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servo/components/script/dom/characterdata.rs
Narfinger 423800eec4 Script: Lazily transform the DOMString into Rust String instead of immediately. (#39509) 
This implements LazyDOMString (from now on DOMString) as outlined in
https://github.com/servo/servo/issues/39479.
Constructing from a *mut JSString we keep the in a
RootedTraceableBox<Heap<*mut JSString>> and transform
the string into a rust string if necessary via the `make_rust_string`
method.
Methods used in script are implemented on this string. Currently we
transform the string at all times.
But in the future more efficient implementations are possible.

We implement the safety critical sections in a separate module
DOMStringInner which allows simple constructors, `make_rust_string` and
the `bytes` method.
This method returns the new type `EncodedBytes` which contains the
reference to the underlying string in either format.

Testing: WPT tests still seem to work, so this should test this
functionality.

---------

Signed-off-by: Narfinger <Narfinger@users.noreply.github.com>
2025-10-09 18:18:03 +00:00

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/* 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/. */
//! DOM bindings for `CharacterData`.
use std::cell::LazyCell;
use dom_struct::dom_struct;
use script_bindings::codegen::InheritTypes::{CharacterDataTypeId, NodeTypeId, TextTypeId};
use crate::dom::bindings::cell::{DomRefCell, Ref};
use crate::dom::bindings::codegen::Bindings::CharacterDataBinding::CharacterDataMethods;
use crate::dom::bindings::codegen::Bindings::NodeBinding::Node_Binding::NodeMethods;
use crate::dom::bindings::codegen::Bindings::ProcessingInstructionBinding::ProcessingInstructionMethods;
use crate::dom::bindings::codegen::UnionTypes::NodeOrString;
use crate::dom::bindings::error::{Error, ErrorResult, Fallible};
use crate::dom::bindings::inheritance::Castable;
use crate::dom::bindings::root::{DomRoot, LayoutDom};
use crate::dom::bindings::str::DOMString;
use crate::dom::cdatasection::CDATASection;
use crate::dom::comment::Comment;
use crate::dom::document::Document;
use crate::dom::element::Element;
use crate::dom::mutationobserver::{Mutation, MutationObserver};
use crate::dom::node::{ChildrenMutation, Node, NodeDamage};
use crate::dom::processinginstruction::ProcessingInstruction;
use crate::dom::text::Text;
use crate::dom::virtualmethods::vtable_for;
use crate::script_runtime::CanGc;
// https://dom.spec.whatwg.org/#characterdata
#[dom_struct]
pub(crate) struct CharacterData {
node: Node,
data: DomRefCell<String>,
}
impl CharacterData {
pub(crate) fn new_inherited(data: DOMString, document: &Document) -> CharacterData {
CharacterData {
node: Node::new_inherited(document),
data: DomRefCell::new(String::from(data.str())),
}
}
pub(crate) fn clone_with_data(
&self,
data: DOMString,
document: &Document,
can_gc: CanGc,
) -> DomRoot<Node> {
match self.upcast::<Node>().type_id() {
NodeTypeId::CharacterData(CharacterDataTypeId::Comment) => {
DomRoot::upcast(Comment::new(data, document, None, can_gc))
},
NodeTypeId::CharacterData(CharacterDataTypeId::ProcessingInstruction) => {
let pi = self.downcast::<ProcessingInstruction>().unwrap();
DomRoot::upcast(ProcessingInstruction::new(
pi.Target(),
data,
document,
can_gc,
))
},
NodeTypeId::CharacterData(CharacterDataTypeId::Text(TextTypeId::CDATASection)) => {
DomRoot::upcast(CDATASection::new(data, document, can_gc))
},
NodeTypeId::CharacterData(CharacterDataTypeId::Text(TextTypeId::Text)) => {
DomRoot::upcast(Text::new(data, document, can_gc))
},
_ => unreachable!(),
}
}
#[inline]
pub(crate) fn data(&self) -> Ref<'_, String> {
self.data.borrow()
}
#[inline]
pub(crate) fn append_data(&self, data: &str) {
self.queue_mutation_record();
self.data.borrow_mut().push_str(data);
self.content_changed();
}
fn content_changed(&self) {
let node = self.upcast::<Node>();
node.dirty(NodeDamage::Other);
// If this is a Text node, we might need to re-parse (say, if our parent
// is a <style> element.) We don't need to if this is a Comment or
// ProcessingInstruction.
if self.is::<Text>() {
if let Some(parent_node) = node.GetParentNode() {
let mutation = ChildrenMutation::ChangeText;
vtable_for(&parent_node).children_changed(&mutation);
}
}
}
// Queue a MutationObserver record before changing the content.
fn queue_mutation_record(&self) {
let mutation = LazyCell::new(|| Mutation::CharacterData {
old_value: self.data.borrow().clone(),
});
MutationObserver::queue_a_mutation_record(self.upcast::<Node>(), mutation);
}
}
impl CharacterDataMethods<crate::DomTypeHolder> for CharacterData {
// https://dom.spec.whatwg.org/#dom-characterdata-data
fn Data(&self) -> DOMString {
DOMString::from(self.data.borrow().clone())
}
// https://dom.spec.whatwg.org/#dom-characterdata-data
fn SetData(&self, data: DOMString) {
self.queue_mutation_record();
let old_length = self.Length();
let new_length = data.str().encode_utf16().count() as u32;
*self.data.borrow_mut() = String::from(data.str());
self.content_changed();
let node = self.upcast::<Node>();
node.ranges()
.replace_code_units(node, 0, old_length, new_length);
}
// https://dom.spec.whatwg.org/#dom-characterdata-length
fn Length(&self) -> u32 {
self.data.borrow().encode_utf16().count() as u32
}
// https://dom.spec.whatwg.org/#dom-characterdata-substringdata
fn SubstringData(&self, offset: u32, count: u32) -> Fallible<DOMString> {
let data = self.data.borrow();
// Step 1.
let mut substring = String::new();
let remaining = match split_at_utf16_code_unit_offset(&data, offset) {
Ok((_, astral, s)) => {
// As if we had split the UTF-16 surrogate pair in half
// and then transcoded that to UTF-8 lossily,
// since our DOMString is currently strict UTF-8.
if astral.is_some() {
substring += "\u{FFFD}";
}
s
},
// Step 2.
Err(()) => return Err(Error::IndexSize),
};
match split_at_utf16_code_unit_offset(remaining, count) {
// Steps 3.
Err(()) => substring += remaining,
// Steps 4.
Ok((s, astral, _)) => {
substring += s;
// As if we had split the UTF-16 surrogate pair in half
// and then transcoded that to UTF-8 lossily,
// since our DOMString is currently strict UTF-8.
if astral.is_some() {
substring += "\u{FFFD}";
}
},
};
Ok(DOMString::from(substring))
}
// https://dom.spec.whatwg.org/#dom-characterdata-appenddatadata
fn AppendData(&self, data: DOMString) {
// FIXME(ajeffrey): Efficient append on DOMStrings?
self.append_data(&data.str());
}
// https://dom.spec.whatwg.org/#dom-characterdata-insertdataoffset-data
fn InsertData(&self, offset: u32, arg: DOMString) -> ErrorResult {
self.ReplaceData(offset, 0, arg)
}
// https://dom.spec.whatwg.org/#dom-characterdata-deletedataoffset-count
fn DeleteData(&self, offset: u32, count: u32) -> ErrorResult {
self.ReplaceData(offset, count, DOMString::new())
}
// https://dom.spec.whatwg.org/#dom-characterdata-replacedata
fn ReplaceData(&self, offset: u32, count: u32, arg: DOMString) -> ErrorResult {
let mut new_data;
{
let data = self.data.borrow();
let prefix;
let replacement_before;
let remaining;
match split_at_utf16_code_unit_offset(&data, offset) {
Ok((p, astral, r)) => {
prefix = p;
// As if we had split the UTF-16 surrogate pair in half
// and then transcoded that to UTF-8 lossily,
// since our DOMString is currently strict UTF-8.
replacement_before = if astral.is_some() { "\u{FFFD}" } else { "" };
remaining = r;
},
// Step 2.
Err(()) => return Err(Error::IndexSize),
};
let replacement_after;
let suffix;
match split_at_utf16_code_unit_offset(remaining, count) {
// Steps 3.
Err(()) => {
replacement_after = "";
suffix = "";
},
Ok((_, astral, s)) => {
// As if we had split the UTF-16 surrogate pair in half
// and then transcoded that to UTF-8 lossily,
// since our DOMString is currently strict UTF-8.
replacement_after = if astral.is_some() { "\u{FFFD}" } else { "" };
suffix = s;
},
};
// Step 4: Mutation observers.
self.queue_mutation_record();
// Step 5 to 7.
new_data = String::with_capacity(
prefix.len() +
replacement_before.len() +
arg.len() +
replacement_after.len() +
suffix.len(),
);
new_data.push_str(prefix);
new_data.push_str(replacement_before);
new_data.push_str(&arg.str());
new_data.push_str(replacement_after);
new_data.push_str(suffix);
}
*self.data.borrow_mut() = new_data;
self.content_changed();
// Steps 8-11.
let node = self.upcast::<Node>();
node.ranges().replace_code_units(
node,
offset,
count,
arg.str().encode_utf16().count() as u32,
);
Ok(())
}
// https://dom.spec.whatwg.org/#dom-childnode-before
fn Before(&self, nodes: Vec<NodeOrString>, can_gc: CanGc) -> ErrorResult {
self.upcast::<Node>().before(nodes, can_gc)
}
// https://dom.spec.whatwg.org/#dom-childnode-after
fn After(&self, nodes: Vec<NodeOrString>, can_gc: CanGc) -> ErrorResult {
self.upcast::<Node>().after(nodes, can_gc)
}
// https://dom.spec.whatwg.org/#dom-childnode-replacewith
fn ReplaceWith(&self, nodes: Vec<NodeOrString>, can_gc: CanGc) -> ErrorResult {
self.upcast::<Node>().replace_with(nodes, can_gc)
}
// https://dom.spec.whatwg.org/#dom-childnode-remove
fn Remove(&self, can_gc: CanGc) {
let node = self.upcast::<Node>();
node.remove_self(can_gc);
}
// https://dom.spec.whatwg.org/#dom-nondocumenttypechildnode-previouselementsibling
fn GetPreviousElementSibling(&self) -> Option<DomRoot<Element>> {
self.upcast::<Node>()
.preceding_siblings()
.filter_map(DomRoot::downcast)
.next()
}
// https://dom.spec.whatwg.org/#dom-nondocumenttypechildnode-nextelementsibling
fn GetNextElementSibling(&self) -> Option<DomRoot<Element>> {
self.upcast::<Node>()
.following_siblings()
.filter_map(DomRoot::downcast)
.next()
}
}
pub(crate) trait LayoutCharacterDataHelpers<'dom> {
fn data_for_layout(self) -> &'dom str;
}
impl<'dom> LayoutCharacterDataHelpers<'dom> for LayoutDom<'dom, CharacterData> {
#[allow(unsafe_code)]
#[inline]
fn data_for_layout(self) -> &'dom str {
unsafe { self.unsafe_get().data.borrow_for_layout() }
}
}
/// Split the given string at the given position measured in UTF-16 code units from the start.
///
/// * `Err(())` indicates that `offset` if after the end of the string
/// * `Ok((before, None, after))` indicates that `offset` is between Unicode code points.
/// The two string slices are such that:
/// `before == s.to_utf16()[..offset].to_utf8()` and
/// `after == s.to_utf16()[offset..].to_utf8()`
/// * `Ok((before, Some(ch), after))` indicates that `offset` is "in the middle"
/// of a single Unicode code point that would be represented in UTF-16 by a surrogate pair
/// of two 16-bit code units.
/// `ch` is that code point.
/// The two string slices are such that:
/// `before == s.to_utf16()[..offset - 1].to_utf8()` and
/// `after == s.to_utf16()[offset + 1..].to_utf8()`
fn split_at_utf16_code_unit_offset(s: &str, offset: u32) -> Result<(&str, Option<char>, &str), ()> {
let mut code_units = 0;
for (i, c) in s.char_indices() {
if code_units == offset {
let (a, b) = s.split_at(i);
return Ok((a, None, b));
}
code_units += 1;
if c > '\u{FFFF}' {
if code_units == offset {
debug_assert_eq!(c.len_utf8(), 4);
warn!("Splitting a surrogate pair in CharacterData API.");
return Ok((&s[..i], Some(c), &s[i + c.len_utf8()..]));
}
code_units += 1;
}
}
if code_units == offset {
Ok((s, None, ""))
} else {
Err(())
}
}
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