/* 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 https://mozilla.org/MPL/2.0/. */
#![allow(unrooted_must_root)]
use crate::dom::bindings::codegen::Bindings::HTMLTemplateElementBinding::HTMLTemplateElementMethods;
use crate::dom::bindings::inheritance::{Castable, CharacterDataTypeId, NodeTypeId};
use crate::dom::bindings::root::{Dom, DomRoot};
use crate::dom::bindings::trace::JSTraceable;
use crate::dom::characterdata::CharacterData;
use crate::dom::document::Document;
use crate::dom::documentfragment::DocumentFragment;
use crate::dom::documenttype::DocumentType;
use crate::dom::element::Element;
use crate::dom::htmlscriptelement::HTMLScriptElement;
use crate::dom::htmltemplateelement::HTMLTemplateElement;
use crate::dom::node::Node;
use crate::dom::processinginstruction::ProcessingInstruction;
use crate::dom::servoparser::{ParsingAlgorithm, Sink};
use html5ever::buffer_queue::BufferQueue;
use html5ever::serialize::TraversalScope;
use html5ever::serialize::TraversalScope::IncludeNode;
use html5ever::serialize::{AttrRef, Serialize, Serializer};
use html5ever::tokenizer::{Tokenizer as HtmlTokenizer, TokenizerOpts, TokenizerResult};
use html5ever::tree_builder::{Tracer as HtmlTracer, TreeBuilder, TreeBuilderOpts};
use html5ever::QualName;
use js::jsapi::JSTracer;
use servo_url::ServoUrl;
use std::io;
#[derive(JSTraceable, MallocSizeOf)]
#[unrooted_must_root_lint::must_root]
pub struct Tokenizer {
#[ignore_malloc_size_of = "Defined in html5ever"]
inner: HtmlTokenizer<TreeBuilder<Dom<Node>, Sink>>,
}
impl Tokenizer {
pub fn new(
document: &Document,
url: ServoUrl,
fragment_context: Option<super::FragmentContext>,
parsing_algorithm: ParsingAlgorithm,
) -> Self {
let sink = Sink {
base_url: url,
document: Dom::from_ref(document),
current_line: 1,
script: Default::default(),
parsing_algorithm: parsing_algorithm,
};
let options = TreeBuilderOpts {
ignore_missing_rules: true,
..Default::default()
};
let inner = if let Some(fc) = fragment_context {
let tb = TreeBuilder::new_for_fragment(
sink,
Dom::from_ref(fc.context_elem),
fc.form_elem.map(|n| Dom::from_ref(n)),
options,
);
let tok_options = TokenizerOpts {
initial_state: Some(tb.tokenizer_state_for_context_elem()),
..Default::default()
};
HtmlTokenizer::new(tb, tok_options)
} else {
HtmlTokenizer::new(TreeBuilder::new(sink, options), Default::default())
};
Tokenizer { inner: inner }
}
pub fn feed(&mut self, input: &mut BufferQueue) -> Result<(), DomRoot<HTMLScriptElement>> {
match self.inner.feed(input) {
TokenizerResult::Done => Ok(()),
TokenizerResult::Script(script) => Err(DomRoot::from_ref(script.downcast().unwrap())),
}
}
pub fn end(&mut self) {
self.inner.end();
}
pub fn url(&self) -> &ServoUrl {
&self.inner.sink.sink.base_url
}
pub fn set_plaintext_state(&mut self) {
self.inner.set_plaintext_state();
}
}
#[allow(unsafe_code)]
unsafe impl JSTraceable for HtmlTokenizer<TreeBuilder<Dom<Node>, Sink>> {
unsafe fn trace(&self, trc: *mut JSTracer) {
struct Tracer(*mut JSTracer);
let tracer = Tracer(trc);
impl HtmlTracer for Tracer {
type Handle = Dom<Node>;
#[allow(unrooted_must_root)]
fn trace_handle(&self, node: &Dom<Node>) {
unsafe {
node.trace(self.0);
}
}
}
let tree_builder = &self.sink;
tree_builder.trace_handles(&tracer);
tree_builder.sink.trace(trc);
}
}
fn start_element<S: Serializer>(node: &Element, serializer: &mut S) -> io::Result<()> {
let name = QualName::new(None, node.namespace().clone(), node.local_name().clone());
let attrs = node
.attrs()
.iter()
.map(|attr| {
let qname = QualName::new(None, attr.namespace().clone(), attr.local_name().clone());
let value = attr.value().clone();
(qname, value)
})
.collect::<Vec<_>>();
let attr_refs = attrs.iter().map(|&(ref qname, ref value)| {
let ar: AttrRef = (&qname, &**value);
ar
});
serializer.start_elem(name, attr_refs)?;
Ok(())
}
fn end_element<S: Serializer>(node: &Element, serializer: &mut S) -> io::Result<()> {
let name = QualName::new(None, node.namespace().clone(), node.local_name().clone());
serializer.end_elem(name)
}
enum SerializationCommand {
OpenElement(DomRoot<Element>),
CloseElement(DomRoot<Element>),
SerializeNonelement(DomRoot<Node>),
}
struct SerializationIterator {
stack: Vec<SerializationCommand>,
}
fn rev_children_iter(n: &Node) -> impl Iterator<Item = DomRoot<Node>> {
if n.downcast::<Element>().map_or(false, |e| e.is_void()) {
return Node::new_document_node().rev_children();
}
match n.downcast::<HTMLTemplateElement>() {
Some(t) => t.Content().upcast::<Node>().rev_children(),
None => n.rev_children(),
}
}
impl SerializationIterator {
fn new(node: &Node, skip_first: bool) -> SerializationIterator {
let mut ret = SerializationIterator { stack: vec![] };
if skip_first || node.is::<DocumentFragment>() || node.is::<Document>() {
for c in rev_children_iter(node) {
ret.push_node(&*c);
}
} else {
ret.push_node(node);
}
ret
}
fn push_node(&mut self, n: &Node) {
match n.downcast::<Element>() {
Some(e) => self
.stack
.push(SerializationCommand::OpenElement(DomRoot::from_ref(e))),
None => self.stack.push(SerializationCommand::SerializeNonelement(
DomRoot::from_ref(n),
)),
}
}
}
impl Iterator for SerializationIterator {
type Item = SerializationCommand;
fn next(&mut self) -> Option<SerializationCommand> {
let res = self.stack.pop();
if let Some(SerializationCommand::OpenElement(ref e)) = res {
self.stack
.push(SerializationCommand::CloseElement(e.clone()));
for c in rev_children_iter(&*e.upcast::<Node>()) {
self.push_node(&c);
}
}
res
}
}
impl<'a> Serialize for &'a Node {
fn serialize<S: Serializer>(
&self,
serializer: &mut S,
traversal_scope: TraversalScope,
) -> io::Result<()> {
let node = *self;
let iter = SerializationIterator::new(node, traversal_scope != IncludeNode);
for cmd in iter {
match cmd {
SerializationCommand::OpenElement(n) => {
start_element(&n, serializer)?;
},
SerializationCommand::CloseElement(n) => {
end_element(&&n, serializer)?;
},
SerializationCommand::SerializeNonelement(n) => match n.type_id() {
NodeTypeId::DocumentType => {
let doctype = n.downcast::<DocumentType>().unwrap();
serializer.write_doctype(&doctype.name())?;
},
NodeTypeId::CharacterData(CharacterDataTypeId::Text(_)) => {
let cdata = n.downcast::<CharacterData>().unwrap();
serializer.write_text(&cdata.data())?;
},
NodeTypeId::CharacterData(CharacterDataTypeId::Comment) => {
let cdata = n.downcast::<CharacterData>().unwrap();
serializer.write_comment(&cdata.data())?;
},
NodeTypeId::CharacterData(CharacterDataTypeId::ProcessingInstruction) => {
let pi = n.downcast::<ProcessingInstruction>().unwrap();
let data = pi.upcast::<CharacterData>().data();
serializer.write_processing_instruction(&pi.target(), &data)?;
},
NodeTypeId::DocumentFragment(_) => {},
NodeTypeId::Document(_) => panic!("Can't serialize Document node itself"),
NodeTypeId::Element(_) => panic!("Element shouldn't appear here"),
NodeTypeId::Attr => panic!("Attr shouldn't appear here"),
},
}
}
Ok(())
}
}