute(one.key),
/// (Unbound, QName(b"one").into())
/// );
///
/// let two = iter.next().unwrap().unwrap();
/// assert_eq!(
/// reader.resolve_attribute(two.key),
/// (Bound(Namespace(b"other namespace")), QName(b"two").into())
/// );
/// }
/// _ => unreachable!(),
/// }
/// ```
///
/// [`Bound`]: ResolveResult::Bound
/// [`Unbound`]: ResolveResult::Unbound
/// [`Unknown`]: ResolveResult::Unknown
#[inline]
pub fn resolve_attribute<'n>(&self, name: QName<'n>) -> (ResolveResult, LocalName<'n>) {
self.ns_resolver.resolve(name, false)
}
}
impl<R: BufRead> NsReader<R> {
/// Reads the next event into given buffer.
///
/// This method manages namespaces but doesn't resolve them automatically.
/// You should call [`resolve_element()`] if you want to get a namespace.
///
/// You also can use [`read_resolved_event_into()`] instead if you want to resolve
/// namespace as soon as you get an event.
///
/// # Examples
///
/// ```
/// # use pretty_assertions::assert_eq;
/// use quick_xml::events::Event;
/// use quick_xml::name::{Namespace, ResolveResult::*};
/// use quick_xml::reader::NsReader;
///
/// let mut reader = NsReader::from_str(r#"
/// <x:tag1 xmlns:x="www.xxxx" xmlns:y="www.yyyy" att1 = "test">
/// <y:tag2><!--Test comment-->Test</y:tag2>
/// <y:tag2>Test 2</y:tag2>
/// </x:tag1>
/// "#);
/// reader.trim_text(true);
///
/// let mut count = 0;
/// let mut buf = Vec::new();
/// let mut txt = Vec::new();
/// loop {
/// match reader.read_event_into(&mut buf).unwrap() {
/// Event::Start(e) => {
/// count += 1;
/// let (ns, local) = reader.resolve_element(e.name());
/// match local.as_ref() {
/// b"tag1" => assert_eq!(ns, Bound(Namespace(b"www.xxxx"))),
/// b"tag2" => assert_eq!(ns, Bound(Namespace(b"www.yyyy"))),
/// _ => unreachable!(),
/// }
/// }
/// Event::Text(e) => {
/// txt.push(e.unescape().unwrap().into_owned())
/// }
/// Event::Eof => break,
/// _ => (),
/// }
/// buf.clear();
/// }
/// assert_eq!(count, 3);
/// assert_eq!(txt, vec!["Test".to_string(), "Test 2".to_string()]);
/// ```
///
/// [`resolve_element()`]: Self::resolve_element
/// [`read_resolved_event_into()`]: Self::read_resolved_event_into
#[inline]
pub fn read_event_into<'b>(&mut self, buf: &'b mut Vec<u8>) -> Result<Event<'b>> {
self.read_event_impl(buf)
}
/// Reads the next event into given buffer and resolves its namespace (if applicable).
///
/// Namespace is resolved only for [`Start`], [`Empty`] and [`End`] events.
/// For all other events the concept of namespace is not defined, so
/// a [`ResolveResult::Unbound`] is returned.
///
/// If you are not interested in namespaces, you can use [`read_event_into()`]
/// which will not automatically resolve namespaces for you.
///
/// # Examples
///
/// ```
/// # use pretty_assertions::assert_eq;
/// use quick_xml::events::Event;
/// use quick_xml::name::{Namespace, QName, ResolveResult::*};
/// use quick_xml::reader::NsReader;
///
/// let mut reader = NsReader::from_str(r#"
/// <x:tag1 xmlns:x="www.xxxx" xmlns:y="www.yyyy" att1 = "test">
/// <y:tag2><!--Test comment-->Test</y:tag2>
/// <y:tag2>Test 2</y:tag2>
/// </x:tag1>
/// "#);
/// reader.trim_text(true);
///
/// let mut count = 0;
/// let mut buf = Vec::new();
/// let mut txt = Vec::new();
/// loop {
/// match reader.read_resolved_event_into(&mut buf).unwrap() {
/// (Bound(Namespace(b"www.xxxx")), Event::Start(e)) => {
/// count += 1;
/// assert_eq!(e.local_name(), QName(b"tag1").into());
/// }
/// (Bound(Namespace(b"www.yyyy")), Event::Start(e)) => {
/// count += 1;
/// assert_eq!(e.local_name(), QName(b"tag2").into());
/// }
/// (_, Event::Start(_)) => unreachable!(),
///
/// (_, Event::Text(e)) => {
/// txt.push(e.unescape().unwrap().into_owned())
/// }
/// (_, Event::Eof) => break,
/// _ => (),
/// }
/// buf.clear();
/// }
/// assert_eq!(count, 3);
/// assert_eq!(txt, vec!["Test".to_string(), "Test 2".to_string()]);
/// ```
///
/// [`Start`]: Event::Start
/// [`Empty`]: Event::Empty
/// [`End`]: Event::End
/// [`read_event_into()`]: Self::read_event_into
#[inline]
pub fn read_resolved_event_into<'b>(
&mut self,
buf: &'b mut Vec<u8>,
) -> Result<(ResolveResult, Event<'b>)> {
let event = self.read_event_impl(buf);
self.resolve_event(event)
}
/// Reads until end element is found using provided buffer as intermediate
/// storage for events content. 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 corresponding [`End`] event will not be found, the [`UnexpectedEof`]
/// will be returned. In particularly, that error will be returned if you call
/// this method without consuming the corresponding [`Start`] event first.
///
/// If your reader created from a string slice or byte array slice, it is
/// better to use [`read_to_end()`] method, because it will not copy bytes
/// into intermediate buffer.
///
/// The provided `buf` buffer will be filled only by one event content at time.
/// Before reading of each event the buffer will be cleared. If you know an
/// appropriate size of each event, you can preallocate the buffer to reduce
/// number of reallocations.
///
/// 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.
///
/// # Namespaces
///
/// While the `NsReader` does 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::name::{Namespace, ResolveResult};
/// use quick_xml::reader::NsReader;
///
/// let mut reader = NsReader::from_str(r#"
/// <outer xmlns="namespace 1">
/// <inner xmlns="namespace 2">
/// <outer></outer>
/// </inner>
/// <inner>
/// <inner></inner>
/// <inner/>
/// <outer></outer>
/// <p:outer xmlns:p="ns"></p:outer>
/// <outer/>
/// </inner>
/// </outer>
/// "#);
/// reader.trim_text(true);
/// let mut buf = Vec::new();
///
/// let ns = Namespace(b"namespace 1");
/// let start = BytesStart::from_content(r#"outer xmlns="namespace 1""#, 5);
/// let end = start.to_end().into_owned();
///
/// // First, we read a start event...
/// assert_eq!(
/// reader.read_resolved_event_into(&mut buf).unwrap(),
/// (ResolveResult::Bound(ns), 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_into(end.name(), &mut buf).unwrap();
///
/// // At the end we should get an Eof event, because we ate the whole XML
/// assert_eq!(
/// reader.read_resolved_event_into(&mut buf).unwrap(),
/// (ResolveResult::Unbound, Event::Eof)
/// );
/// ```
///
/// [`Start`]: Event::Start
/// [`End`]: Event::End
/// [`UnexpectedEof`]: crate::errors::Error::UnexpectedEof
/// [`read_to_end()`]: Self::read_to_end
/// [`BytesStart::to_end()`]: crate::events::BytesStart::to_end
/// [`expand_empty_elements`]: Self::expand_empty_elements
/// [the specification]: https://www.w3.org/TR/xml11/#dt-etag
#[inline]
pub fn read_to_end_into(&mut self, end: QName, buf: &mut Vec<u8>) -> Result<Span> {
// According to the https://www.w3.org/TR/xml11/#dt-etag, end name should
// match literally the start name. See `Self::check_end_names` documentation
self.reader.read_to_end_into(end, buf)
}
}
impl NsReader<BufReader<File>> {
/// Creates an XML reader from a file path.
pub fn from_file<P: AsRef<Path>>(path: P) -> Result<Self> {
Ok(Self::new(Reader::from_file(path)?))
}
}
impl<'i> NsReader<&'i [u8]> {
/// Creates an XML reader from a string slice.
#[inline]
#[allow(clippy::should_implement_trait)]
pub fn from_str(s: &'i str) -> Self {
Self::new(Reader::from_str(s))
}
/// Reads the next event, borrow its content from the input buffer.
///
/// This method manages namespaces but doesn't resolve them automatically.
/// You should call [`resolve_element()`] if you want to get a namespace.
///
/// You also can use [`read_resolved_event()`] instead if you want to resolve namespace
/// as soon as you get an event.
///
/// 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::name::{Namespace, ResolveResult::*};
/// use quick_xml::reader::NsReader;
///
/// let mut reader = NsReader::from_str(r#"
/// <x:tag1 xmlns:x="www.xxxx" xmlns:y="www.yyyy" att1 = "test">
/// <y:tag2><!--Test comment-->Test</y:tag2>
/// <y:tag2>Test 2</y:tag2>
/// </x:tag1>
/// "#);
/// reader.trim_text(true);
///
/// let mut count = 0;
/// let mut txt = Vec::new();
/// loop {
/// match reader.read_event().unwrap() {
/// Event::Start(e) => {
/// count += 1;
/// let (ns, local) = reader.resolve_element(e.name());
/// match local.as_ref() {
/// b"tag1" => assert_eq!(ns, Bound(Namespace(b"www.xxxx"))),
/// b"tag2" => assert_eq!(ns, Bound(Namespace(b"www.yyyy"))),
/// _ => unreachable!(),
/// }
/// }
/// 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()]);
/// ```
///
/// [`resolve_element()`]: Self::resolve_element
/// [`read_resolved_event()`]: Self::read_resolved_event
#[inline]
pub fn read_event(&mut self) -> Result<Event<'i>> {
self.read_event_impl(())
}
/// Reads the next event, borrow its content from the input buffer, and resolves
/// its namespace (if applicable).
///
/// Namespace is resolved only for [`Start`], [`Empty`] and [`End`] events.
/// For all other events the concept of namespace is not defined, so
/// a [`ResolveResult::Unbound`] is returned.
///
/// If you are not interested in namespaces, you can use [`read_event()`]
/// which will not automatically resolve namespaces for you.
///
/// There is no asynchronous `read_resolved_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::name::{Namespace, QName, ResolveResult::*};
/// use quick_xml::reader::NsReader;
///
/// let mut reader = NsReader::from_str(r#"
/// <x:tag1 xmlns:x="www.xxxx" xmlns:y="www.yyyy" att1 = "test">
/// <y:tag2><!--Test comment-->Test</y:tag2>
/// <y:tag2>Test 2</y:tag2>
/// </x:tag1>
/// "#);
/// reader.trim_text(true);
///
/// let mut count = 0;
/// let mut txt = Vec::new();
/// loop {
/// match reader.read_resolved_event().unwrap() {
/// (Bound(Namespace(b"www.xxxx")), Event::Start(e)) => {
/// count += 1;
/// assert_eq!(e.local_name(), QName(b"tag1").into());
/// }
/// (Bound(Namespace(b"www.yyyy")), Event::Start(e)) => {
/// count += 1;
/// assert_eq!(e.local_name(), QName(b"tag2").into());
/// }
/// (_, Event::Start(_)) => unreachable!(),
///
/// (_, 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()]);
/// ```
///
/// [`Start`]: Event::Start
/// [`Empty`]: Event::Empty
/// [`End`]: Event::End
/// [`read_event()`]: Self::read_event
#[inline]
pub fn read_resolved_event(&mut self) -> Result<(ResolveResult, Event<'i>)> {
let event = self.read_event_impl(());
self.resolve_event(event)
}
/// 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 corresponding [`End`] event will not be found, the [`UnexpectedEof`]
/// 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.
///
/// 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 `NsReader` does 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::name::{Namespace, ResolveResult};
/// use quick_xml::reader::NsReader;
///
/// let mut reader = NsReader::from_str(r#"
/// <outer xmlns="namespace 1">
/// <inner xmlns="namespace 2">
/// <outer></outer>
/// </inner>
/// <inner>
/// <inner></inner>
/// <inner/>
/// <outer></outer>
/// <p:outer xmlns:p="ns"></p:outer>
/// <outer/>
/// </inner>
/// </outer>
/// "#);
/// reader.trim_text(true);
///
/// let ns = Namespace(b"namespace 1");
/// let start = BytesStart::from_content(r#"outer xmlns="namespace 1""#, 5);
/// let end = start.to_end().into_owned();
///
/// // First, we read a start event...
/// assert_eq!(
/// reader.read_resolved_event().unwrap(),
/// (ResolveResult::Bound(ns), 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_resolved_event().unwrap(),
/// (ResolveResult::Unbound, Event::Eof)
/// );
/// ```
///
/// [`Start`]: Event::Start
/// [`End`]: Event::End
/// [`UnexpectedEof`]: crate::errors::Error::UnexpectedEof
/// [`BytesStart::to_end()`]: crate::events::BytesStart::to_end
/// [`expand_empty_elements`]: Self::expand_empty_elements
/// [the specification]: https://www.w3.org/TR/xml11/#dt-etag
#[inline]
pub fn read_to_end(&mut self, end: QName) -> Result<Span> {
// According to the https://www.w3.org/TR/xml11/#dt-etag, end name should
// match literally the start name. See `Self::check_end_names` documentation
self.reader.read_to_end(end)
}
/// 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::NsReader;
///
/// let mut reader = NsReader::from_str(r#"
/// <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.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.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"
/// "#));
///
/// // Now we can enable checks again
/// reader.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()`]: Reader::decoder()
#[inline]
pub fn read_text(&mut self, end: QName) -> Result<Cow<'i, str>> {
self.reader.read_text(end)
}
}
impl<R> Deref for NsReader<R> {
type Target = Reader<R>;
#[inline]
fn deref(&self) -> &Self::Target {
&self.reader
}
}