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servo/components/layout/layout_impl.rs
Martin Robinson 2a7d2780b3 fonts: Store shaping output per-character rather than per-code point (#42105) 
This change is a reworking of the shaping code and simplification of the
`GlyphRun` data structure.

The shaper was written between 2012 and 2014 against an early version of
Rust. It was originally written to have a single glyph entry per UTF-8
code point. This is useful when you always need to iterate through
glyphs based on UTF-8 code points. Unfortunately, this required a
tri-level data structure to hold detailed glyphs and meant that CJK
characters took over 3x the memory usage of ASCII characters. In
addition, iterating through glyphs (the most common and basic operation
on shaped text) required doing a lookup involving a binary search for
detailed glyphs (ones that had large advances or mapped to more or less
than a single UTF-8 code point).

The new design of the `GlyphStore` is instead based on `chars` in the
input string. These are tracked during layout so that the resulting
glyph output can be interpreted relatively to its original character
offset in the containing IFC. We are already dealing with IFC text on a
per-character basis for a variety of reasons (such as text
transformation and whitespace collapse). In addition, we will now able
to
implement mapping between the character offsets before and after layout
transformations of the original DOM string.

Now the penalty of more complex glyph iteration is only paid when
transforming glyph offsets to character offsets. Currently this is only
done for selections and clicking in text boxes, both of which are much
less common than layout.

This change does not properly handle selections in RTL text, though
rendering and basic selection and visual movement works (though buggy).

It does not seem like this affects the performance of shaping based on
measurement using the text shaping performance counters. This likely
means that the performance of shaping is dominated on our machines by
HarfBuzz. We noticed no performance degradation in Speedometer when run
on a M3 Mac.

Followup work:
 - Properly handle selection in RTL text.
 - Support mapping from original DOM character offsets to offsets in
   layout after text transformation and whitespace collapse. This is now
   possible.

Testing: This causes some tests to pass and a few to fail. This is
likely
due to the fact that we are handling glyphs more consistently while
shaping. Of the new failures:
- `letter-spacing-bengali-yaphala-001.html`,
`letter-spacing-cursive-001.html`, `font-feature-settings-tibetan.html`
where passing before probably because we were not applying letter
spacing to detailed glyphs. These scripts should not have letter spacing
applied to them, because they are cursive -- which we never implemented
properly. It will be handled in a a followup.
- `shaping-arabic-diacritics-001.html`: This was a false pass. The tests
verifies that Arabic diacritics are applied to NBSP. This wasn't
happening before nor after this change, but the results matched anyway.
Now they don't, but before and after are equally broken.
 - 
Fixes: #216
Part of #35540.

---------

Signed-off-by: Martin Robinson <mrobinson@igalia.com>
Co-authored-by: Oriol Brufau <obrufau@igalia.com>
2026-01-26 12:38:04 +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/. */
#![expect(unsafe_code)]
use std::cell::{Cell, RefCell};
use std::collections::HashMap;
use std::fmt::Debug;
use std::process;
use std::rc::Rc;
use std::sync::{Arc, LazyLock};
use app_units::Au;
use base::generic_channel::GenericSender;
use base::id::{PipelineId, WebViewId};
use bitflags::bitflags;
use cssparser::ParserInput;
use embedder_traits::{Theme, ViewportDetails};
use euclid::{Point2D, Rect, Scale, Size2D};
use fonts::{FontContext, FontContextWebFontMethods, WebFontDocumentContext};
use fonts_traits::StylesheetWebFontLoadFinishedCallback;
use layout_api::wrapper_traits::LayoutNode;
use layout_api::{
BoxAreaType, IFrameSizes, Layout, LayoutConfig, LayoutDamage, LayoutFactory,
OffsetParentResponse, PhysicalSides, PropertyRegistration, QueryMsg, ReflowGoal,
ReflowPhasesRun, ReflowRequest, ReflowRequestRestyle, ReflowResult, RegisterPropertyError,
ScrollContainerQueryFlags, ScrollContainerResponse, TrustedNodeAddress,
};
use log::{debug, error, warn};
use malloc_size_of::{MallocConditionalSizeOf, MallocSizeOf, MallocSizeOfOps};
use net_traits::image_cache::ImageCache;
use paint_api::CrossProcessPaintApi;
use paint_api::display_list::ScrollType;
use parking_lot::{Mutex, RwLock};
use profile_traits::mem::{Report, ReportKind};
use profile_traits::time::{
self as profile_time, TimerMetadata, TimerMetadataFrameType, TimerMetadataReflowType,
};
use profile_traits::{path, time_profile};
use rustc_hash::FxHashMap;
use script::layout_dom::{ServoLayoutDocument, ServoLayoutElement, ServoLayoutNode};
use script_traits::{DrawAPaintImageResult, PaintWorkletError, Painter, ScriptThreadMessage};
use servo_arc::Arc as ServoArc;
use servo_config::opts::{self, DiagnosticsLogging};
use servo_config::pref;
use servo_url::ServoUrl;
use style::animation::DocumentAnimationSet;
use style::context::{
QuirksMode, RegisteredSpeculativePainter, RegisteredSpeculativePainters, SharedStyleContext,
};
use style::custom_properties::{SpecifiedValue, parse_name};
use style::dom::{OpaqueNode, ShowSubtreeDataAndPrimaryValues, TElement, TNode};
use style::error_reporting::RustLogReporter;
use style::font_metrics::FontMetrics;
use style::global_style_data::GLOBAL_STYLE_DATA;
use style::invalidation::element::restyle_hints::RestyleHint;
use style::media_queries::{Device, MediaList, MediaType};
use style::properties::style_structs::Font;
use style::properties::{ComputedValues, PropertyId};
use style::properties_and_values::registry::{
PropertyRegistration as StyloPropertyRegistration, PropertyRegistrationData,
};
use style::properties_and_values::rule::{Inherits, PropertyRegistrationError, PropertyRuleName};
use style::properties_and_values::syntax::Descriptor;
use style::queries::values::PrefersColorScheme;
use style::selector_parser::{PseudoElement, RestyleDamage, SnapshotMap};
use style::servo::media_queries::FontMetricsProvider;
use style::shared_lock::{SharedRwLock, SharedRwLockReadGuard, StylesheetGuards};
use style::stylesheets::{
CustomMediaMap, DocumentStyleSheet, Origin, Stylesheet, StylesheetInDocument, UrlExtraData,
UserAgentStylesheets,
};
use style::stylist::Stylist;
use style::traversal::DomTraversal;
use style::traversal_flags::TraversalFlags;
use style::values::computed::font::GenericFontFamily;
use style::values::computed::{CSSPixelLength, FontSize, Length, NonNegativeLength};
use style::values::specified::font::{KeywordInfo, QueryFontMetricsFlags};
use style::values::{Parser, SourceLocation};
use style::{Zero, driver};
use style_traits::{CSSPixel, SpeculativePainter};
use stylo_atoms::Atom;
use url::Url;
use webrender_api::ExternalScrollId;
use webrender_api::units::{DevicePixel, LayoutVector2D};
use crate::context::{CachedImageOrError, ImageResolver, LayoutContext};
use crate::display_list::{
DisplayListBuilder, HitTest, LargestContentfulPaintCandidateCollector, StackingContextTree,
};
use crate::query::{
find_character_offset_in_fragment_descendants, get_the_text_steps, process_box_area_request,
process_box_areas_request, process_client_rect_request, process_current_css_zoom_query,
process_node_scroll_area_request, process_offset_parent_query, process_padding_request,
process_resolved_font_style_query, process_resolved_style_request,
process_scroll_container_query,
};
use crate::traversal::{RecalcStyle, compute_damage_and_repair_style};
use crate::{BoxTree, FragmentTree};
// This mutex is necessary due to syncronisation issues between two different types of thread-local storage
// which manifest themselves when the layout thread tries to layout iframes in parallel with the main page
//
// See: https://github.com/servo/servo/pull/29792
// And: https://gist.github.com/mukilan/ed57eb61b83237a05fbf6360ec5e33b0
static STYLE_THREAD_POOL: Mutex<&LazyLock<style::global_style_data::StyleThreadPool>> =
Mutex::new(&style::global_style_data::STYLE_THREAD_POOL);
/// A CSS file to style the user agent stylesheet.
static USER_AGENT_CSS: &[u8] = include_bytes!("./stylesheets/user-agent.css");
/// A CSS file to style the Servo browser.
static SERVO_CSS: &[u8] = include_bytes!("./stylesheets/servo.css");
/// A CSS file to style the presentational hints.
static PRESENTATIONAL_HINTS_CSS: &[u8] = include_bytes!("./stylesheets/presentational-hints.css");
/// A CSS file to style the quirks mode.
static QUIRKS_MODE_CSS: &[u8] = include_bytes!("./stylesheets/quirks-mode.css");
/// Information needed by layout.
pub struct LayoutThread {
/// The ID of the pipeline that we belong to.
id: PipelineId,
/// The webview that contains the pipeline we belong to.
webview_id: WebViewId,
/// The URL of the pipeline that we belong to.
url: ServoUrl,
/// Performs CSS selector matching and style resolution.
stylist: Stylist,
/// Is the current reflow of an iframe, as opposed to a root window?
is_iframe: bool,
/// The channel on which messages can be sent to the script thread.
script_chan: GenericSender<ScriptThreadMessage>,
/// The channel on which messages can be sent to the time profiler.
time_profiler_chan: profile_time::ProfilerChan,
/// Reference to the script thread image cache.
image_cache: Arc<dyn ImageCache>,
/// A FontContext to be used during layout.
font_context: Arc<FontContext>,
/// Whether or not user agent stylesheets have been added to the Stylist or not.
have_added_user_agent_stylesheets: bool,
/// Whether or not this [`LayoutImpl`]'s [`Device`] has changed since the last restyle.
/// If it has, a restyle is pending.
device_has_changed: bool,
/// Is this the first reflow in this LayoutThread?
have_ever_generated_display_list: Cell<bool>,
/// Whether a new overflow calculation needs to happen due to changes to the fragment
/// tree. This is set to true every time a restyle requests overflow calculation.
need_overflow_calculation: Cell<bool>,
/// Whether a new display list is necessary due to changes to layout or stacking
/// contexts. This is set to true every time layout changes, even when a display list
/// isn't requested for this layout, such as for layout queries. The next time a
/// layout requests a display list, it is produced unconditionally, even when the
/// layout trees remain the same.
need_new_display_list: Cell<bool>,
/// Whether or not the existing stacking context tree is dirty and needs to be
/// rebuilt. This happens after a relayout or overflow update. The reason that we
/// don't simply clear the stacking context tree when it becomes dirty is that we need
/// to preserve scroll offsets from the old tree to the new one.
need_new_stacking_context_tree: Cell<bool>,
/// The box tree.
box_tree: RefCell<Option<Arc<BoxTree>>>,
/// The fragment tree.
fragment_tree: RefCell<Option<Rc<FragmentTree>>>,
/// The [`StackingContextTree`] cached from previous layouts.
stacking_context_tree: RefCell<Option<StackingContextTree>>,
// A cache that maps image resources specified in CSS (e.g as the `url()` value
// for `background-image` or `content` properties) to either the final resolved
// image data, or an error if the image cache failed to load/decode the image.
resolved_images_cache: Arc<RwLock<HashMap<ServoUrl, CachedImageOrError>>>,
/// The executors for paint worklets.
registered_painters: RegisteredPaintersImpl,
/// Cross-process access to the `Paint` API.
paint_api: CrossProcessPaintApi,
/// Debug options, copied from configuration to this `LayoutThread` in order
/// to avoid having to constantly access the thread-safe global options.
debug: DiagnosticsLogging,
/// Tracks the node that was highlighted by the devtools during the last reflow.
///
/// If this changed, then we need to create a new display list.
previously_highlighted_dom_node: Cell<Option<OpaqueNode>>,
/// The collector for calculating Largest Contentful Paint
lcp_candidate_collector: RefCell<Option<LargestContentfulPaintCandidateCollector>>,
}
pub struct LayoutFactoryImpl();
impl LayoutFactory for LayoutFactoryImpl {
fn create(&self, config: LayoutConfig) -> Box<dyn Layout> {
Box::new(LayoutThread::new(config))
}
}
impl Drop for LayoutThread {
fn drop(&mut self) {
let (keys, instance_keys) = self
.font_context
.collect_unused_webrender_resources(true /* all */);
self.paint_api
.remove_unused_font_resources(self.webview_id.into(), keys, instance_keys)
}
}
impl Layout for LayoutThread {
fn device(&self) -> &Device {
self.stylist.device()
}
fn set_theme(&mut self, theme: Theme) -> bool {
let theme: PrefersColorScheme = theme.into();
let device = self.stylist.device_mut();
if theme == device.color_scheme() {
return false;
}
device.set_color_scheme(theme);
self.device_has_changed = true;
true
}
fn set_viewport_details(&mut self, viewport_details: ViewportDetails) -> bool {
let device = self.stylist.device_mut();
let device_pixel_ratio = Scale::new(viewport_details.hidpi_scale_factor.get());
if device.viewport_size() == viewport_details.size &&
device.device_pixel_ratio() == device_pixel_ratio
{
return false;
}
device.set_viewport_size(viewport_details.size);
device.set_device_pixel_ratio(device_pixel_ratio);
self.device_has_changed = true;
true
}
fn load_web_fonts_from_stylesheet(
&self,
stylesheet: &ServoArc<Stylesheet>,
document_context: &WebFontDocumentContext,
) {
let guard = stylesheet.shared_lock.read();
self.load_all_web_fonts_from_stylesheet_with_guard(
&DocumentStyleSheet(stylesheet.clone()),
&guard,
document_context,
);
}
#[servo_tracing::instrument(skip_all)]
fn add_stylesheet(
&mut self,
stylesheet: ServoArc<Stylesheet>,
before_stylesheet: Option<ServoArc<Stylesheet>>,
document_context: &WebFontDocumentContext,
) {
let guard = stylesheet.shared_lock.read();
let stylesheet = DocumentStyleSheet(stylesheet.clone());
self.load_all_web_fonts_from_stylesheet_with_guard(&stylesheet, &guard, document_context);
match before_stylesheet {
Some(insertion_point) => self.stylist.insert_stylesheet_before(
stylesheet,
DocumentStyleSheet(insertion_point),
&guard,
),
None => self.stylist.append_stylesheet(stylesheet, &guard),
}
}
#[servo_tracing::instrument(skip_all)]
fn remove_stylesheet(&mut self, stylesheet: ServoArc<Stylesheet>) {
let guard = stylesheet.shared_lock.read();
let stylesheet = DocumentStyleSheet(stylesheet.clone());
self.stylist.remove_stylesheet(stylesheet.clone(), &guard);
self.font_context
.remove_all_web_fonts_from_stylesheet(&stylesheet);
}
#[servo_tracing::instrument(skip_all)]
fn remove_cached_image(&mut self, url: &ServoUrl) {
let mut resolved_images_cache = self.resolved_images_cache.write();
resolved_images_cache.remove(url);
}
/// Return the resolved values of this node's padding rect.
#[servo_tracing::instrument(skip_all)]
fn query_padding(&self, node: TrustedNodeAddress) -> Option<PhysicalSides> {
// If we have not built a fragment tree yet, there is no way we have layout information for
// this query, which can be run without forcing a layout (for IntersectionObserver).
if self.fragment_tree.borrow().is_none() {
return None;
}
let node = unsafe { ServoLayoutNode::new(&node) };
process_padding_request(node.to_threadsafe())
}
/// Return the union of this node's areas in the coordinate space of the Document. This is used
/// to implement `getBoundingClientRect()` and support many other API where the such query is
/// required.
///
/// Part of <https://drafts.csswg.org/cssom-view-1/#element-get-the-bounding-box>.
#[servo_tracing::instrument(skip_all)]
fn query_box_area(
&self,
node: TrustedNodeAddress,
area: BoxAreaType,
exclude_transform_and_inline: bool,
) -> Option<Rect<Au, CSSPixel>> {
// If we have not built a fragment tree yet, there is no way we have layout information for
// this query, which can be run without forcing a layout (for IntersectionObserver).
if self.fragment_tree.borrow().is_none() {
return None;
}
let node = unsafe { ServoLayoutNode::new(&node) };
let stacking_context_tree = self.stacking_context_tree.borrow();
let stacking_context_tree = stacking_context_tree
.as_ref()
.expect("Should always have a StackingContextTree for box area queries");
process_box_area_request(
stacking_context_tree,
node.to_threadsafe(),
area,
exclude_transform_and_inline,
)
}
/// Get a `Vec` of bounding boxes of this node's `Fragment`s specific area in the coordinate space of
/// the Document. This is used to implement `getClientRects()`.
///
/// See <https://drafts.csswg.org/cssom-view/#dom-element-getclientrects>.
#[servo_tracing::instrument(skip_all)]
fn query_box_areas(
&self,
node: TrustedNodeAddress,
area: BoxAreaType,
) -> Vec<Rect<Au, CSSPixel>> {
// If we have not built a fragment tree yet, there is no way we have layout information for
// this query, which can be run without forcing a layout (for IntersectionObserver).
if self.fragment_tree.borrow().is_none() {
return vec![];
}
let node = unsafe { ServoLayoutNode::new(&node) };
let stacking_context_tree = self.stacking_context_tree.borrow();
let stacking_context_tree = stacking_context_tree
.as_ref()
.expect("Should always have a StackingContextTree for box area queries");
process_box_areas_request(stacking_context_tree, node.to_threadsafe(), area)
}
#[servo_tracing::instrument(skip_all)]
fn query_client_rect(&self, node: TrustedNodeAddress) -> Rect<i32, CSSPixel> {
let node = unsafe { ServoLayoutNode::new(&node) };
process_client_rect_request(node.to_threadsafe())
}
#[servo_tracing::instrument(skip_all)]
fn query_current_css_zoom(&self, node: TrustedNodeAddress) -> f32 {
let node = unsafe { ServoLayoutNode::new(&node) };
process_current_css_zoom_query(node)
}
#[servo_tracing::instrument(skip_all)]
fn query_element_inner_outer_text(&self, node: layout_api::TrustedNodeAddress) -> String {
let node = unsafe { ServoLayoutNode::new(&node) };
get_the_text_steps(node)
}
#[servo_tracing::instrument(skip_all)]
fn query_offset_parent(&self, node: TrustedNodeAddress) -> OffsetParentResponse {
let node = unsafe { ServoLayoutNode::new(&node) };
let stacking_context_tree = self.stacking_context_tree.borrow();
let stacking_context_tree = stacking_context_tree
.as_ref()
.expect("Should always have a StackingContextTree for offset parent queries");
process_offset_parent_query(&stacking_context_tree.paint_info.scroll_tree, node)
.unwrap_or_default()
}
#[servo_tracing::instrument(skip_all)]
fn query_scroll_container(
&self,
node: Option<TrustedNodeAddress>,
flags: ScrollContainerQueryFlags,
) -> Option<ScrollContainerResponse> {
let node = unsafe { node.as_ref().map(|node| ServoLayoutNode::new(node)) };
let viewport_overflow = self
.box_tree
.borrow()
.as_ref()
.expect("Should have a BoxTree for all scroll container queries.")
.viewport_overflow;
process_scroll_container_query(node, flags, viewport_overflow)
}
#[servo_tracing::instrument(skip_all)]
fn query_resolved_style(
&self,
node: TrustedNodeAddress,
pseudo: Option<PseudoElement>,
property_id: PropertyId,
animations: DocumentAnimationSet,
animation_timeline_value: f64,
) -> String {
let node = unsafe { ServoLayoutNode::new(&node) };
let document = node.owner_doc();
let document_shared_lock = document.style_shared_lock();
let guards = StylesheetGuards {
author: &document_shared_lock.read(),
ua_or_user: &UA_STYLESHEETS.shared_lock.read(),
};
let snapshot_map = SnapshotMap::new();
let shared_style_context = self.build_shared_style_context(
guards,
&snapshot_map,
animation_timeline_value,
&animations,
TraversalFlags::empty(),
);
process_resolved_style_request(&shared_style_context, node, &pseudo, &property_id)
}
#[servo_tracing::instrument(skip_all)]
fn query_resolved_font_style(
&self,
node: TrustedNodeAddress,
value: &str,
animations: DocumentAnimationSet,
animation_timeline_value: f64,
) -> Option<ServoArc<Font>> {
let node = unsafe { ServoLayoutNode::new(&node) };
let document = node.owner_doc();
let document_shared_lock = document.style_shared_lock();
let guards = StylesheetGuards {
author: &document_shared_lock.read(),
ua_or_user: &UA_STYLESHEETS.shared_lock.read(),
};
let snapshot_map = SnapshotMap::new();
let shared_style_context = self.build_shared_style_context(
guards,
&snapshot_map,
animation_timeline_value,
&animations,
TraversalFlags::empty(),
);
process_resolved_font_style_query(
&shared_style_context,
node,
value,
self.url.clone(),
document_shared_lock,
)
}
#[servo_tracing::instrument(skip_all)]
fn query_scrolling_area(&self, node: Option<TrustedNodeAddress>) -> Rect<i32, CSSPixel> {
let node = node.map(|node| unsafe { ServoLayoutNode::new(&node).to_threadsafe() });
process_node_scroll_area_request(node, self.fragment_tree.borrow().clone())
}
#[servo_tracing::instrument(skip_all)]
fn query_text_index(
&self,
node: TrustedNodeAddress,
point_in_node: Point2D<Au, CSSPixel>,
) -> Option<usize> {
let node = unsafe { ServoLayoutNode::new(&node).to_threadsafe() };
let stacking_context_tree = self.stacking_context_tree.borrow_mut();
let stacking_context_tree = stacking_context_tree.as_ref()?;
find_character_offset_in_fragment_descendants(&node, stacking_context_tree, point_in_node)
}
#[servo_tracing::instrument(skip_all)]
fn query_elements_from_point(
&self,
point: webrender_api::units::LayoutPoint,
flags: layout_api::ElementsFromPointFlags,
) -> Vec<layout_api::ElementsFromPointResult> {
self.stacking_context_tree
.borrow_mut()
.as_mut()
.map(|tree| HitTest::run(tree, point, flags))
.unwrap_or_default()
}
fn exit_now(&mut self) {}
fn collect_reports(&self, reports: &mut Vec<Report>, ops: &mut MallocSizeOfOps) {
// TODO: Measure more than just display list, stylist, and font context.
let formatted_url = &format!("url({})", self.url);
reports.push(Report {
path: path![formatted_url, "layout-thread", "display-list"],
kind: ReportKind::ExplicitJemallocHeapSize,
size: 0,
});
reports.push(Report {
path: path![formatted_url, "layout-thread", "stylist"],
kind: ReportKind::ExplicitJemallocHeapSize,
size: self.stylist.size_of(ops),
});
reports.push(Report {
path: path![formatted_url, "layout-thread", "font-context"],
kind: ReportKind::ExplicitJemallocHeapSize,
size: self.font_context.conditional_size_of(ops),
});
reports.push(Report {
path: path![formatted_url, "layout-thread", "box-tree"],
kind: ReportKind::ExplicitJemallocHeapSize,
size: self
.box_tree
.borrow()
.as_ref()
.map_or(0, |tree| tree.conditional_size_of(ops)),
});
reports.push(Report {
path: path![formatted_url, "layout-thread", "fragment-tree"],
kind: ReportKind::ExplicitJemallocHeapSize,
size: self
.fragment_tree
.borrow()
.as_ref()
.map(|tree| tree.conditional_size_of(ops))
.unwrap_or_default(),
});
reports.push(Report {
path: path![formatted_url, "layout-thread", "stacking-context-tree"],
kind: ReportKind::ExplicitJemallocHeapSize,
size: self.stacking_context_tree.size_of(ops),
});
reports.extend(self.image_cache.memory_reports(formatted_url, ops));
}
fn set_quirks_mode(&mut self, quirks_mode: QuirksMode) {
self.stylist.set_quirks_mode(quirks_mode);
}
fn reflow(&mut self, reflow_request: ReflowRequest) -> Option<ReflowResult> {
time_profile!(
profile_time::ProfilerCategory::Layout,
self.profiler_metadata(),
self.time_profiler_chan.clone(),
|| self.handle_reflow(reflow_request),
)
}
fn ensure_stacking_context_tree(&self, viewport_details: ViewportDetails) {
if self.stacking_context_tree.borrow().is_some() &&
!self.need_new_stacking_context_tree.get()
{
return;
}
self.build_stacking_context_tree(viewport_details);
}
fn register_paint_worklet_modules(
&mut self,
_name: Atom,
_properties: Vec<Atom>,
_painter: Box<dyn Painter>,
) {
}
fn set_scroll_offsets_from_renderer(
&mut self,
scroll_states: &FxHashMap<ExternalScrollId, LayoutVector2D>,
) {
let mut stacking_context_tree = self.stacking_context_tree.borrow_mut();
let Some(stacking_context_tree) = stacking_context_tree.as_mut() else {
warn!("Received scroll offsets before finishing layout.");
return;
};
stacking_context_tree
.paint_info
.scroll_tree
.set_all_scroll_offsets(scroll_states);
}
fn scroll_offset(&self, id: ExternalScrollId) -> Option<LayoutVector2D> {
self.stacking_context_tree
.borrow_mut()
.as_mut()
.and_then(|tree| tree.paint_info.scroll_tree.scroll_offset(id))
}
fn needs_new_display_list(&self) -> bool {
self.need_new_display_list.get()
}
fn set_needs_new_display_list(&self) {
self.need_new_display_list.set(true);
}
/// <https://drafts.css-houdini.org/css-properties-values-api-1/#the-registerproperty-function>
fn register_custom_property(
&mut self,
property_registration: PropertyRegistration,
) -> Result<(), RegisterPropertyError> {
// Step 2. If name is not a custom property name string, throw a SyntaxError and exit this algorithm.
// If property set already contains an entry with name as its property name
// (compared codepoint-wise), throw an InvalidModificationError and exit this algorithm.
let Ok(name) = parse_name(&property_registration.name) else {
return Err(RegisterPropertyError::InvalidName);
};
let name = Atom::from(name);
if self
.stylist
.custom_property_script_registry()
.get(&name)
.is_some()
{
return Err(RegisterPropertyError::AlreadyRegistered);
}
// Step 3. Attempt to consume a syntax definition from syntax. If it returns failure,
// throw a SyntaxError. Otherwise, let syntax definition be the returned syntax definition.
let syntax = Descriptor::from_str(&property_registration.syntax, false)
.map_err(|_| RegisterPropertyError::InvalidSyntax)?;
// Step 4 - Parse and validate initial value
let initial_value = match property_registration.initial_value {
Some(value) => {
let mut input = ParserInput::new(&value);
let parsed = Parser::new(&mut input)
.parse_entirely(|input| {
input.skip_whitespace();
SpecifiedValue::parse(input, &property_registration.url_data)
.map(servo_arc::Arc::new)
})
.ok();
if parsed.is_none() {
return Err(RegisterPropertyError::InvalidInitialValue);
}
parsed
},
None => None,
};
StyloPropertyRegistration::validate_initial_value(&syntax, initial_value.as_deref())
.map_err(|error| match error {
PropertyRegistrationError::InitialValueNotComputationallyIndependent => {
RegisterPropertyError::InitialValueNotComputationallyIndependent
},
PropertyRegistrationError::InvalidInitialValue => {
RegisterPropertyError::InvalidInitialValue
},
PropertyRegistrationError::NoInitialValue => RegisterPropertyError::NoInitialValue,
})?;
// Step 5. Set inherit flag to the value of inherits.
let inherits = if property_registration.inherits {
Inherits::True
} else {
Inherits::False
};
// Step 6. Let registered property be a struct with a property name of name, a syntax of
// syntax definition, an initial value of parsed initial value, and an inherit flag of inherit flag.
// Append registered property to property set.
let property_registration = StyloPropertyRegistration {
name: PropertyRuleName(name),
data: PropertyRegistrationData {
syntax,
initial_value,
inherits,
},
url_data: property_registration.url_data,
source_location: SourceLocation { line: 0, column: 0 },
};
self.stylist
.custom_property_script_registry_mut()
.register(property_registration);
self.stylist.rebuild_initial_values_for_custom_properties();
Ok(())
}
}
impl LayoutThread {
fn new(config: LayoutConfig) -> LayoutThread {
// Let webrender know about this pipeline by sending an empty display list.
config
.paint_api
.send_initial_transaction(config.webview_id, config.id.into());
let mut font = Font::initial_values();
let default_font_size = pref!(fonts_default_size);
font.font_size = FontSize {
computed_size: NonNegativeLength::new(default_font_size as f32),
used_size: NonNegativeLength::new(default_font_size as f32),
keyword_info: KeywordInfo::medium(),
};
// The device pixel ratio is incorrect (it does not have the hidpi value),
// but it will be set correctly when the initial reflow takes place.
let device = Device::new(
MediaType::screen(),
QuirksMode::NoQuirks,
config.viewport_details.size,
Scale::new(config.viewport_details.hidpi_scale_factor.get()),
Box::new(LayoutFontMetricsProvider(config.font_context.clone())),
ComputedValues::initial_values_with_font_override(font),
config.theme.into(),
);
LayoutThread {
id: config.id,
webview_id: config.webview_id,
url: config.url,
is_iframe: config.is_iframe,
script_chan: config.script_chan.clone(),
time_profiler_chan: config.time_profiler_chan,
registered_painters: RegisteredPaintersImpl(Default::default()),
image_cache: config.image_cache,
font_context: config.font_context,
have_added_user_agent_stylesheets: false,
have_ever_generated_display_list: Cell::new(false),
device_has_changed: false,
need_overflow_calculation: Cell::new(false),
need_new_display_list: Cell::new(false),
need_new_stacking_context_tree: Cell::new(false),
box_tree: Default::default(),
fragment_tree: Default::default(),
stacking_context_tree: Default::default(),
paint_api: config.paint_api,
stylist: Stylist::new(device, QuirksMode::NoQuirks),
resolved_images_cache: Default::default(),
debug: opts::get().debug.clone(),
previously_highlighted_dom_node: Cell::new(None),
lcp_candidate_collector: Default::default(),
}
}
fn build_shared_style_context<'a>(
&'a self,
guards: StylesheetGuards<'a>,
snapshot_map: &'a SnapshotMap,
animation_timeline_value: f64,
animations: &DocumentAnimationSet,
traversal_flags: TraversalFlags,
) -> SharedStyleContext<'a> {
SharedStyleContext {
stylist: &self.stylist,
options: GLOBAL_STYLE_DATA.options.clone(),
guards,
visited_styles_enabled: false,
animations: animations.clone(),
registered_speculative_painters: &self.registered_painters,
current_time_for_animations: animation_timeline_value,
traversal_flags,
snapshot_map,
}
}
fn load_all_web_fonts_from_stylesheet_with_guard(
&self,
stylesheet: &DocumentStyleSheet,
guard: &SharedRwLockReadGuard,
document_context: &WebFontDocumentContext,
) {
let custom_media = &CustomMediaMap::default();
if !stylesheet.is_effective_for_device(self.stylist.device(), custom_media, guard) {
return;
}
let locked_script_channel = Mutex::new(self.script_chan.clone());
let pipeline_id = self.id;
let web_font_finished_loading_callback = move |succeeded: bool| {
let _ = locked_script_channel
.lock()
.send(ScriptThreadMessage::WebFontLoaded(pipeline_id, succeeded));
};
self.font_context.add_all_web_fonts_from_stylesheet(
self.webview_id,
stylesheet,
guard,
self.stylist.device(),
Arc::new(web_font_finished_loading_callback) as StylesheetWebFontLoadFinishedCallback,
document_context,
);
}
/// In some cases, if a restyle isn't necessary we can skip doing any work for layout
/// entirely. This check allows us to return early from layout without doing any work
/// at all.
fn can_skip_reflow_request_entirely(&self, reflow_request: &ReflowRequest) -> bool {
// If a restyle is necessary, restyle and reflow is a necessity.
if reflow_request.restyle.is_some() {
return false;
}
// We always need to at least build a fragment tree.
if self.fragment_tree.borrow().is_none() {
return false;
}
// If we have a fragment tree and it's up-to-date and this reflow
// doesn't need more reflow results, we can skip the rest of layout.
let necessary_phases = ReflowPhases::necessary(&reflow_request.reflow_goal);
if necessary_phases.is_empty() {
return true;
}
// If only the stacking context tree is required, and it's up-to-date,
// layout is unnecessary, otherwise a layout is necessary.
if necessary_phases == ReflowPhases::StackingContextTreeConstruction {
return self.stacking_context_tree.borrow().is_some() &&
!self.need_new_stacking_context_tree.get();
}
// Otherwise, the only interesting thing is whether the current display
// list is up-to-date.
assert_eq!(
necessary_phases,
ReflowPhases::StackingContextTreeConstruction | ReflowPhases::DisplayListConstruction
);
!self.need_new_display_list.get()
}
fn maybe_print_reflow_event(&self, reflow_request: &ReflowRequest) {
if !self.debug.relayout_event {
return;
}
println!(
"**** Reflow({}) => {:?}, {:?}",
self.id,
reflow_request.reflow_goal,
reflow_request
.restyle
.as_ref()
.map(|restyle| restyle.reason)
.unwrap_or_default()
);
}
/// Checks whether we need to update the scroll node, and report whether the
/// node is scrolled. We need to update the scroll node whenever it is requested.
fn handle_update_scroll_node_request(&self, reflow_request: &ReflowRequest) -> bool {
if let ReflowGoal::UpdateScrollNode(external_scroll_id, offset) = reflow_request.reflow_goal
{
self.set_scroll_offset_from_script(external_scroll_id, offset)
} else {
false
}
}
/// The high-level routine that performs layout.
#[servo_tracing::instrument(skip_all)]
fn handle_reflow(&mut self, mut reflow_request: ReflowRequest) -> Option<ReflowResult> {
self.maybe_print_reflow_event(&reflow_request);
if self.can_skip_reflow_request_entirely(&reflow_request) {
// We can skip layout, but we might need to update a scroll node.
return self
.handle_update_scroll_node_request(&reflow_request)
.then(|| ReflowResult {
reflow_phases_run: ReflowPhasesRun::UpdatedScrollNodeOffset,
..Default::default()
});
}
let document = unsafe { ServoLayoutNode::new(&reflow_request.document) };
let document = document.as_document().unwrap();
let Some(root_element) = document.root_element() else {
debug!("layout: No root node: bailing");
return None;
};
let image_resolver = Arc::new(ImageResolver {
origin: reflow_request.origin.clone(),
image_cache: self.image_cache.clone(),
resolved_images_cache: self.resolved_images_cache.clone(),
pending_images: Mutex::default(),
pending_rasterization_images: Mutex::default(),
pending_svg_elements_for_serialization: Mutex::default(),
animating_images: reflow_request.animating_images.clone(),
animation_timeline_value: reflow_request.animation_timeline_value,
});
let (mut reflow_phases_run, iframe_sizes) = self.restyle_and_build_trees(
&mut reflow_request,
document,
root_element,
&image_resolver,
);
if self.calculate_overflow() {
reflow_phases_run.insert(ReflowPhasesRun::CalculatedOverflow);
}
if self.build_stacking_context_tree_for_reflow(&reflow_request) {
reflow_phases_run.insert(ReflowPhasesRun::BuiltStackingContextTree);
}
if self.build_display_list(&reflow_request, &image_resolver) {
reflow_phases_run.insert(ReflowPhasesRun::BuiltDisplayList);
}
if self.handle_update_scroll_node_request(&reflow_request) {
reflow_phases_run.insert(ReflowPhasesRun::UpdatedScrollNodeOffset);
}
let pending_images = std::mem::take(&mut *image_resolver.pending_images.lock());
let pending_rasterization_images =
std::mem::take(&mut *image_resolver.pending_rasterization_images.lock());
let pending_svg_elements_for_serialization =
std::mem::take(&mut *image_resolver.pending_svg_elements_for_serialization.lock());
Some(ReflowResult {
reflow_phases_run,
pending_images,
pending_rasterization_images,
pending_svg_elements_for_serialization,
iframe_sizes: Some(iframe_sizes),
})
}
#[servo_tracing::instrument(skip_all)]
fn prepare_stylist_for_reflow<'dom>(
&mut self,
reflow_request: &ReflowRequest,
document: ServoLayoutDocument<'dom>,
root_element: ServoLayoutElement<'dom>,
guards: &StylesheetGuards,
ua_stylesheets: &UserAgentStylesheets,
snapshot_map: &SnapshotMap,
) {
if !self.have_added_user_agent_stylesheets {
for stylesheet in &ua_stylesheets.user_or_user_agent_stylesheets {
self.stylist
.append_stylesheet(stylesheet.clone(), guards.ua_or_user);
self.load_all_web_fonts_from_stylesheet_with_guard(
stylesheet,
guards.ua_or_user,
&reflow_request.document_context,
);
}
if self.stylist.quirks_mode() == QuirksMode::Quirks {
self.stylist.append_stylesheet(
ua_stylesheets.quirks_mode_stylesheet.clone(),
guards.ua_or_user,
);
self.load_all_web_fonts_from_stylesheet_with_guard(
&ua_stylesheets.quirks_mode_stylesheet,
guards.ua_or_user,
&reflow_request.document_context,
);
}
self.have_added_user_agent_stylesheets = true;
}
if reflow_request.stylesheets_changed() {
self.stylist
.force_stylesheet_origins_dirty(Origin::Author.into());
}
// Flush shadow roots stylesheets if dirty.
document.flush_shadow_roots_stylesheets(&mut self.stylist, guards.author);
self.stylist
.flush(guards, Some(root_element), Some(snapshot_map));
}
#[servo_tracing::instrument(skip_all)]
fn restyle_and_build_trees(
&mut self,
reflow_request: &mut ReflowRequest,
document: ServoLayoutDocument<'_>,
root_element: ServoLayoutElement<'_>,
image_resolver: &Arc<ImageResolver>,
) -> (ReflowPhasesRun, IFrameSizes) {
let mut snapshot_map = SnapshotMap::new();
let _snapshot_setter = match reflow_request.restyle.as_mut() {
Some(restyle) => SnapshotSetter::new(restyle, &mut snapshot_map),
None => return Default::default(),
};
let document_shared_lock = document.style_shared_lock();
let author_guard = document_shared_lock.read();
let ua_stylesheets = &*UA_STYLESHEETS;
let ua_or_user_guard = ua_stylesheets.shared_lock.read();
let guards = StylesheetGuards {
author: &author_guard,
ua_or_user: &ua_or_user_guard,
};
let rayon_pool = STYLE_THREAD_POOL.lock();
let rayon_pool = rayon_pool.pool();
let rayon_pool = rayon_pool.as_ref();
let device_has_changed = std::mem::replace(&mut self.device_has_changed, false);
if device_has_changed {
let sheet_origins_affected_by_device_change = self
.stylist
.media_features_change_changed_style(&guards, self.device());
self.stylist
.force_stylesheet_origins_dirty(sheet_origins_affected_by_device_change);
if let Some(mut data) = root_element.mutate_data() {
data.hint.insert(RestyleHint::recascade_subtree());
}
}
self.prepare_stylist_for_reflow(
reflow_request,
document,
root_element,
&guards,
ua_stylesheets,
&snapshot_map,
);
if self.previously_highlighted_dom_node.get() != reflow_request.highlighted_dom_node {
// Need to manually force layout to build a new display list regardless of whether the box tree
// changed or not.
self.need_new_display_list.set(true);
}
let layout_context = LayoutContext {
style_context: self.build_shared_style_context(
guards,
&snapshot_map,
reflow_request.animation_timeline_value,
&reflow_request.animations,
match reflow_request.stylesheets_changed() {
true => TraversalFlags::ForCSSRuleChanges,
false => TraversalFlags::empty(),
},
),
font_context: self.font_context.clone(),
iframe_sizes: Mutex::default(),
use_rayon: rayon_pool.is_some(),
image_resolver: image_resolver.clone(),
painter_id: self.webview_id.into(),
};
let restyle = reflow_request
.restyle
.as_ref()
.expect("Should not get here if there is not restyle.");
let recalc_style_traversal;
let dirty_root;
{
let _span = profile_traits::trace_span!("Styling").entered();
let original_dirty_root = unsafe {
ServoLayoutNode::new(&restyle.dirty_root.unwrap())
.as_element()
.unwrap()
};
recalc_style_traversal = RecalcStyle::new(&layout_context);
let token = {
let shared =
DomTraversal::<ServoLayoutElement>::shared_context(&recalc_style_traversal);
RecalcStyle::pre_traverse(original_dirty_root, shared)
};
if !token.should_traverse() {
layout_context.style_context.stylist.rule_tree().maybe_gc();
return Default::default();
}
dirty_root = driver::traverse_dom(&recalc_style_traversal, token, rayon_pool).as_node();
}
let root_node = root_element.as_node();
let damage_from_environment = if device_has_changed {
RestyleDamage::RELAYOUT
} else {
Default::default()
};
let damage = compute_damage_and_repair_style(
&layout_context.style_context,
root_node.to_threadsafe(),
damage_from_environment,
);
if damage.contains(RestyleDamage::RECALCULATE_OVERFLOW) {
self.need_overflow_calculation.set(true);
}
if damage.contains(RestyleDamage::REBUILD_STACKING_CONTEXT) {
self.need_new_stacking_context_tree.set(true);
}
if damage.contains(RestyleDamage::REPAINT) {
self.need_new_display_list.set(true);
}
if !damage.contains(RestyleDamage::RELAYOUT) {
layout_context.style_context.stylist.rule_tree().maybe_gc();
return (ReflowPhasesRun::empty(), IFrameSizes::default());
}
let mut box_tree = self.box_tree.borrow_mut();
let box_tree = &mut *box_tree;
let layout_damage: LayoutDamage = damage.into();
if box_tree.is_none() || layout_damage.has_box_damage() {
let mut build_box_tree = || {
if !BoxTree::update(recalc_style_traversal.context(), dirty_root) {
*box_tree = Some(Arc::new(BoxTree::construct(
recalc_style_traversal.context(),
root_node,
)));
}
};
if let Some(pool) = rayon_pool {
pool.install(build_box_tree)
} else {
build_box_tree()
};
}
let viewport_size = self.stylist.device().au_viewport_size();
let run_layout = || {
box_tree
.as_ref()
.unwrap()
.layout(recalc_style_traversal.context(), viewport_size)
};
let fragment_tree = Rc::new(if let Some(pool) = rayon_pool {
pool.install(run_layout)
} else {
run_layout()
});
*self.fragment_tree.borrow_mut() = Some(fragment_tree);
if self.debug.style_tree {
println!(
"{:?}",
ShowSubtreeDataAndPrimaryValues(root_element.as_node())
);
}
if self.debug.rule_tree {
recalc_style_traversal
.context()
.style_context
.stylist
.rule_tree()
.dump_stdout(&layout_context.style_context.guards);
}
// GC the rule tree if some heuristics are met.
layout_context.style_context.stylist.rule_tree().maybe_gc();
let mut iframe_sizes = layout_context.iframe_sizes.lock();
(
ReflowPhasesRun::RanLayout,
std::mem::take(&mut *iframe_sizes),
)
}
#[servo_tracing::instrument(name = "Overflow Calculation", skip_all)]
fn calculate_overflow(&self) -> bool {
if !self.need_overflow_calculation.get() {
return false;
}
if let Some(fragment_tree) = &*self.fragment_tree.borrow() {
fragment_tree.calculate_scrollable_overflow();
if self.debug.flow_tree {
fragment_tree.print();
}
}
self.need_overflow_calculation.set(false);
assert!(self.need_new_display_list.get());
assert!(self.need_new_stacking_context_tree.get());
true
}
fn build_stacking_context_tree_for_reflow(&self, reflow_request: &ReflowRequest) -> bool {
if !ReflowPhases::necessary(&reflow_request.reflow_goal)
.contains(ReflowPhases::StackingContextTreeConstruction)
{
return false;
}
if !self.need_new_stacking_context_tree.get() {
return false;
}
self.build_stacking_context_tree(reflow_request.viewport_details)
}
#[servo_tracing::instrument(name = "Stacking Context Tree Construction", skip_all)]
fn build_stacking_context_tree(&self, viewport_details: ViewportDetails) -> bool {
let Some(fragment_tree) = &*self.fragment_tree.borrow() else {
return false;
};
let mut stacking_context_tree = self.stacking_context_tree.borrow_mut();
let old_scroll_offsets = stacking_context_tree
.as_ref()
.map(|tree| tree.paint_info.scroll_tree.scroll_offsets());
// Build the StackingContextTree. This turns the `FragmentTree` into a
// tree of fragments in CSS painting order and also creates all
// applicable spatial and clip nodes.
let mut new_stacking_context_tree = StackingContextTree::new(
fragment_tree,
viewport_details,
self.id.into(),
!self.have_ever_generated_display_list.get(),
&self.debug,
);
// When a new StackingContextTree is built, it contains a freshly built
// ScrollTree. We want to preserve any existing scroll offsets in that tree,
// adjusted by any new scroll constraints.
if let Some(old_scroll_offsets) = old_scroll_offsets {
new_stacking_context_tree
.paint_info
.scroll_tree
.set_all_scroll_offsets(&old_scroll_offsets);
}
if self.debug.scroll_tree {
new_stacking_context_tree
.paint_info
.scroll_tree
.debug_print();
}
*stacking_context_tree = Some(new_stacking_context_tree);
// The stacking context tree is up-to-date again.
self.need_new_stacking_context_tree.set(false);
assert!(self.need_new_display_list.get());
true
}
/// Build the display list for the current layout and send it to the renderer. If no display
/// list is built, returns false.
#[servo_tracing::instrument(name = "Display List Construction", skip_all)]
fn build_display_list(
&self,
reflow_request: &ReflowRequest,
image_resolver: &Arc<ImageResolver>,
) -> bool {
if !ReflowPhases::necessary(&reflow_request.reflow_goal)
.contains(ReflowPhases::DisplayListConstruction)
{
return false;
}
let Some(fragment_tree) = &*self.fragment_tree.borrow() else {
return false;
};
let mut stacking_context_tree = self.stacking_context_tree.borrow_mut();
let Some(stacking_context_tree) = stacking_context_tree.as_mut() else {
return false;
};
// If a non-display-list-generating reflow updated layout in a previous refow, we
// cannot skip display list generation here the next time a display list is
// requested.
if !self.need_new_display_list.get() {
return false;
}
// TODO: Eventually this should be set when `paint_info` is created, but that requires
// ensuring that the Epoch is passed to any method that can creates `StackingContextTree`.
stacking_context_tree.paint_info.epoch = reflow_request.epoch;
let mut lcp_candidate_collector = self.lcp_candidate_collector.borrow_mut();
if pref!(largest_contentful_paint_enabled) {
// This ensures that we only create the LCP collector once per layout thread.
if lcp_candidate_collector.is_none() {
*lcp_candidate_collector = Some(LargestContentfulPaintCandidateCollector::new(
stacking_context_tree
.paint_info
.viewport_details
.layout_size(),
));
}
} else {
*lcp_candidate_collector = None;
}
let built_display_list = DisplayListBuilder::build(
stacking_context_tree,
fragment_tree,
image_resolver.clone(),
self.device().device_pixel_ratio(),
reflow_request.highlighted_dom_node,
&self.debug,
lcp_candidate_collector.as_mut(),
);
self.paint_api.send_display_list(
self.webview_id,
&stacking_context_tree.paint_info,
built_display_list,
);
if let Some(lcp_candidate_collector) = lcp_candidate_collector.as_mut() {
if lcp_candidate_collector.did_lcp_candidate_update {
if let Some(lcp_candidate) = lcp_candidate_collector.largest_contentful_paint() {
self.paint_api.send_lcp_candidate(
lcp_candidate,
self.webview_id,
self.id,
stacking_context_tree.paint_info.epoch,
);
lcp_candidate_collector.did_lcp_candidate_update = false;
}
}
}
let (keys, instance_keys) = self
.font_context
.collect_unused_webrender_resources(false /* all */);
self.paint_api
.remove_unused_font_resources(self.webview_id.into(), keys, instance_keys);
self.have_ever_generated_display_list.set(true);
self.need_new_display_list.set(false);
self.previously_highlighted_dom_node
.set(reflow_request.highlighted_dom_node);
true
}
fn set_scroll_offset_from_script(
&self,
external_scroll_id: ExternalScrollId,
offset: LayoutVector2D,
) -> bool {
let mut stacking_context_tree = self.stacking_context_tree.borrow_mut();
let Some(stacking_context_tree) = stacking_context_tree.as_mut() else {
return false;
};
if let Some(offset) = stacking_context_tree
.paint_info
.scroll_tree
.set_scroll_offset_for_node_with_external_scroll_id(
external_scroll_id,
offset,
ScrollType::Script,
)
{
self.paint_api.scroll_node_by_delta(
self.webview_id,
self.id.into(),
offset,
external_scroll_id,
);
true
} else {
false
}
}
/// Returns profiling information which is passed to the time profiler.
fn profiler_metadata(&self) -> Option<TimerMetadata> {
Some(TimerMetadata {
url: self.url.to_string(),
iframe: if self.is_iframe {
TimerMetadataFrameType::IFrame
} else {
TimerMetadataFrameType::RootWindow
},
incremental: if self.have_ever_generated_display_list.get() {
TimerMetadataReflowType::Incremental
} else {
TimerMetadataReflowType::FirstReflow
},
})
}
}
fn get_ua_stylesheets() -> Result<UserAgentStylesheets, &'static str> {
fn parse_ua_stylesheet(
shared_lock: &SharedRwLock,
filename: &str,
content: &[u8],
) -> Result<DocumentStyleSheet, &'static str> {
let url = Url::parse(&format!("chrome://resources/{:?}", filename))
.ok()
.unwrap();
Ok(DocumentStyleSheet(ServoArc::new(Stylesheet::from_bytes(
content,
url.into(),
None,
None,
Origin::UserAgent,
ServoArc::new(shared_lock.wrap(MediaList::empty())),
shared_lock.clone(),
None,
None,
QuirksMode::NoQuirks,
))))
}
let shared_lock = &GLOBAL_STYLE_DATA.shared_lock;
// FIXME: presentational-hints.css should be at author origin with zero specificity.
// (Does it make a difference?)
let mut user_or_user_agent_stylesheets = vec![
parse_ua_stylesheet(shared_lock, "user-agent.css", USER_AGENT_CSS)?,
parse_ua_stylesheet(shared_lock, "servo.css", SERVO_CSS)?,
parse_ua_stylesheet(
shared_lock,
"presentational-hints.css",
PRESENTATIONAL_HINTS_CSS,
)?,
];
for (contents, url) in &opts::get().user_stylesheets {
user_or_user_agent_stylesheets.push(DocumentStyleSheet(ServoArc::new(
Stylesheet::from_bytes(
contents,
UrlExtraData(url.get_arc()),
None,
None,
Origin::User,
ServoArc::new(shared_lock.wrap(MediaList::empty())),
shared_lock.clone(),
None,
Some(&RustLogReporter),
QuirksMode::NoQuirks,
),
)));
}
let quirks_mode_stylesheet =
parse_ua_stylesheet(shared_lock, "quirks-mode.css", QUIRKS_MODE_CSS)?;
Ok(UserAgentStylesheets {
shared_lock: shared_lock.clone(),
user_or_user_agent_stylesheets,
quirks_mode_stylesheet,
})
}
static UA_STYLESHEETS: LazyLock<UserAgentStylesheets> =
LazyLock::new(|| match get_ua_stylesheets() {
Ok(stylesheets) => stylesheets,
Err(filename) => {
error!("Failed to load UA stylesheet {}!", filename);
process::exit(1);
},
});
struct RegisteredPainterImpl {
painter: Box<dyn Painter>,
name: Atom,
// FIXME: Should be a PrecomputedHashMap.
properties: FxHashMap<Atom, PropertyId>,
}
impl SpeculativePainter for RegisteredPainterImpl {
fn speculatively_draw_a_paint_image(
&self,
properties: Vec<(Atom, String)>,
arguments: Vec<String>,
) {
self.painter
.speculatively_draw_a_paint_image(properties, arguments);
}
}
impl RegisteredSpeculativePainter for RegisteredPainterImpl {
fn properties(&self) -> &FxHashMap<Atom, PropertyId> {
&self.properties
}
fn name(&self) -> Atom {
self.name.clone()
}
}
impl Painter for RegisteredPainterImpl {
fn draw_a_paint_image(
&self,
size: Size2D<f32, CSSPixel>,
device_pixel_ratio: Scale<f32, CSSPixel, DevicePixel>,
properties: Vec<(Atom, String)>,
arguments: Vec<String>,
) -> Result<DrawAPaintImageResult, PaintWorkletError> {
self.painter
.draw_a_paint_image(size, device_pixel_ratio, properties, arguments)
}
}
struct RegisteredPaintersImpl(HashMap<Atom, RegisteredPainterImpl>);
impl RegisteredSpeculativePainters for RegisteredPaintersImpl {
fn get(&self, name: &Atom) -> Option<&dyn RegisteredSpeculativePainter> {
self.0
.get(name)
.map(|painter| painter as &dyn RegisteredSpeculativePainter)
}
}
struct LayoutFontMetricsProvider(Arc<FontContext>);
impl FontMetricsProvider for LayoutFontMetricsProvider {
fn query_font_metrics(
&self,
_vertical: bool,
font: &Font,
base_size: CSSPixelLength,
_flags: QueryFontMetricsFlags,
) -> FontMetrics {
let font_context = &self.0;
let font_group = self
.0
.font_group_with_size(ServoArc::new(font.clone()), base_size.into());
let Some(first_font_metrics) = font_group
.first(font_context)
.map(|font| font.metrics.clone())
else {
return Default::default();
};
// Only use the x-height of this font if it is non-zero. Some fonts return
// inaccurate metrics, which shouldn't be used.
let x_height = Some(first_font_metrics.x_height)
.filter(|x_height| !x_height.is_zero())
.map(CSSPixelLength::from);
let zero_advance_measure = first_font_metrics
.zero_horizontal_advance
.or_else(|| {
font_group
.find_by_codepoint(font_context, '0', None, None, None)?
.metrics
.zero_horizontal_advance
})
.map(CSSPixelLength::from);
let ic_width = first_font_metrics
.ic_horizontal_advance
.or_else(|| {
font_group
.find_by_codepoint(font_context, '\u{6C34}', None, None, None)?
.metrics
.ic_horizontal_advance
})
.map(CSSPixelLength::from);
FontMetrics {
x_height,
zero_advance_measure,
cap_height: None,
ic_width,
ascent: first_font_metrics.ascent.into(),
script_percent_scale_down: None,
script_script_percent_scale_down: None,
}
}
fn base_size_for_generic(&self, generic: GenericFontFamily) -> Length {
Length::new(match generic {
GenericFontFamily::Monospace => pref!(fonts_default_monospace_size),
_ => pref!(fonts_default_size),
} as f32)
.max(Length::new(0.0))
}
}
impl Debug for LayoutFontMetricsProvider {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
f.debug_tuple("LayoutFontMetricsProvider").finish()
}
}
struct SnapshotSetter<'dom> {
elements_with_snapshot: Vec<ServoLayoutElement<'dom>>,
}
impl SnapshotSetter<'_> {
fn new(restyle: &mut ReflowRequestRestyle, snapshot_map: &mut SnapshotMap) -> Self {
debug!("Draining restyles: {}", restyle.pending_restyles.len());
let restyles = std::mem::take(&mut restyle.pending_restyles);
let elements_with_snapshot: Vec<_> = restyles
.iter()
.filter(|r| r.1.snapshot.is_some())
.map(|r| unsafe { ServoLayoutNode::new(&r.0).as_element().unwrap() })
.collect();
for (element, restyle) in restyles {
let element = unsafe { ServoLayoutNode::new(&element).as_element().unwrap() };
// If we haven't styled this node yet, we don't need to track a
// restyle.
let Some(mut style_data) = element.mutate_data() else {
unsafe { element.unset_snapshot_flags() };
continue;
};
debug!("Noting restyle for {:?}: {:?}", element, style_data);
if let Some(s) = restyle.snapshot {
unsafe { element.set_has_snapshot() };
snapshot_map.insert(element.as_node().opaque(), s);
}
// Stash the data on the element for processing by the style system.
style_data.hint.insert(restyle.hint);
style_data.damage = restyle.damage;
}
Self {
elements_with_snapshot,
}
}
}
impl Drop for SnapshotSetter<'_> {
fn drop(&mut self) {
for element in &self.elements_with_snapshot {
unsafe { element.unset_snapshot_flags() }
}
}
}
bitflags! {
#[derive(Clone, Copy, Debug, Eq, PartialEq)]
pub struct ReflowPhases: u8 {
const StackingContextTreeConstruction = 1 << 0;
const DisplayListConstruction = 1 << 1;
}
}
impl ReflowPhases {
/// Return the necessary phases of layout for the given [`ReflowGoal`]. Note that all
/// [`ReflowGoals`] need the basic restyle + box tree layout + fragment tree layout,
/// so [`ReflowPhases::empty()`] implies that.
fn necessary(reflow_goal: &ReflowGoal) -> Self {
match reflow_goal {
ReflowGoal::LayoutQuery(query) => match query {
QueryMsg::NodesFromPointQuery => {
Self::StackingContextTreeConstruction | Self::DisplayListConstruction
},
QueryMsg::BoxArea |
QueryMsg::BoxAreas |
QueryMsg::ElementsFromPoint |
QueryMsg::OffsetParentQuery |
QueryMsg::ResolvedStyleQuery |
QueryMsg::ScrollingAreaOrOffsetQuery |
QueryMsg::TextIndexQuery => Self::StackingContextTreeConstruction,
QueryMsg::ClientRectQuery |
QueryMsg::CurrentCSSZoomQuery |
QueryMsg::ElementInnerOuterTextQuery |
QueryMsg::InnerWindowDimensionsQuery |
QueryMsg::PaddingQuery |
QueryMsg::ResolvedFontStyleQuery |
QueryMsg::ScrollParentQuery |
QueryMsg::StyleQuery => Self::empty(),
},
ReflowGoal::UpdateScrollNode(..) | ReflowGoal::UpdateTheRendering => {
Self::StackingContextTreeConstruction | Self::DisplayListConstruction
},
}
}
}
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