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|
// Copyright 2014-2017 The html5ever Project Developers.
// Copyright Michael Howell and others.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
#![allow(missing_docs, dead_code)]
//! A simple reference-counted DOM.
//!
//! This is sufficient as a static parse tree, but don't build a
//! web browser using it. :)
//!
//! A DOM is a [tree structure] with ordered children that can be represented in an XML-like
//! format. For example, the following graph
//!
//! ```text
//! div
//! +- "text node"
//! +- span
//! ```
//! in HTML would be serialized as
//!
//! ```html
//! <div>text node<span></span></div>
//! ```
//!
//! See the [document object model article on wikipedia][dom wiki] for more information.
//!
//! This implementation stores the information associated with each node once, and then hands out
//! refs to children. The nodes themselves are reference-counted to avoid copying - you can create
//! a new ref and then a node will outlive the document. Nodes own their children, but only have
//! weak references to their parents.
//!
//! [tree structure]: https://en.wikipedia.org/wiki/Tree_(data_structure)
//! [dom wiki]: https://en.wikipedia.org/wiki/Document_Object_Model
use std::borrow::Cow;
use std::cell::{Cell, RefCell};
use std::collections::{HashSet, VecDeque};
use std::default::Default;
use std::fmt;
use std::io;
use std::mem;
use std::rc::{Rc, Weak};
use html5ever::tendril::StrTendril;
use html5ever::interface::tree_builder;
use html5ever::interface::tree_builder::{ElementFlags, NodeOrText, QuirksMode, TreeSink};
use html5ever::serialize::TraversalScope;
use html5ever::serialize::TraversalScope::{ChildrenOnly, IncludeNode};
use html5ever::serialize::{Serialize, Serializer};
use html5ever::Attribute;
use html5ever::ExpandedName;
use html5ever::QualName;
/// The different kinds of nodes in the DOM.
#[derive(Debug)]
pub enum NodeData {
/// The `Document` itself - the root node of a HTML document.
Document,
/// A `DOCTYPE` with name, public id, and system id. See
/// [document type declaration on wikipedia][dtd wiki].
///
/// [dtd wiki]: https://en.wikipedia.org/wiki/Document_type_declaration
Doctype {
name: StrTendril,
public_id: StrTendril,
system_id: StrTendril,
},
/// A text node.
Text { contents: RefCell<StrTendril> },
/// A comment.
Comment { contents: StrTendril },
/// An element with attributes.
Element {
name: QualName,
attrs: RefCell<Vec<Attribute>>,
/// For HTML \<template\> elements, the [template contents].
///
/// [template contents]: https://html.spec.whatwg.org/multipage/#template-contents
template_contents: RefCell<Option<Handle>>,
/// Whether the node is a [HTML integration point].
///
/// [HTML integration point]: https://html.spec.whatwg.org/multipage/#html-integration-point
mathml_annotation_xml_integration_point: bool,
},
/// A Processing instruction.
ProcessingInstruction {
target: StrTendril,
contents: StrTendril,
},
}
/// A DOM node.
pub struct Node {
/// Parent node.
pub parent: Cell<Option<WeakHandle>>,
/// Child nodes of this node.
pub children: RefCell<Vec<Handle>>,
/// Represents this node's data.
pub data: NodeData,
}
impl Node {
/// Create a new node from its contents
pub fn new(data: NodeData) -> Rc<Self> {
Rc::new(Node {
data,
parent: Cell::new(None),
children: RefCell::new(Vec::new()),
})
}
}
impl Drop for Node {
fn drop(&mut self) {
let mut nodes = mem::take(&mut *self.children.borrow_mut());
while let Some(node) = nodes.pop() {
let children = mem::take(&mut *node.children.borrow_mut());
nodes.extend(children.into_iter());
if let NodeData::Element {
ref template_contents,
..
} = node.data
{
if let Some(template_contents) = template_contents.borrow_mut().take() {
nodes.push(template_contents);
}
}
}
}
}
impl fmt::Debug for Node {
fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
fmt.debug_struct("Node")
.field("data", &self.data)
.field("children", &self.children)
.finish()
}
}
/// Reference to a DOM node.
pub type Handle = Rc<Node>;
/// Weak reference to a DOM node, used for parent pointers.
pub type WeakHandle = Weak<Node>;
/// Append a parentless node to another nodes' children
fn append(new_parent: &Handle, child: Handle) {
let previous_parent = child.parent.replace(Some(Rc::downgrade(new_parent)));
// Invariant: child cannot have existing parent
assert!(previous_parent.is_none());
new_parent.children.borrow_mut().push(child);
}
/// If the node has a parent, get it and this node's position in its children
fn get_parent_and_index(target: &Handle) -> Option<(Handle, usize)> {
if let Some(weak) = target.parent.take() {
let parent = weak.upgrade().expect("dangling weak pointer");
target.parent.set(Some(weak));
let i = match parent
.children
.borrow()
.iter()
.enumerate()
.find(|&(_, child)| Rc::ptr_eq(child, target))
{
Some((i, _)) => i,
None => panic!("have parent but couldn't find in parent's children!"),
};
Some((parent, i))
} else {
None
}
}
fn append_to_existing_text(prev: &Handle, text: &str) -> bool {
match prev.data {
NodeData::Text { ref contents } => {
contents.borrow_mut().push_slice(text);
true
}
_ => false,
}
}
fn remove_from_parent(target: &Handle) {
if let Some((parent, i)) = get_parent_and_index(target) {
parent.children.borrow_mut().remove(i);
target.parent.set(None);
}
}
/// The DOM itself; the result of parsing.
pub struct RcDom {
/// The `Document` itself.
pub document: Handle,
/// Errors that occurred during parsing.
pub errors: Vec<Cow<'static, str>>,
/// The document's quirks mode.
pub quirks_mode: QuirksMode,
}
impl TreeSink for RcDom {
type Output = Self;
fn finish(self) -> Self {
self
}
type Handle = Handle;
fn parse_error(&mut self, msg: Cow<'static, str>) {
self.errors.push(msg);
}
fn get_document(&mut self) -> Handle {
self.document.clone()
}
fn get_template_contents(&mut self, target: &Handle) -> Handle {
if let NodeData::Element {
ref template_contents,
..
} = target.data
{
template_contents
.borrow()
.as_ref()
.expect("not a template element!")
.clone()
} else {
panic!("not a template element!")
}
}
fn set_quirks_mode(&mut self, mode: QuirksMode) {
self.quirks_mode = mode;
}
fn same_node(&self, x: &Handle, y: &Handle) -> bool {
Rc::ptr_eq(x, y)
}
fn elem_name<'a>(&self, target: &'a Handle) -> ExpandedName<'a> {
return match target.data {
NodeData::Element { ref name, .. } => name.expanded(),
_ => panic!("not an element!"),
};
}
fn create_element(
&mut self,
name: QualName,
attrs: Vec<Attribute>,
flags: ElementFlags,
) -> Handle {
Node::new(NodeData::Element {
name,
attrs: RefCell::new(attrs),
template_contents: RefCell::new(if flags.template {
Some(Node::new(NodeData::Document))
} else {
None
}),
mathml_annotation_xml_integration_point: flags.mathml_annotation_xml_integration_point,
})
}
fn create_comment(&mut self, text: StrTendril) -> Handle {
Node::new(NodeData::Comment { contents: text })
}
fn create_pi(&mut self, target: StrTendril, data: StrTendril) -> Handle {
Node::new(NodeData::ProcessingInstruction {
target,
contents: data,
})
}
fn append(&mut self, parent: &Handle, child: NodeOrText<Handle>) {
// Append to an existing Text node if we have one.
if let NodeOrText::AppendText(ref text) = child {
if let Some(h) = parent.children.borrow().last() {
if append_to_existing_text(h, text) {
return;
}
}
}
append(
parent,
match child {
NodeOrText::AppendText(text) => Node::new(NodeData::Text {
contents: RefCell::new(text),
}),
NodeOrText::AppendNode(node) => node,
},
);
}
fn append_before_sibling(&mut self, sibling: &Handle, child: NodeOrText<Handle>) {
let (parent, i) = get_parent_and_index(sibling)
.expect("append_before_sibling called on node without parent");
let child = match (child, i) {
// No previous node.
(NodeOrText::AppendText(text), 0) => Node::new(NodeData::Text {
contents: RefCell::new(text),
}),
// Look for a text node before the insertion point.
(NodeOrText::AppendText(text), i) => {
let children = parent.children.borrow();
let prev = &children[i - 1];
if append_to_existing_text(prev, &text) {
return;
}
Node::new(NodeData::Text {
contents: RefCell::new(text),
})
}
// The tree builder promises we won't have a text node after
// the insertion point.
// Any other kind of node.
(NodeOrText::AppendNode(node), _) => node,
};
remove_from_parent(&child);
child.parent.set(Some(Rc::downgrade(&parent)));
parent.children.borrow_mut().insert(i, child);
}
fn append_based_on_parent_node(
&mut self,
element: &Self::Handle,
prev_element: &Self::Handle,
child: NodeOrText<Self::Handle>,
) {
let parent = element.parent.take();
let has_parent = parent.is_some();
element.parent.set(parent);
if has_parent {
self.append_before_sibling(element, child);
} else {
self.append(prev_element, child);
}
}
fn append_doctype_to_document(
&mut self,
name: StrTendril,
public_id: StrTendril,
system_id: StrTendril,
) {
append(
&self.document,
Node::new(NodeData::Doctype {
name,
public_id,
system_id,
}),
);
}
fn add_attrs_if_missing(&mut self, target: &Handle, attrs: Vec<Attribute>) {
let mut existing = if let NodeData::Element { ref attrs, .. } = target.data {
attrs.borrow_mut()
} else {
panic!("not an element")
};
let existing_names = existing
.iter()
.map(|e| e.name.clone())
.collect::<HashSet<_>>();
existing.extend(
attrs
.into_iter()
.filter(|attr| !existing_names.contains(&attr.name)),
);
}
fn remove_from_parent(&mut self, target: &Handle) {
remove_from_parent(target);
}
fn reparent_children(&mut self, node: &Handle, new_parent: &Handle) {
let mut children = node.children.borrow_mut();
let mut new_children = new_parent.children.borrow_mut();
for child in children.iter() {
let previous_parent = child.parent.replace(Some(Rc::downgrade(new_parent)));
assert!(Rc::ptr_eq(
node,
&previous_parent.unwrap().upgrade().expect("dangling weak")
))
}
new_children.extend(mem::take(&mut *children));
}
fn is_mathml_annotation_xml_integration_point(&self, target: &Handle) -> bool {
if let NodeData::Element {
mathml_annotation_xml_integration_point,
..
} = target.data
{
mathml_annotation_xml_integration_point
} else {
panic!("not an element!")
}
}
}
impl Default for RcDom {
fn default() -> RcDom {
RcDom {
document: Node::new(NodeData::Document),
errors: vec![],
quirks_mode: tree_builder::NoQuirks,
}
}
}
enum SerializeOp {
Open(Handle),
Close(QualName),
}
pub struct SerializableHandle(Handle);
impl From<Handle> for SerializableHandle {
fn from(h: Handle) -> SerializableHandle {
SerializableHandle(h)
}
}
impl Serialize for SerializableHandle {
fn serialize<S>(&self, serializer: &mut S, traversal_scope: TraversalScope) -> io::Result<()>
where
S: Serializer,
{
let mut ops = VecDeque::new();
match traversal_scope {
IncludeNode => ops.push_back(SerializeOp::Open(self.0.clone())),
ChildrenOnly(_) => ops.extend(
self.0
.children
.borrow()
.iter()
.map(|h| SerializeOp::Open(h.clone())),
),
}
while let Some(op) = ops.pop_front() {
match op {
SerializeOp::Open(handle) => match handle.data {
NodeData::Element {
ref name,
ref attrs,
..
} => {
serializer.start_elem(
name.clone(),
attrs.borrow().iter().map(|at| (&at.name, &at.value[..])),
)?;
ops.reserve(1 + handle.children.borrow().len());
ops.push_front(SerializeOp::Close(name.clone()));
for child in handle.children.borrow().iter().rev() {
ops.push_front(SerializeOp::Open(child.clone()));
}
}
NodeData::Doctype { ref name, .. } => serializer.write_doctype(name)?,
NodeData::Text { ref contents } => serializer.write_text(&contents.borrow())?,
NodeData::Comment { ref contents } => serializer.write_comment(contents)?,
NodeData::ProcessingInstruction {
ref target,
ref contents,
} => serializer.write_processing_instruction(target, contents)?,
NodeData::Document => panic!("Can't serialize Document node itself"),
},
SerializeOp::Close(name) => {
serializer.end_elem(name)?;
}
}
}
Ok(())
}
}
|