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xmpp-rs-mirror/minidom/src/element.rs
Maxime “pep” Buquet eb3a62eb7e minidom: clear warning in failure_with_duplicate_namespace test 
Signed-off-by: Maxime “pep” Buquet <pep@bouah.net>
2023-01-15 18:48:21 +01:00

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// Copyright (c) 2020 lumi <lumi@pew.im>
// Copyright (c) 2020 Emmanuel Gil Peyrot <linkmauve@linkmauve.fr>
// Copyright (c) 2020 Bastien Orivel <eijebong+minidom@bananium.fr>
// Copyright (c) 2020 Maxime “pep” Buquet <pep@bouah.net>
// Copyright (c) 2020 Yue Liu <amznyue@amazon.com>
// Copyright (c) 2020 Matt Bilker <me@mbilker.us>
// Copyright (c) 2020 Xidorn Quan <me@upsuper.org>
//
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this
// file, You can obtain one at http://mozilla.org/MPL/2.0/.
//! Provides an `Element` type, which represents DOM nodes, and a builder to create them with.
use crate::convert::IntoAttributeValue;
use crate::error::{Error, Result};
use crate::namespaces::NSChoice;
use crate::node::Node;
use crate::prefixes::{Namespace, Prefix, Prefixes};
use crate::tree_builder::TreeBuilder;
use std::collections::{btree_map, BTreeMap};
use std::convert::{TryFrom, TryInto};
use std::io::{BufRead, Write};
use std::sync::Arc;
use std::borrow::Cow;
use std::str;
use rxml::writer::{Encoder, Item, TrackNamespace};
use rxml::{EventRead, Lexer, PullDriver, RawParser, XmlVersion};
use std::str::FromStr;
use std::slice;
fn encode_and_write<W: Write, T: rxml::writer::TrackNamespace>(
item: Item<'_>,
enc: &mut Encoder<T>,
mut w: W,
) -> rxml::Result<()> {
let mut buf = rxml::bytes::BytesMut::new();
enc.encode_into_bytes(item, &mut buf)
.expect("encoder driven incorrectly");
w.write_all(&buf[..])?;
Ok(())
}
/// Wrapper around a [`std::io::Write`] and an [`rxml::writer::Encoder`], to
/// provide a simple function to write an rxml Item to a writer.
pub struct CustomItemWriter<W, T> {
writer: W,
encoder: Encoder<T>,
}
impl<W: Write> CustomItemWriter<W, rxml::writer::SimpleNamespaces> {
pub(crate) fn new(writer: W) -> Self {
Self {
writer,
encoder: Encoder::new(),
}
}
}
impl<W: Write, T: rxml::writer::TrackNamespace> CustomItemWriter<W, T> {
pub(crate) fn write(&mut self, item: Item<'_>) -> rxml::Result<()> {
encode_and_write(item, &mut self.encoder, &mut self.writer)
}
}
/// Type alias to simplify the use for the default namespace tracking
/// implementation.
pub type ItemWriter<W> = CustomItemWriter<W, rxml::writer::SimpleNamespaces>;
/// helper function to escape a `&[u8]` and replace all
/// xml special characters (<, >, &, ', ") with their corresponding
/// xml escaped value.
pub fn escape(raw: &[u8]) -> Cow<[u8]> {
let mut escapes: Vec<(usize, &'static [u8])> = Vec::new();
let mut bytes = raw.iter();
fn to_escape(b: u8) -> bool {
matches!(b, b'<' | b'>' | b'\'' | b'&' | b'"')
}
let mut loc = 0;
while let Some(i) = bytes.position(|&b| to_escape(b)) {
loc += i;
match raw[loc] {
b'<' => escapes.push((loc, b"&lt;")),
b'>' => escapes.push((loc, b"&gt;")),
b'\'' => escapes.push((loc, b"&apos;")),
b'&' => escapes.push((loc, b"&amp;")),
b'"' => escapes.push((loc, b"&quot;")),
_ => unreachable!("Only '<', '>','\', '&' and '\"' are escaped"),
}
loc += 1;
}
if escapes.is_empty() {
Cow::Borrowed(raw)
} else {
let len = raw.len();
let mut v = Vec::with_capacity(len);
let mut start = 0;
for (i, r) in escapes {
v.extend_from_slice(&raw[start..i]);
v.extend_from_slice(r);
start = i + 1;
}
if start < len {
v.extend_from_slice(&raw[start..]);
}
Cow::Owned(v)
}
}
#[derive(Clone, Eq, Debug)]
/// A struct representing a DOM Element.
pub struct Element {
name: String,
namespace: String,
/// Namespace declarations
pub prefixes: Prefixes,
attributes: BTreeMap<String, String>,
children: Vec<Node>,
}
impl<'a> From<&'a Element> for String {
fn from(elem: &'a Element) -> String {
let mut writer = Vec::new();
elem.write_to(&mut writer).unwrap();
String::from_utf8(writer).unwrap()
}
}
impl FromStr for Element {
type Err = Error;
fn from_str(s: &str) -> Result<Element> {
Element::from_reader(s.as_bytes())
}
}
impl PartialEq for Element {
fn eq(&self, other: &Self) -> bool {
if self.name() == other.name() && self.ns() == other.ns() && self.attrs().eq(other.attrs())
{
self.nodes()
.zip(other.nodes())
.all(|(node1, node2)| node1 == node2)
} else {
false
}
}
}
impl Element {
pub(crate) fn new<P: Into<Prefixes>>(
name: String,
namespace: String,
prefixes: P,
attributes: BTreeMap<String, String>,
children: Vec<Node>,
) -> Element {
Element {
name,
namespace,
prefixes: prefixes.into(),
attributes,
children,
}
}
/// Return a builder for an `Element` with the given `name`.
///
/// # Examples
///
/// ```rust
/// use minidom::Element;
///
/// let elem = Element::builder("name", "namespace")
/// .attr("name", "value")
/// .append("inner")
/// .build();
///
/// assert_eq!(elem.name(), "name");
/// assert_eq!(elem.ns(), "namespace".to_owned());
/// assert_eq!(elem.attr("name"), Some("value"));
/// assert_eq!(elem.attr("inexistent"), None);
/// assert_eq!(elem.text(), "inner");
/// ```
pub fn builder<S: AsRef<str>, NS: Into<String>>(name: S, namespace: NS) -> ElementBuilder {
ElementBuilder {
root: Element::new(
name.as_ref().to_string(),
namespace.into(),
None,
BTreeMap::new(),
Vec::new(),
),
}
}
/// Returns a bare minimum `Element` with this name.
///
/// # Examples
///
/// ```rust
/// use minidom::Element;
///
/// let bare = Element::bare("name", "namespace");
///
/// assert_eq!(bare.name(), "name");
/// assert_eq!(bare.ns(), "namespace");
/// assert_eq!(bare.attr("name"), None);
/// assert_eq!(bare.text(), "");
/// ```
pub fn bare<S: Into<String>, NS: Into<String>>(name: S, namespace: NS) -> Element {
Element::new(
name.into(),
namespace.into(),
None,
BTreeMap::new(),
Vec::new(),
)
}
/// Returns a reference to the local name of this element (that is, without a possible prefix).
pub fn name(&self) -> &str {
&self.name
}
/// Returns a reference to the namespace of this element.
pub fn ns(&self) -> String {
self.namespace.clone()
}
/// Returns a reference to the value of the given attribute, if it exists, else `None`.
pub fn attr(&self, name: &str) -> Option<&str> {
if let Some(value) = self.attributes.get(name) {
return Some(value);
}
None
}
/// Returns an iterator over the attributes of this element.
///
/// # Example
///
/// ```rust
/// use minidom::Element;
///
/// let elm: Element = "<elem xmlns=\"ns1\" a=\"b\" />".parse().unwrap();
///
/// let mut iter = elm.attrs();
///
/// assert_eq!(iter.next().unwrap(), ("a", "b"));
/// assert_eq!(iter.next(), None);
/// ```
pub fn attrs(&self) -> Attrs {
Attrs {
iter: self.attributes.iter(),
}
}
/// Returns an iterator over the attributes of this element, with the value being a mutable
/// reference.
pub fn attrs_mut(&mut self) -> AttrsMut {
AttrsMut {
iter: self.attributes.iter_mut(),
}
}
/// Modifies the value of an attribute.
pub fn set_attr<S: Into<String>, V: IntoAttributeValue>(&mut self, name: S, val: V) {
let name = name.into();
let val = val.into_attribute_value();
if let Some(value) = self.attributes.get_mut(&name) {
*value = val
.expect("removing existing value via set_attr, this is not yet supported (TODO)"); // TODO
return;
}
if let Some(val) = val {
self.attributes.insert(name, val);
}
}
/// Returns whether the element has the given name and namespace.
///
/// # Examples
///
/// ```rust
/// use minidom::{Element, NSChoice};
///
/// let elem = Element::builder("name", "namespace").build();
///
/// assert_eq!(elem.is("name", "namespace"), true);
/// assert_eq!(elem.is("name", "wrong"), false);
/// assert_eq!(elem.is("wrong", "namespace"), false);
/// assert_eq!(elem.is("wrong", "wrong"), false);
///
/// assert_eq!(elem.is("name", NSChoice::OneOf("namespace")), true);
/// assert_eq!(elem.is("name", NSChoice::OneOf("foo")), false);
/// assert_eq!(elem.is("name", NSChoice::AnyOf(&["foo", "namespace"])), true);
/// assert_eq!(elem.is("name", NSChoice::Any), true);
/// ```
pub fn is<'a, N: AsRef<str>, NS: Into<NSChoice<'a>>>(&self, name: N, namespace: NS) -> bool {
self.name == name.as_ref() && namespace.into().compare(self.namespace.as_ref())
}
/// Returns whether the element has the given namespace.
///
/// # Examples
///
/// ```rust
/// use minidom::{Element, NSChoice};
///
/// let elem = Element::builder("name", "namespace").build();
///
/// assert_eq!(elem.has_ns("namespace"), true);
/// assert_eq!(elem.has_ns("wrong"), false);
///
/// assert_eq!(elem.has_ns(NSChoice::OneOf("namespace")), true);
/// assert_eq!(elem.has_ns(NSChoice::OneOf("foo")), false);
/// assert_eq!(elem.has_ns(NSChoice::AnyOf(&["foo", "namespace"])), true);
/// assert_eq!(elem.has_ns(NSChoice::Any), true);
/// ```
pub fn has_ns<'a, NS: Into<NSChoice<'a>>>(&self, namespace: NS) -> bool {
namespace.into().compare(self.namespace.as_ref())
}
/// Parse a document from a `BufRead`.
pub fn from_reader<R: BufRead>(reader: R) -> Result<Element> {
let mut tree_builder = TreeBuilder::new();
let mut driver = PullDriver::wrap(reader, Lexer::new(), RawParser::new());
while let Some(event) = driver.read()? {
tree_builder.process_event(event)?;
if let Some(root) = tree_builder.root.take() {
return Ok(root);
}
}
Err(Error::EndOfDocument)
}
/// Parse a document from a `BufRead`, allowing Prefixes to be specified. Useful to provide
/// knowledge of namespaces that would have been declared on parent elements not present in the
/// reader.
pub fn from_reader_with_prefixes<R: BufRead, P: Into<Prefixes>>(
reader: R,
prefixes: P,
) -> Result<Element> {
let mut tree_builder = TreeBuilder::new().with_prefixes_stack(vec![prefixes.into()]);
let mut driver = PullDriver::wrap(reader, Lexer::new(), RawParser::new());
while let Some(event) = driver.read()? {
tree_builder.process_event(event)?;
if let Some(root) = tree_builder.root.take() {
return Ok(root);
}
}
Err(Error::EndOfDocument)
}
/// Output a document to a `Writer`.
pub fn write_to<W: Write>(&self, writer: &mut W) -> Result<()> {
self.to_writer(&mut ItemWriter::new(writer))
}
/// Output a document to a `Writer`.
pub fn write_to_decl<W: Write>(&self, writer: &mut W) -> Result<()> {
self.to_writer_decl(&mut ItemWriter::new(writer))
}
/// Output the document to an `ItemWriter`
pub fn to_writer<W: Write>(&self, writer: &mut ItemWriter<W>) -> Result<()> {
self.write_to_inner(writer)
}
/// Output the document to an `ItemWriter`
pub fn to_writer_decl<W: Write>(&self, writer: &mut ItemWriter<W>) -> Result<()> {
writer
.write(Item::XmlDeclaration(XmlVersion::V1_0))
.unwrap(); // TODO: error return
self.write_to_inner(writer)
}
/// Like `write_to()` but without the `<?xml?>` prelude
pub fn write_to_inner<W: Write>(&self, writer: &mut ItemWriter<W>) -> Result<()> {
for (prefix, namespace) in self.prefixes.declared_prefixes() {
assert!(writer.encoder.inner_mut().declare_fixed(
prefix.as_ref().map(|x| (&**x).try_into()).transpose()?,
Some(Arc::new(namespace.clone().try_into()?))
));
}
let namespace = if self.namespace.len() == 0 {
None
} else {
Some(Arc::new(self.namespace.clone().try_into()?))
};
writer.write(Item::ElementHeadStart(namespace, (*self.name).try_into()?))?;
for (key, value) in self.attributes.iter() {
let (prefix, name) = <&rxml::NameStr>::try_from(&**key)
.unwrap()
.split_name()
.unwrap();
let namespace = match prefix {
Some(prefix) => match writer.encoder.inner().lookup_prefix(Some(prefix)) {
Ok(v) => Some(v),
Err(rxml::writer::PrefixError::Undeclared) => return Err(Error::InvalidPrefix),
},
None => None,
};
writer.write(Item::Attribute(namespace, name, (&**value).try_into()?))?;
}
if !self.children.is_empty() {
writer.write(Item::ElementHeadEnd)?;
for child in self.children.iter() {
child.write_to_inner(writer)?;
}
}
writer.write(Item::ElementFoot)?;
Ok(())
}
/// Returns an iterator over references to every child node of this element.
///
/// # Examples
///
/// ```rust
/// use minidom::Element;
///
/// let elem: Element = "<root xmlns=\"ns1\">a<c1 />b<c2 />c</root>".parse().unwrap();
///
/// let mut iter = elem.nodes();
///
/// assert_eq!(iter.next().unwrap().as_text().unwrap(), "a");
/// assert_eq!(iter.next().unwrap().as_element().unwrap().name(), "c1");
/// assert_eq!(iter.next().unwrap().as_text().unwrap(), "b");
/// assert_eq!(iter.next().unwrap().as_element().unwrap().name(), "c2");
/// assert_eq!(iter.next().unwrap().as_text().unwrap(), "c");
/// assert_eq!(iter.next(), None);
/// ```
#[inline]
pub fn nodes(&self) -> Nodes {
self.children.iter()
}
/// Returns an iterator over mutable references to every child node of this element.
#[inline]
pub fn nodes_mut(&mut self) -> NodesMut {
self.children.iter_mut()
}
/// Returns an iterator over references to every child element of this element.
///
/// # Examples
///
/// ```rust
/// use minidom::Element;
///
/// let elem: Element = "<root xmlns=\"ns1\">hello<child1 xmlns=\"ns1\"/>this<child2 xmlns=\"ns1\"/>is<child3 xmlns=\"ns1\"/>ignored</root>".parse().unwrap();
///
/// let mut iter = elem.children();
/// assert_eq!(iter.next().unwrap().name(), "child1");
/// assert_eq!(iter.next().unwrap().name(), "child2");
/// assert_eq!(iter.next().unwrap().name(), "child3");
/// assert_eq!(iter.next(), None);
/// ```
#[inline]
pub fn children(&self) -> Children {
Children {
iter: self.children.iter(),
}
}
/// Returns an iterator over mutable references to every child element of this element.
#[inline]
pub fn children_mut(&mut self) -> ChildrenMut {
ChildrenMut {
iter: self.children.iter_mut(),
}
}
/// Returns an iterator over references to every text node of this element.
///
/// # Examples
///
/// ```rust
/// use minidom::Element;
///
/// let elem: Element = "<root xmlns=\"ns1\">hello<c /> world!</root>".parse().unwrap();
///
/// let mut iter = elem.texts();
/// assert_eq!(iter.next().unwrap(), "hello");
/// assert_eq!(iter.next().unwrap(), " world!");
/// assert_eq!(iter.next(), None);
/// ```
#[inline]
pub fn texts(&self) -> Texts {
Texts {
iter: self.children.iter(),
}
}
/// Returns an iterator over mutable references to every text node of this element.
#[inline]
pub fn texts_mut(&mut self) -> TextsMut {
TextsMut {
iter: self.children.iter_mut(),
}
}
/// Appends a child node to the `Element`, returning the appended node.
///
/// # Examples
///
/// ```rust
/// use minidom::Element;
///
/// let mut elem = Element::bare("root", "ns1");
///
/// assert_eq!(elem.children().count(), 0);
///
/// elem.append_child(Element::bare("child", "ns1"));
///
/// {
/// let mut iter = elem.children();
/// assert_eq!(iter.next().unwrap().name(), "child");
/// assert_eq!(iter.next(), None);
/// }
///
/// let child = elem.append_child(Element::bare("new", "ns1"));
///
/// assert_eq!(child.name(), "new");
/// ```
pub fn append_child(&mut self, child: Element) -> &mut Element {
self.children.push(Node::Element(child));
if let Node::Element(ref mut cld) = *self.children.last_mut().unwrap() {
cld
} else {
unreachable!()
}
}
/// Appends a text node to an `Element`.
///
/// # Examples
///
/// ```rust
/// use minidom::Element;
///
/// let mut elem = Element::bare("node", "ns1");
///
/// assert_eq!(elem.text(), "");
///
/// elem.append_text_node("text");
///
/// assert_eq!(elem.text(), "text");
/// ```
pub fn append_text_node<S: Into<String>>(&mut self, child: S) {
self.children.push(Node::Text(child.into()));
}
/// Appends a node to an `Element`.
///
/// # Examples
///
/// ```rust
/// use minidom::{Element, Node};
///
/// let mut elem = Element::bare("node", "ns1");
///
/// elem.append_node(Node::Text("hello".to_owned()));
///
/// assert_eq!(elem.text(), "hello");
/// ```
pub fn append_node(&mut self, node: Node) {
self.children.push(node);
}
/// Returns the concatenation of all text nodes in the `Element`.
///
/// # Examples
///
/// ```rust
/// use minidom::Element;
///
/// let elem: Element = "<node xmlns=\"ns1\">hello,<split /> world!</node>".parse().unwrap();
///
/// assert_eq!(elem.text(), "hello, world!");
/// ```
pub fn text(&self) -> String {
self.texts().fold(String::new(), |ret, new| ret + new)
}
/// Returns a reference to the first child element with the specific name and namespace, if it
/// exists in the direct descendants of this `Element`, else returns `None`.
///
/// # Examples
///
/// ```rust
/// use minidom::{Element, NSChoice};
///
/// let elem: Element = r#"<node xmlns="ns"><a/><a xmlns="other_ns" /><b/></node>"#.parse().unwrap();
/// assert!(elem.get_child("a", "ns").unwrap().is("a", "ns"));
/// assert!(elem.get_child("a", "other_ns").unwrap().is("a", "other_ns"));
/// assert!(elem.get_child("b", "ns").unwrap().is("b", "ns"));
/// assert_eq!(elem.get_child("c", "ns"), None);
/// assert_eq!(elem.get_child("b", "other_ns"), None);
/// assert_eq!(elem.get_child("a", "inexistent_ns"), None);
/// ```
pub fn get_child<'a, N: AsRef<str>, NS: Into<NSChoice<'a>>>(
&self,
name: N,
namespace: NS,
) -> Option<&Element> {
let namespace = namespace.into();
for fork in &self.children {
if let Node::Element(ref e) = *fork {
if e.is(name.as_ref(), namespace) {
return Some(e);
}
}
}
None
}
/// Returns a mutable reference to the first child element with the specific name and namespace,
/// if it exists in the direct descendants of this `Element`, else returns `None`.
pub fn get_child_mut<'a, N: AsRef<str>, NS: Into<NSChoice<'a>>>(
&mut self,
name: N,
namespace: NS,
) -> Option<&mut Element> {
let namespace = namespace.into();
for fork in &mut self.children {
if let Node::Element(ref mut e) = *fork {
if e.is(name.as_ref(), namespace) {
return Some(e);
}
}
}
None
}
/// Returns whether a specific child with this name and namespace exists in the direct
/// descendants of the `Element`.
///
/// # Examples
///
/// ```rust
/// use minidom::{Element, NSChoice};
///
/// let elem: Element = r#"<node xmlns="ns"><a /><a xmlns="other_ns" /><b /></node>"#.parse().unwrap();
/// assert_eq!(elem.has_child("a", "other_ns"), true);
/// assert_eq!(elem.has_child("a", "ns"), true);
/// assert_eq!(elem.has_child("a", "inexistent_ns"), false);
/// assert_eq!(elem.has_child("b", "ns"), true);
/// assert_eq!(elem.has_child("b", "other_ns"), false);
/// assert_eq!(elem.has_child("b", "inexistent_ns"), false);
/// ```
pub fn has_child<'a, N: AsRef<str>, NS: Into<NSChoice<'a>>>(
&self,
name: N,
namespace: NS,
) -> bool {
self.get_child(name, namespace).is_some()
}
/// Removes the first child with this name and namespace, if it exists, and returns an
/// `Option<Element>` containing this child if it succeeds.
/// Returns `None` if no child matches this name and namespace.
///
/// # Examples
///
/// ```rust
/// use minidom::{Element, NSChoice};
///
/// let mut elem: Element = r#"<node xmlns="ns"><a /><a xmlns="other_ns" /><b /></node>"#.parse().unwrap();
/// assert!(elem.remove_child("a", "ns").unwrap().is("a", "ns"));
/// assert!(elem.remove_child("a", "ns").is_none());
/// assert!(elem.remove_child("inexistent", "inexistent").is_none());
/// ```
pub fn remove_child<'a, N: AsRef<str>, NS: Into<NSChoice<'a>>>(
&mut self,
name: N,
namespace: NS,
) -> Option<Element> {
let name = name.as_ref();
let namespace = namespace.into();
let idx = self.children.iter().position(|x| {
if let Node::Element(ref elm) = x {
elm.is(name, namespace)
} else {
false
}
})?;
self.children.remove(idx).into_element()
}
/// Remove the leading nodes up to the first child element and
/// return it
pub fn unshift_child(&mut self) -> Option<Element> {
while self.children.len() > 0 {
if let Some(el) = self.children.remove(0).into_element() {
return Some(el);
}
}
None
}
}
/// An iterator over references to child elements of an `Element`.
pub struct Children<'a> {
iter: slice::Iter<'a, Node>,
}
impl<'a> Iterator for Children<'a> {
type Item = &'a Element;
fn next(&mut self) -> Option<&'a Element> {
for item in &mut self.iter {
if let Node::Element(ref child) = *item {
return Some(child);
}
}
None
}
}
/// An iterator over mutable references to child elements of an `Element`.
pub struct ChildrenMut<'a> {
iter: slice::IterMut<'a, Node>,
}
impl<'a> Iterator for ChildrenMut<'a> {
type Item = &'a mut Element;
fn next(&mut self) -> Option<&'a mut Element> {
for item in &mut self.iter {
if let Node::Element(ref mut child) = *item {
return Some(child);
}
}
None
}
}
/// An iterator over references to child text nodes of an `Element`.
pub struct Texts<'a> {
iter: slice::Iter<'a, Node>,
}
impl<'a> Iterator for Texts<'a> {
type Item = &'a str;
fn next(&mut self) -> Option<&'a str> {
for item in &mut self.iter {
if let Node::Text(ref child) = *item {
return Some(child);
}
}
None
}
}
/// An iterator over mutable references to child text nodes of an `Element`.
pub struct TextsMut<'a> {
iter: slice::IterMut<'a, Node>,
}
impl<'a> Iterator for TextsMut<'a> {
type Item = &'a mut String;
fn next(&mut self) -> Option<&'a mut String> {
for item in &mut self.iter {
if let Node::Text(ref mut child) = *item {
return Some(child);
}
}
None
}
}
/// An iterator over references to all child nodes of an `Element`.
pub type Nodes<'a> = slice::Iter<'a, Node>;
/// An iterator over mutable references to all child nodes of an `Element`.
pub type NodesMut<'a> = slice::IterMut<'a, Node>;
/// An iterator over the attributes of an `Element`.
pub struct Attrs<'a> {
iter: btree_map::Iter<'a, String, String>,
}
impl<'a> Iterator for Attrs<'a> {
type Item = (&'a str, &'a str);
fn next(&mut self) -> Option<Self::Item> {
self.iter.next().map(|(x, y)| (x.as_ref(), y.as_ref()))
}
}
/// An iterator over the attributes of an `Element`, with the values mutable.
pub struct AttrsMut<'a> {
iter: btree_map::IterMut<'a, String, String>,
}
impl<'a> Iterator for AttrsMut<'a> {
type Item = (&'a str, &'a mut String);
fn next(&mut self) -> Option<Self::Item> {
self.iter.next().map(|(x, y)| (x.as_ref(), y))
}
}
/// A builder for `Element`s.
pub struct ElementBuilder {
root: Element,
}
impl ElementBuilder {
/// Sets a custom prefix. It is not possible to set the same prefix twice.
pub fn prefix<S: Into<Namespace>>(
mut self,
prefix: Prefix,
namespace: S,
) -> Result<ElementBuilder> {
if self.root.prefixes.get(&prefix).is_some() {
return Err(Error::DuplicatePrefix);
}
self.root.prefixes.insert(prefix, namespace.into());
Ok(self)
}
/// Sets an attribute.
pub fn attr<S: Into<String>, V: IntoAttributeValue>(
mut self,
name: S,
value: V,
) -> ElementBuilder {
self.root.set_attr(name, value);
self
}
/// Appends anything implementing `Into<Node>` into the tree.
pub fn append<T: Into<Node>>(mut self, node: T) -> ElementBuilder {
self.root.append_node(node.into());
self
}
/// Appends an iterator of things implementing `Into<Node>` into the tree.
pub fn append_all<T: Into<Node>, I: IntoIterator<Item = T>>(
mut self,
iter: I,
) -> ElementBuilder {
for node in iter {
self.root.append_node(node.into());
}
self
}
/// Builds the `Element`.
pub fn build(self) -> Element {
self.root
}
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_element_new() {
use std::iter::FromIterator;
let elem = Element::new(
"name".to_owned(),
"namespace".to_owned(),
(None, "namespace".to_owned()),
BTreeMap::from_iter(vec![("name".to_string(), "value".to_string())].into_iter()),
Vec::new(),
);
assert_eq!(elem.name(), "name");
assert_eq!(elem.ns(), "namespace".to_owned());
assert_eq!(elem.attr("name"), Some("value"));
assert_eq!(elem.attr("inexistent"), None);
}
#[test]
fn test_from_reader_simple() {
let xml = b"<foo xmlns='ns1'></foo>";
let elem = Element::from_reader(&xml[..]);
let elem2 = Element::builder("foo", "ns1").build();
assert_eq!(elem.unwrap(), elem2);
}
#[test]
fn test_from_reader_nested() {
let xml = b"<foo xmlns='ns1'><bar xmlns='ns1' baz='qxx' /></foo>";
let elem = Element::from_reader(&xml[..]);
let nested = Element::builder("bar", "ns1").attr("baz", "qxx").build();
let elem2 = Element::builder("foo", "ns1").append(nested).build();
assert_eq!(elem.unwrap(), elem2);
}
#[test]
fn test_from_reader_with_prefix() {
let xml = b"<foo xmlns='ns1'><prefix:bar xmlns:prefix='ns1' baz='qxx' /></foo>";
let elem = Element::from_reader(&xml[..]);
let nested = Element::builder("bar", "ns1").attr("baz", "qxx").build();
let elem2 = Element::builder("foo", "ns1").append(nested).build();
assert_eq!(elem.unwrap(), elem2);
}
#[test]
fn test_from_reader_split_prefix() {
let xml = b"<foo:bar xmlns:foo='ns1'/>";
let elem = Element::from_reader(&xml[..]).unwrap();
assert_eq!(elem.name(), String::from("bar"));
assert_eq!(elem.ns(), String::from("ns1"));
// Ensure the prefix is properly added to the store
assert_eq!(
elem.prefixes.get(&Some(String::from("foo"))),
Some(&String::from("ns1"))
);
}
#[test]
fn parses_spectest_xml() {
// From: https://gitlab.com/lumi/minidom-rs/issues/8
let xml = br#"<rng:grammar xmlns:rng="http://relaxng.org/ns/structure/1.0">
<rng:name xmlns:rng="http://relaxng.org/ns/structure/1.0"></rng:name>
</rng:grammar>
"#;
let _ = Element::from_reader(&xml[..]).unwrap();
}
#[test]
fn does_not_unescape_cdata() {
let xml = b"<test xmlns='test'><![CDATA[&apos;&gt;blah<blah>]]></test>";
let elem = Element::from_reader(&xml[..]).unwrap();
assert_eq!(elem.text(), "&apos;&gt;blah<blah>");
}
#[test]
fn test_compare_all_ns() {
let xml = b"<foo xmlns='foo' xmlns:bar='baz'><bar:meh xmlns:bar='baz' /></foo>";
let elem = Element::from_reader(&xml[..]).unwrap();
let elem2 = elem.clone();
let xml3 = b"<foo xmlns='foo'><bar:meh xmlns:bar='baz'/></foo>";
let elem3 = Element::from_reader(&xml3[..]).unwrap();
let xml4 = b"<prefix:foo xmlns:prefix='foo'><bar:meh xmlns:bar='baz'/></prefix:foo>";
let elem4 = Element::from_reader(&xml4[..]).unwrap();
assert_eq!(elem, elem2);
assert_eq!(elem, elem3);
assert_eq!(elem, elem4);
}
#[test]
fn test_from_reader_with_prefixes() {
let xml = b"<foo><bar xmlns='baz'/></foo>";
let elem =
Element::from_reader_with_prefixes(&xml[..], String::from("jabber:client")).unwrap();
let xml2 = b"<foo xmlns='jabber:client'><bar xmlns='baz'/></foo>";
let elem2 = Element::from_reader(&xml2[..]).unwrap();
assert_eq!(elem, elem2);
}
#[test]
fn failure_with_duplicate_namespace() {
let _: Element = r###"<?xml version="1.0" encoding="UTF-8"?>
<wsdl:definitions
xmlns:wsdl="http://schemas.xmlsoap.org/wsdl/"
xmlns:xsd="http://www.w3.org/2001/XMLSchema">
<wsdl:types>
<xsd:schema xmlns:xs="http://www.w3.org/2001/XMLSchema">
</xsd:schema>
</wsdl:types>
</wsdl:definitions>
"###
.parse()
.unwrap();
}
}
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