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layout/
layout_impl.rs

1/* This Source Code Form is subject to the terms of the Mozilla Public
2 * License, v. 2.0. If a copy of the MPL was not distributed with this
3 * file, You can obtain one at https://mozilla.org/MPL/2.0/. */
4
5#![expect(unsafe_code)]
6
7use std::cell::{Cell, RefCell};
8use std::collections::HashMap;
9use std::fmt::Debug;
10use std::process;
11use std::rc::Rc;
12use std::sync::{Arc, LazyLock};
13
14use app_units::Au;
15use bitflags::bitflags;
16use embedder_traits::{
17    EmbedderMsg, ScriptToEmbedderChan, Theme, UntrustedNodeAddress, ViewportDetails,
18};
19use euclid::{Point2D, Rect, Scale, Size2D};
20use fonts::{FontContext, FontContextWebFontMethods, WebFontDocumentContext};
21use fonts_traits::StylesheetWebFontLoadFinishedCallback;
22use icu_locid::subtags::Language;
23use layout_api::{
24    AxesOverflow, BoxAreaType, CSSPixelRectIterator, DangerousStyleNode, IFrameSizes, Layout,
25    LayoutConfig, LayoutElement, LayoutFactory, LayoutNode, NodeRenderingType,
26    OffsetParentResponse, PhysicalSides, QueryMsg, ReflowGoal, ReflowPhasesRun, ReflowRequest,
27    ReflowRequestRestyle, ReflowResult, ReflowStatistics, ScrollContainerQueryFlags,
28    ScrollContainerResponse, TrustedNodeAddress, with_layout_state,
29};
30use log::{debug, error, warn};
31use malloc_size_of::{MallocConditionalSizeOf, MallocSizeOf, MallocSizeOfOps};
32use net_traits::image_cache::ImageCache;
33use paint_api::CrossProcessPaintApi;
34use paint_api::display_list::{AxesScrollSensitivity, PaintDisplayListInfo, ScrollType};
35use parking_lot::{Mutex, RwLock};
36use profile_traits::mem::{Report, ReportKind};
37use profile_traits::time::{
38    self as profile_time, TimerMetadata, TimerMetadataFrameType, TimerMetadataReflowType,
39};
40use profile_traits::{path, time_profile};
41use rustc_hash::FxHashMap;
42use script::layout_dom::{
43    ServoDangerousStyleDocument, ServoDangerousStyleElement, ServoLayoutElement, ServoLayoutNode,
44};
45use script_traits::{DrawAPaintImageResult, PaintWorkletError, Painter, ScriptThreadMessage};
46use servo_arc::Arc as ServoArc;
47use servo_base::Epoch;
48use servo_base::generic_channel::GenericSender;
49use servo_base::id::{PipelineId, WebViewId};
50use servo_config::opts::{self, DiagnosticsLogging};
51use servo_config::pref;
52use servo_url::ServoUrl;
53use style::animation::DocumentAnimationSet;
54use style::context::{
55    QuirksMode, RegisteredSpeculativePainter, RegisteredSpeculativePainters, SharedStyleContext,
56};
57use style::device::Device;
58use style::device::servo::FontMetricsProvider;
59use style::dom::{OpaqueNode, ShowSubtreeDataAndPrimaryValues, TElement, TNode};
60use style::font_metrics::FontMetrics;
61use style::global_style_data::GLOBAL_STYLE_DATA;
62use style::invalidation::element::restyle_hints::RestyleHint;
63use style::invalidation::stylesheets::StylesheetInvalidationSet;
64use style::media_queries::{MediaList, MediaType};
65use style::properties::style_structs::Font;
66use style::properties::{ComputedValues, PropertyId};
67use style::queries::values::PrefersColorScheme;
68use style::selector_parser::{PseudoElement, RestyleDamage, SnapshotMap};
69use style::shared_lock::{SharedRwLock, SharedRwLockReadGuard, StylesheetGuards};
70use style::stylesheets::{
71    CustomMediaMap, DocumentStyleSheet, Origin, Stylesheet, StylesheetInDocument,
72};
73use style::stylist::Stylist;
74use style::traversal::DomTraversal;
75use style::traversal_flags::TraversalFlags;
76use style::values::computed::font::GenericFontFamily;
77use style::values::computed::{CSSPixelLength, FontSize, Length, NonNegativeLength};
78use style::values::specified::font::{KeywordInfo, QueryFontMetricsFlags};
79use style::{Zero, driver};
80use style_traits::{CSSPixel, SpeculativePainter};
81use stylo_atoms::Atom;
82use url::Url;
83use webrender_api::ExternalScrollId;
84use webrender_api::units::{DevicePixel, LayoutVector2D};
85
86use crate::accessibility_tree::AccessibilityTree;
87use crate::context::{CachedImageOrError, ImageResolver, LayoutContext};
88use crate::display_list::{DisplayListBuilder, HitTest, PaintTimingHandler, StackingContextTree};
89use crate::dom::NodeExt;
90use crate::query::{
91    find_character_offset_in_fragment_descendants, get_the_text_steps, process_box_area_request,
92    process_box_areas_request, process_client_rect_request, process_containing_block_query,
93    process_current_css_zoom_query, process_effective_overflow_query,
94    process_node_scroll_area_request, process_offset_parent_query, process_padding_request,
95    process_resolved_font_style_query, process_resolved_style_request,
96    process_scroll_container_query,
97};
98use crate::traversal::{RecalcStyle, compute_damage_and_rebuild_box_tree};
99use crate::{BoxTree, FragmentTree};
100
101// This mutex is necessary due to syncronisation issues between two different types of thread-local storage
102// which manifest themselves when the layout thread tries to layout iframes in parallel with the main page
103//
104// See: https://github.com/servo/servo/pull/29792
105// And: https://gist.github.com/mukilan/ed57eb61b83237a05fbf6360ec5e33b0
106static STYLE_THREAD_POOL: Mutex<&LazyLock<style::global_style_data::StyleThreadPool>> =
107    Mutex::new(&style::global_style_data::STYLE_THREAD_POOL);
108
109/// A CSS file to style the user agent stylesheet.
110static USER_AGENT_CSS: &[u8] = include_bytes!("./stylesheets/user-agent.css");
111
112/// A CSS file to style the Servo browser.
113static SERVO_CSS: &[u8] = include_bytes!("./stylesheets/servo.css");
114
115/// A CSS file to style the presentational hints.
116static PRESENTATIONAL_HINTS_CSS: &[u8] = include_bytes!("./stylesheets/presentational-hints.css");
117
118/// A CSS file to style the quirks mode.
119static QUIRKS_MODE_CSS: &[u8] = include_bytes!("./stylesheets/quirks-mode.css");
120
121/// Information needed by layout.
122pub struct LayoutThread {
123    /// The ID of the pipeline that we belong to.
124    id: PipelineId,
125
126    /// The webview that contains the pipeline we belong to.
127    webview_id: WebViewId,
128
129    /// The URL of the pipeline that we belong to.
130    url: ServoUrl,
131
132    /// Performs CSS selector matching and style resolution.
133    stylist: Stylist,
134
135    /// Is the current reflow of an iframe, as opposed to a root window?
136    is_iframe: bool,
137
138    /// The channel on which messages can be sent to the script thread.
139    script_chan: GenericSender<ScriptThreadMessage>,
140
141    /// The channel on which messages can be sent to the time profiler.
142    time_profiler_chan: profile_time::ProfilerChan,
143
144    /// The channel to send messages to the Embedder.
145    embedder_chan: ScriptToEmbedderChan,
146
147    /// Reference to the script thread image cache.
148    image_cache: Arc<dyn ImageCache>,
149
150    /// A FontContext to be used during layout.
151    font_context: Arc<FontContext>,
152
153    /// Whether or not user agent stylesheets have been added to the Stylist or not.
154    have_added_user_agent_stylesheets: bool,
155
156    // A vector of parsed `DocumentStyleSheet`s representing the corresponding `UserStyleSheet`s
157    // associated with the `WebView` to which this `Layout` belongs. The `DocumentStylesheet`s might
158    // be shared with `Layout`s in the same `ScriptThread`.
159    user_stylesheets: Rc<Vec<DocumentStyleSheet>>,
160
161    /// Whether or not this [`LayoutImpl`]'s [`Device`] has changed since the last restyle.
162    /// If it has, a restyle is pending.
163    device_has_changed: bool,
164
165    /// Is this the first reflow in this LayoutThread?
166    have_ever_generated_display_list: Cell<bool>,
167
168    /// Whether the last display list we sent was effectively empty.
169    last_display_list_was_empty: Cell<bool>,
170
171    /// Whether a new overflow calculation needs to happen due to changes to the fragment
172    /// tree. This is set to true every time a restyle requests overflow calculation.
173    need_overflow_calculation: Cell<bool>,
174
175    /// Whether a new display list is necessary due to changes to layout or stacking
176    /// contexts. This is set to true every time layout changes, even when a display list
177    /// isn't requested for this layout, such as for layout queries. The next time a
178    /// layout requests a display list, it is produced unconditionally, even when the
179    /// layout trees remain the same.
180    need_new_display_list: Cell<bool>,
181
182    /// Whether or not the existing stacking context tree is dirty and needs to be
183    /// rebuilt. This happens after a relayout or overflow update. The reason that we
184    /// don't simply clear the stacking context tree when it becomes dirty is that we need
185    /// to preserve scroll offsets from the old tree to the new one.
186    need_new_stacking_context_tree: Cell<bool>,
187
188    /// The box tree.
189    box_tree: RefCell<Option<Arc<BoxTree>>>,
190
191    /// The fragment tree.
192    fragment_tree: RefCell<Option<Rc<FragmentTree>>>,
193
194    /// The [`StackingContextTree`] cached from previous layouts.
195    stacking_context_tree: RefCell<Option<StackingContextTree>>,
196
197    // A cache that maps image resources specified in CSS (e.g as the `url()` value
198    // for `background-image` or `content` properties) to either the final resolved
199    // image data, or an error if the image cache failed to load/decode the image.
200    resolved_images_cache: Arc<RwLock<HashMap<ServoUrl, CachedImageOrError>>>,
201
202    /// The executors for paint worklets.
203    registered_painters: RegisteredPaintersImpl,
204
205    /// Cross-process access to the `Paint` API.
206    paint_api: CrossProcessPaintApi,
207
208    /// Debug options, copied from configuration to this `LayoutThread` in order
209    /// to avoid having to constantly access the thread-safe global options.
210    debug: DiagnosticsLogging,
211
212    /// Tracks the node that was highlighted by the devtools during the last reflow.
213    ///
214    /// If this changed, then we need to create a new display list.
215    previously_highlighted_dom_node: Cell<Option<OpaqueNode>>,
216
217    /// Handler for all Paint Timings
218    paint_timing_handler: RefCell<Option<PaintTimingHandler>>,
219
220    /// Layout's internal representation of its accessibility tree.
221    /// This is `None` if accessibility is not active.
222    accessibility_tree: RefCell<Option<AccessibilityTree>>,
223
224    /// See [Layout::needs_accessibility_update()].
225    needs_accessibility_update: Cell<bool>,
226}
227
228pub struct LayoutFactoryImpl();
229
230impl LayoutFactory for LayoutFactoryImpl {
231    fn create(&self, config: LayoutConfig) -> Box<dyn Layout> {
232        Box::new(LayoutThread::new(config))
233    }
234}
235
236impl Drop for LayoutThread {
237    fn drop(&mut self) {
238        let (keys, instance_keys) = self
239            .font_context
240            .collect_unused_webrender_resources(true /* all */);
241        self.paint_api
242            .remove_unused_font_resources(self.webview_id.into(), keys, instance_keys)
243    }
244}
245
246impl Layout for LayoutThread {
247    fn device(&self) -> &Device {
248        self.stylist.device()
249    }
250
251    fn set_theme(&mut self, theme: Theme) -> bool {
252        let theme: PrefersColorScheme = theme.into();
253        let device = self.stylist.device_mut();
254        if theme == device.color_scheme() {
255            return false;
256        }
257
258        device.set_color_scheme(theme);
259        self.device_has_changed = true;
260        true
261    }
262
263    fn set_viewport_details(&mut self, viewport_details: ViewportDetails) -> bool {
264        let device = self.stylist.device_mut();
265        let device_pixel_ratio = Scale::new(viewport_details.hidpi_scale_factor.get());
266        if device.viewport_size() == viewport_details.size &&
267            device.device_pixel_ratio() == device_pixel_ratio
268        {
269            return false;
270        }
271
272        device.set_viewport_size(viewport_details.size);
273        device.set_device_pixel_ratio(device_pixel_ratio);
274        self.device_has_changed = true;
275        true
276    }
277
278    fn load_web_fonts_from_stylesheet(
279        &self,
280        stylesheet: &ServoArc<Stylesheet>,
281        document_context: &WebFontDocumentContext,
282    ) {
283        let guard = stylesheet.shared_lock.read();
284        self.load_all_web_fonts_from_stylesheet_with_guard(
285            &DocumentStyleSheet(stylesheet.clone()),
286            &guard,
287            document_context,
288        );
289    }
290
291    #[servo_tracing::instrument(skip_all)]
292    fn add_stylesheet(
293        &mut self,
294        stylesheet: ServoArc<Stylesheet>,
295        before_stylesheet: Option<ServoArc<Stylesheet>>,
296        document_context: &WebFontDocumentContext,
297    ) {
298        let guard = stylesheet.shared_lock.read();
299        let stylesheet = DocumentStyleSheet(stylesheet.clone());
300        self.load_all_web_fonts_from_stylesheet_with_guard(&stylesheet, &guard, document_context);
301
302        match before_stylesheet {
303            Some(insertion_point) => self.stylist.insert_stylesheet_before(
304                stylesheet,
305                DocumentStyleSheet(insertion_point),
306                &guard,
307            ),
308            None => self.stylist.append_stylesheet(stylesheet, &guard),
309        }
310    }
311
312    #[servo_tracing::instrument(skip_all)]
313    fn remove_stylesheet(&mut self, stylesheet: ServoArc<Stylesheet>) {
314        let guard = stylesheet.shared_lock.read();
315        let stylesheet = DocumentStyleSheet(stylesheet.clone());
316        self.stylist.remove_stylesheet(stylesheet.clone(), &guard);
317        self.font_context
318            .remove_all_web_fonts_from_stylesheet(&stylesheet);
319    }
320
321    #[servo_tracing::instrument(skip_all)]
322    fn remove_cached_image(&mut self, url: &ServoUrl) {
323        let mut resolved_images_cache = self.resolved_images_cache.write();
324        resolved_images_cache.remove(url);
325    }
326
327    fn node_rendering_type(
328        &self,
329        node: TrustedNodeAddress,
330        pseudo: Option<PseudoElement>,
331    ) -> NodeRenderingType {
332        with_layout_state(|| {
333            let node = unsafe { ServoLayoutNode::new(&node) };
334
335            // Nodes that are not currently styled are never being rendered.
336            if node
337                .as_element()
338                .is_none_or(|element| element.style_data().is_none())
339            {
340                return NodeRenderingType::NotRendered;
341            }
342
343            let node = match pseudo {
344                Some(pseudo) => node.with_pseudo(pseudo),
345                None => Some(node),
346            };
347            let Some(node) = node else {
348                return NodeRenderingType::NotRendered;
349            };
350            node.rendering_type()
351        })
352    }
353
354    /// Return the node corresponding to the containing block of the provided node.
355    #[servo_tracing::instrument(skip_all)]
356    fn query_containing_block(&self, node: TrustedNodeAddress) -> Option<UntrustedNodeAddress> {
357        with_layout_state(|| {
358            let node = unsafe { ServoLayoutNode::new(&node) };
359            process_containing_block_query(node)
360        })
361    }
362
363    /// Return the resolved values of this node's padding rect.
364    #[servo_tracing::instrument(skip_all)]
365    fn query_padding(&self, node: TrustedNodeAddress) -> Option<PhysicalSides> {
366        with_layout_state(|| {
367            // If we have not built a fragment tree yet, there is no way we have layout information for
368            // this query, which can be run without forcing a layout (for IntersectionObserver).
369            if self.fragment_tree.borrow().is_none() {
370                return None;
371            }
372
373            let node = unsafe { ServoLayoutNode::new(&node) };
374            process_padding_request(node)
375        })
376    }
377
378    /// Return the union of this node's areas in the coordinate space of the Document. This is used
379    /// to implement `getBoundingClientRect()` and support many other API where the such query is
380    /// required.
381    ///
382    /// Part of <https://drafts.csswg.org/cssom-view-1/#element-get-the-bounding-box>.
383    #[servo_tracing::instrument(skip_all)]
384    fn query_box_area(
385        &self,
386        node: TrustedNodeAddress,
387        area: BoxAreaType,
388        exclude_transform_and_inline: bool,
389    ) -> Option<Rect<Au, CSSPixel>> {
390        with_layout_state(|| {
391            // If we have not built a fragment tree yet, there is no way we have layout information for
392            // this query, which can be run without forcing a layout (for IntersectionObserver).
393            if self.fragment_tree.borrow().is_none() {
394                return None;
395            }
396
397            let node = unsafe { ServoLayoutNode::new(&node) };
398            let stacking_context_tree = self.stacking_context_tree.borrow();
399            let stacking_context_tree = stacking_context_tree.as_ref()?;
400            process_box_area_request(
401                stacking_context_tree,
402                node,
403                area,
404                exclude_transform_and_inline,
405            )
406        })
407    }
408
409    /// Get a `Vec` of bounding boxes of this node's `Fragment`s specific area in the coordinate space of
410    /// the Document. This is used to implement `getClientRects()`.
411    ///
412    /// See <https://drafts.csswg.org/cssom-view/#dom-element-getclientrects>.
413    #[servo_tracing::instrument(skip_all)]
414    fn query_box_areas(&self, node: TrustedNodeAddress, area: BoxAreaType) -> CSSPixelRectIterator {
415        with_layout_state(|| {
416            // If we have not built a fragment tree yet, there is no way we have layout information for
417            // this query, which can be run without forcing a layout (for IntersectionObserver).
418            if self.fragment_tree.borrow().is_none() {
419                return None;
420            }
421
422            let node = unsafe { ServoLayoutNode::new(&node) };
423            let stacking_context_tree = self.stacking_context_tree.borrow();
424            let stacking_context_tree = stacking_context_tree.as_ref()?;
425            Some(process_box_areas_request(stacking_context_tree, node, area))
426        })
427        .unwrap_or_else(|| Box::new(std::iter::empty()))
428    }
429
430    #[servo_tracing::instrument(skip_all)]
431    fn query_client_rect(&self, node: TrustedNodeAddress) -> Rect<i32, CSSPixel> {
432        with_layout_state(|| {
433            let node = unsafe { ServoLayoutNode::new(&node) };
434            process_client_rect_request(node)
435        })
436    }
437
438    #[servo_tracing::instrument(skip_all)]
439    fn query_current_css_zoom(&self, node: TrustedNodeAddress) -> f32 {
440        with_layout_state(|| {
441            let node = unsafe { ServoLayoutNode::new(&node) };
442            process_current_css_zoom_query(node)
443        })
444    }
445
446    #[servo_tracing::instrument(skip_all)]
447    fn query_element_inner_outer_text(&self, node: layout_api::TrustedNodeAddress) -> String {
448        with_layout_state(|| {
449            let node = unsafe { ServoLayoutNode::new(&node) };
450            get_the_text_steps(node)
451        })
452    }
453    #[servo_tracing::instrument(skip_all)]
454    fn query_offset_parent(&self, node: TrustedNodeAddress) -> OffsetParentResponse {
455        with_layout_state(|| {
456            let node = unsafe { ServoLayoutNode::new(&node) };
457            let stacking_context_tree = self.stacking_context_tree.borrow();
458            let stacking_context_tree = stacking_context_tree.as_ref()?;
459            process_offset_parent_query(&stacking_context_tree.paint_info.scroll_tree, node)
460        })
461        .unwrap_or_default()
462    }
463
464    #[servo_tracing::instrument(skip_all)]
465    fn query_scroll_container(
466        &self,
467        node: Option<TrustedNodeAddress>,
468        flags: ScrollContainerQueryFlags,
469    ) -> Option<ScrollContainerResponse> {
470        with_layout_state(|| {
471            let node = unsafe { node.as_ref().map(|node| ServoLayoutNode::new(node)) };
472            let viewport_overflow = self.box_tree.borrow().as_ref()?.viewport_overflow;
473            process_scroll_container_query(node, flags, viewport_overflow)
474        })
475    }
476
477    #[servo_tracing::instrument(skip_all)]
478    fn query_resolved_style(
479        &self,
480        node: TrustedNodeAddress,
481        pseudo: Option<PseudoElement>,
482        property_id: PropertyId,
483        animations: DocumentAnimationSet,
484        animation_timeline_value: f64,
485    ) -> String {
486        with_layout_state(|| {
487            let node = unsafe { ServoLayoutNode::new(&node) };
488            let document = unsafe { node.dangerous_style_node() }.owner_doc();
489            let document_shared_lock = document.style_shared_lock();
490            let guards = StylesheetGuards {
491                author: &document_shared_lock.read(),
492                ua_or_user: &GLOBAL_STYLE_DATA.shared_lock.read(),
493            };
494            let snapshot_map = SnapshotMap::new();
495
496            let shared_style_context = self.build_shared_style_context(
497                guards,
498                &snapshot_map,
499                animation_timeline_value,
500                &animations,
501                TraversalFlags::empty(),
502            );
503
504            process_resolved_style_request(&shared_style_context, node, &pseudo, &property_id)
505        })
506    }
507
508    #[servo_tracing::instrument(skip_all)]
509    fn query_resolved_font_style(
510        &self,
511        node: TrustedNodeAddress,
512        value: &str,
513        animations: DocumentAnimationSet,
514        animation_timeline_value: f64,
515    ) -> Option<ServoArc<Font>> {
516        with_layout_state(|| {
517            let node = unsafe { ServoLayoutNode::new(&node) };
518            let document = unsafe { node.dangerous_style_node() }.owner_doc();
519            let document_shared_lock = document.style_shared_lock();
520            let guards = StylesheetGuards {
521                author: &document_shared_lock.read(),
522                ua_or_user: &GLOBAL_STYLE_DATA.shared_lock.read(),
523            };
524            let snapshot_map = SnapshotMap::new();
525            let shared_style_context = self.build_shared_style_context(
526                guards,
527                &snapshot_map,
528                animation_timeline_value,
529                &animations,
530                TraversalFlags::empty(),
531            );
532
533            process_resolved_font_style_query(
534                &shared_style_context,
535                node,
536                value,
537                self.url.clone(),
538                document_shared_lock,
539            )
540        })
541    }
542
543    #[servo_tracing::instrument(skip_all)]
544    fn query_scrolling_area(&self, node: Option<TrustedNodeAddress>) -> Rect<i32, CSSPixel> {
545        with_layout_state(|| {
546            let node = node.map(|node| unsafe { ServoLayoutNode::new(&node) });
547            process_node_scroll_area_request(node, self.fragment_tree.borrow().clone())
548        })
549    }
550
551    #[servo_tracing::instrument(skip_all)]
552    fn query_text_index(
553        &self,
554        node: TrustedNodeAddress,
555        point_in_node: Point2D<Au, CSSPixel>,
556    ) -> Option<usize> {
557        with_layout_state(|| {
558            let node = unsafe { ServoLayoutNode::new(&node) };
559            let stacking_context_tree = self.stacking_context_tree.borrow_mut();
560            let stacking_context_tree = stacking_context_tree.as_ref()?;
561            find_character_offset_in_fragment_descendants(
562                &node,
563                stacking_context_tree,
564                point_in_node,
565            )
566        })
567    }
568
569    #[servo_tracing::instrument(skip_all)]
570    fn query_elements_from_point(
571        &self,
572        point: webrender_api::units::LayoutPoint,
573        flags: layout_api::ElementsFromPointFlags,
574    ) -> Vec<layout_api::ElementsFromPointResult> {
575        with_layout_state(|| {
576            self.stacking_context_tree
577                .borrow_mut()
578                .as_mut()
579                .map(|tree| HitTest::run(tree, point, flags))
580                .unwrap_or_default()
581        })
582    }
583
584    #[servo_tracing::instrument(skip_all)]
585    fn query_effective_overflow(&self, node: TrustedNodeAddress) -> Option<AxesOverflow> {
586        with_layout_state(|| {
587            let node = unsafe { ServoLayoutNode::new(&node) };
588            process_effective_overflow_query(node)
589        })
590    }
591
592    fn exit_now(&mut self) {}
593
594    fn collect_reports(&self, reports: &mut Vec<Report>, ops: &mut MallocSizeOfOps) {
595        // TODO: Measure more than just display list, stylist, and font context.
596        let formatted_url = &format!("url({})", self.url);
597        reports.push(Report {
598            path: path![formatted_url, "layout-thread", "display-list"],
599            kind: ReportKind::ExplicitJemallocHeapSize,
600            size: 0,
601        });
602
603        reports.push(Report {
604            path: path![formatted_url, "layout-thread", "stylist"],
605            kind: ReportKind::ExplicitJemallocHeapSize,
606            size: self.stylist.size_of(ops),
607        });
608
609        reports.push(Report {
610            path: path![formatted_url, "layout-thread", "font-context"],
611            kind: ReportKind::ExplicitJemallocHeapSize,
612            size: self.font_context.conditional_size_of(ops),
613        });
614
615        reports.push(Report {
616            path: path![formatted_url, "layout-thread", "box-tree"],
617            kind: ReportKind::ExplicitJemallocHeapSize,
618            size: self
619                .box_tree
620                .borrow()
621                .as_ref()
622                .map_or(0, |tree| tree.conditional_size_of(ops)),
623        });
624
625        reports.push(Report {
626            path: path![formatted_url, "layout-thread", "fragment-tree"],
627            kind: ReportKind::ExplicitJemallocHeapSize,
628            size: self
629                .fragment_tree
630                .borrow()
631                .as_ref()
632                .map(|tree| tree.conditional_size_of(ops))
633                .unwrap_or_default(),
634        });
635
636        reports.push(Report {
637            path: path![formatted_url, "layout-thread", "stacking-context-tree"],
638            kind: ReportKind::ExplicitJemallocHeapSize,
639            size: self.stacking_context_tree.size_of(ops),
640        });
641
642        reports.extend(self.image_cache.memory_reports(formatted_url, ops));
643    }
644
645    fn set_quirks_mode(&mut self, quirks_mode: QuirksMode) {
646        self.stylist.set_quirks_mode(quirks_mode);
647    }
648
649    fn reflow(&mut self, reflow_request: ReflowRequest) -> Option<ReflowResult> {
650        time_profile!(
651            profile_time::ProfilerCategory::Layout,
652            self.profiler_metadata(),
653            self.time_profiler_chan.clone(),
654            || with_layout_state(|| self.handle_reflow(reflow_request)),
655        )
656    }
657
658    fn ensure_stacking_context_tree(&self, viewport_details: ViewportDetails) {
659        with_layout_state(|| {
660            if self.stacking_context_tree.borrow().is_some() &&
661                !self.need_new_stacking_context_tree.get()
662            {
663                return;
664            }
665            self.build_stacking_context_tree(viewport_details);
666        })
667    }
668
669    fn register_paint_worklet_modules(
670        &mut self,
671        _name: Atom,
672        _properties: Vec<Atom>,
673        _painter: Box<dyn Painter>,
674    ) {
675    }
676
677    fn set_scroll_offsets_from_renderer(
678        &mut self,
679        scroll_states: &FxHashMap<ExternalScrollId, LayoutVector2D>,
680    ) {
681        let mut stacking_context_tree = self.stacking_context_tree.borrow_mut();
682        let Some(stacking_context_tree) = stacking_context_tree.as_mut() else {
683            warn!("Received scroll offsets before finishing layout.");
684            return;
685        };
686
687        stacking_context_tree
688            .paint_info
689            .scroll_tree
690            .set_all_scroll_offsets(scroll_states);
691    }
692
693    fn scroll_offset(&self, id: ExternalScrollId) -> Option<LayoutVector2D> {
694        self.stacking_context_tree
695            .borrow_mut()
696            .as_mut()
697            .and_then(|tree| tree.paint_info.scroll_tree.scroll_offset(id))
698    }
699
700    fn needs_new_display_list(&self) -> bool {
701        self.need_new_display_list.get()
702    }
703
704    fn set_needs_new_display_list(&self) {
705        self.need_new_display_list.set(true);
706    }
707
708    /// <https://drafts.css-houdini.org/css-properties-values-api-1/#the-registerproperty-function>
709    fn stylist_mut(&mut self) -> &mut Stylist {
710        &mut self.stylist
711    }
712
713    fn set_accessibility_active(&self, active: bool, epoch: Epoch) {
714        if !active {
715            self.accessibility_tree.replace(None);
716            return;
717        }
718        self.set_needs_accessibility_update();
719        let mut accessibility_tree = self.accessibility_tree.borrow_mut();
720        if accessibility_tree.is_some() {
721            return;
722        }
723        *accessibility_tree = Some(AccessibilityTree::new(self.id.into(), epoch));
724    }
725
726    fn needs_accessibility_update(&self) -> bool {
727        self.needs_accessibility_update.get()
728    }
729
730    fn set_needs_accessibility_update(&self) {
731        self.needs_accessibility_update.set(true);
732    }
733}
734
735impl LayoutThread {
736    fn new(config: LayoutConfig) -> LayoutThread {
737        // Let webrender know about this pipeline by sending an empty display list.
738        config
739            .paint_api
740            .send_initial_transaction(config.webview_id, config.id.into());
741
742        let mut font = Font::initial_values();
743        let default_font_size = pref!(fonts_default_size);
744        font.font_size = FontSize {
745            computed_size: NonNegativeLength::new(default_font_size as f32),
746            used_size: NonNegativeLength::new(default_font_size as f32),
747            keyword_info: KeywordInfo::medium(),
748        };
749
750        // The device pixel ratio is incorrect (it does not have the hidpi value),
751        // but it will be set correctly when the initial reflow takes place.
752        let device = Device::new(
753            MediaType::screen(),
754            QuirksMode::NoQuirks,
755            config.viewport_details.size,
756            Scale::new(config.viewport_details.hidpi_scale_factor.get()),
757            Box::new(LayoutFontMetricsProvider(config.font_context.clone())),
758            ComputedValues::initial_values_with_font_override(font),
759            config.theme.into(),
760        );
761
762        LayoutThread {
763            id: config.id,
764            webview_id: config.webview_id,
765            url: config.url,
766            is_iframe: config.is_iframe,
767            script_chan: config.script_chan.clone(),
768            time_profiler_chan: config.time_profiler_chan,
769            embedder_chan: config.embedder_chan.clone(),
770            registered_painters: RegisteredPaintersImpl(Default::default()),
771            image_cache: config.image_cache,
772            font_context: config.font_context,
773            have_added_user_agent_stylesheets: false,
774            have_ever_generated_display_list: Cell::new(false),
775            last_display_list_was_empty: Cell::new(true),
776            device_has_changed: false,
777            need_overflow_calculation: Cell::new(false),
778            need_new_display_list: Cell::new(false),
779            need_new_stacking_context_tree: Cell::new(false),
780            box_tree: Default::default(),
781            fragment_tree: Default::default(),
782            stacking_context_tree: Default::default(),
783            paint_api: config.paint_api,
784            stylist: Stylist::new(device, QuirksMode::NoQuirks),
785            resolved_images_cache: Default::default(),
786            debug: opts::get().debug.clone(),
787            previously_highlighted_dom_node: Cell::new(None),
788            paint_timing_handler: Default::default(),
789            user_stylesheets: config.user_stylesheets,
790            accessibility_tree: Default::default(),
791            needs_accessibility_update: Cell::new(false),
792        }
793    }
794
795    fn build_shared_style_context<'a>(
796        &'a self,
797        guards: StylesheetGuards<'a>,
798        snapshot_map: &'a SnapshotMap,
799        animation_timeline_value: f64,
800        animations: &DocumentAnimationSet,
801        traversal_flags: TraversalFlags,
802    ) -> SharedStyleContext<'a> {
803        SharedStyleContext {
804            stylist: &self.stylist,
805            options: GLOBAL_STYLE_DATA.options.clone(),
806            guards,
807            visited_styles_enabled: false,
808            animations: animations.clone(),
809            registered_speculative_painters: &self.registered_painters,
810            current_time_for_animations: animation_timeline_value,
811            traversal_flags,
812            snapshot_map,
813        }
814    }
815
816    fn load_all_web_fonts_from_stylesheet_with_guard(
817        &self,
818        stylesheet: &DocumentStyleSheet,
819        guard: &SharedRwLockReadGuard,
820        document_context: &WebFontDocumentContext,
821    ) {
822        let custom_media = &CustomMediaMap::default();
823        if !stylesheet.is_effective_for_device(self.stylist.device(), custom_media, guard) {
824            return;
825        }
826
827        let locked_script_channel = Mutex::new(self.script_chan.clone());
828        let pipeline_id = self.id;
829        let web_font_finished_loading_callback = move |succeeded: bool| {
830            if succeeded {
831                let _ = locked_script_channel
832                    .lock()
833                    .send(ScriptThreadMessage::WebFontLoaded(pipeline_id));
834            }
835        };
836
837        self.font_context.add_all_web_fonts_from_stylesheet(
838            self.webview_id,
839            stylesheet,
840            guard,
841            self.stylist.device(),
842            Arc::new(web_font_finished_loading_callback) as StylesheetWebFontLoadFinishedCallback,
843            document_context,
844        );
845    }
846
847    /// In some cases, if a restyle isn't necessary we can skip doing any work for layout
848    /// entirely. This check allows us to return early from layout without doing any work
849    /// at all.
850    fn can_skip_reflow_request_entirely(&self, reflow_request: &ReflowRequest) -> bool {
851        // If a restyle is necessary, restyle and reflow is a necessity.
852        if reflow_request.restyle.is_some() {
853            return false;
854        }
855        // We always need to at least build a fragment tree.
856        if self.fragment_tree.borrow().is_none() {
857            return false;
858        }
859        // If accessibility was just activated, we need reflow to build the accessibility tree.
860        if self.needs_accessibility_update() {
861            return false;
862        }
863
864        // If we have a fragment tree and it's up-to-date and this reflow
865        // doesn't need more reflow results, we can skip the rest of layout.
866        let necessary_phases = ReflowPhases::necessary(&reflow_request.reflow_goal);
867        if necessary_phases.is_empty() {
868            return true;
869        }
870
871        // If only the stacking context tree is required, and it's up-to-date,
872        // layout is unnecessary, otherwise a layout is necessary.
873        if necessary_phases == ReflowPhases::StackingContextTreeConstruction {
874            return self.stacking_context_tree.borrow().is_some() &&
875                !self.need_new_stacking_context_tree.get();
876        }
877
878        // Otherwise, the only interesting thing is whether the current display
879        // list is up-to-date.
880        assert_eq!(
881            necessary_phases,
882            ReflowPhases::StackingContextTreeConstruction | ReflowPhases::DisplayListConstruction
883        );
884        !self.need_new_display_list.get()
885    }
886
887    fn maybe_print_reflow_event(&self, reflow_request: &ReflowRequest) {
888        if !self.debug.relayout_event {
889            return;
890        }
891
892        println!(
893            "**** Reflow({}) => {:?}, {:?}",
894            self.id,
895            reflow_request.reflow_goal,
896            reflow_request
897                .restyle
898                .as_ref()
899                .map(|restyle| restyle.reason)
900                .unwrap_or_default()
901        );
902    }
903
904    /// Checks whether we need to update the scroll node, and report whether the
905    /// node is scrolled. We need to update the scroll node whenever it is requested.
906    fn handle_update_scroll_node_request(&self, reflow_request: &ReflowRequest) -> bool {
907        if let ReflowGoal::UpdateScrollNode(external_scroll_id, offset) = reflow_request.reflow_goal
908        {
909            self.set_scroll_offset_from_script(external_scroll_id, offset)
910        } else {
911            false
912        }
913    }
914
915    fn handle_accessibility_tree_update(&self, root_element: &ServoLayoutNode) -> bool {
916        if !self.needs_accessibility_update() {
917            return false;
918        }
919        let mut accessibility_tree = self.accessibility_tree.borrow_mut();
920        let Some(accessibility_tree) = accessibility_tree.as_mut() else {
921            return false;
922        };
923
924        let accessibility_tree = &mut *accessibility_tree;
925        if let Some(tree_update) = accessibility_tree.update_tree(root_element) {
926            // TODO(#4344): send directly to embedder over the pipeline_to_embedder_sender cloned from ScriptThread.
927            // FIXME: Handle send error. Could have a method on accessibility tree to
928            // finalise after sending, removing accessibility damage? On fail, retain damage
929            // for next reflow, as well as retaining document.needs_accessibility_update.
930            let _ = self
931                .embedder_chan
932                .send(EmbedderMsg::AccessibilityTreeUpdate(
933                    self.webview_id,
934                    tree_update,
935                    accessibility_tree.epoch(),
936                ));
937        }
938        self.needs_accessibility_update.set(false);
939        true
940    }
941
942    /// The high-level routine that performs layout.
943    #[servo_tracing::instrument(skip_all)]
944    fn handle_reflow(&mut self, mut reflow_request: ReflowRequest) -> Option<ReflowResult> {
945        self.maybe_print_reflow_event(&reflow_request);
946
947        if self.can_skip_reflow_request_entirely(&reflow_request) {
948            // We can skip layout, but we might need to update a scroll node.
949            return self
950                .handle_update_scroll_node_request(&reflow_request)
951                .then(|| ReflowResult {
952                    reflow_phases_run: ReflowPhasesRun::UpdatedScrollNodeOffset,
953                    ..Default::default()
954                });
955        }
956
957        let document = unsafe { ServoLayoutNode::new(&reflow_request.document) };
958        let document = unsafe { document.dangerous_style_node() }
959            .as_document()
960            .unwrap();
961        let Some(root_element) = document.root_element() else {
962            if !self.last_display_list_was_empty.get() {
963                return self.clear_layout_trees_and_send_empty_display_list(&reflow_request);
964            }
965            debug!("layout: No root node: bailing");
966            return None;
967        };
968
969        let image_resolver = Arc::new(ImageResolver {
970            origin: reflow_request.origin.clone(),
971            image_cache: self.image_cache.clone(),
972            resolved_images_cache: self.resolved_images_cache.clone(),
973            pending_images: Mutex::default(),
974            pending_rasterization_images: Mutex::default(),
975            pending_svg_elements_for_serialization: Mutex::default(),
976            animating_images: reflow_request.animating_images.clone(),
977            animation_timeline_value: reflow_request.animation_timeline_value,
978        });
979        let mut reflow_statistics = Default::default();
980
981        let (mut reflow_phases_run, iframe_sizes) = self.restyle_and_build_trees(
982            &mut reflow_request,
983            document,
984            root_element,
985            &image_resolver,
986        );
987        if self.calculate_overflow() {
988            reflow_phases_run.insert(ReflowPhasesRun::CalculatedOverflow);
989        }
990        if self.build_stacking_context_tree_for_reflow(&reflow_request) {
991            reflow_phases_run.insert(ReflowPhasesRun::BuiltStackingContextTree);
992        }
993        if self.build_display_list(&reflow_request, &image_resolver, &mut reflow_statistics) {
994            reflow_phases_run.insert(ReflowPhasesRun::BuiltDisplayList);
995        }
996        if self.handle_update_scroll_node_request(&reflow_request) {
997            reflow_phases_run.insert(ReflowPhasesRun::UpdatedScrollNodeOffset);
998        }
999        if self.handle_accessibility_tree_update(&root_element.as_node()) {
1000            reflow_phases_run.insert(ReflowPhasesRun::UpdatedAccessibilityTree);
1001        }
1002
1003        let pending_images = std::mem::take(&mut *image_resolver.pending_images.lock());
1004        let pending_rasterization_images =
1005            std::mem::take(&mut *image_resolver.pending_rasterization_images.lock());
1006        let pending_svg_elements_for_serialization =
1007            std::mem::take(&mut *image_resolver.pending_svg_elements_for_serialization.lock());
1008
1009        Some(ReflowResult {
1010            reflow_phases_run,
1011            pending_images,
1012            pending_rasterization_images,
1013            pending_svg_elements_for_serialization,
1014            iframe_sizes: Some(iframe_sizes),
1015            reflow_statistics,
1016        })
1017    }
1018
1019    #[servo_tracing::instrument(skip_all)]
1020    fn prepare_stylist_for_reflow<'dom>(
1021        &mut self,
1022        reflow_request: &ReflowRequest,
1023        document: ServoDangerousStyleDocument<'dom>,
1024        guards: &StylesheetGuards,
1025        ua_stylesheets: &UserAgentStylesheets,
1026    ) -> StylesheetInvalidationSet {
1027        if !self.have_added_user_agent_stylesheets {
1028            for stylesheet in &ua_stylesheets.user_agent_stylesheets {
1029                self.stylist
1030                    .append_stylesheet(stylesheet.clone(), guards.ua_or_user);
1031                self.load_all_web_fonts_from_stylesheet_with_guard(
1032                    stylesheet,
1033                    guards.ua_or_user,
1034                    &reflow_request.document_context,
1035                );
1036            }
1037
1038            for user_stylesheet in self.user_stylesheets.iter() {
1039                self.stylist
1040                    .append_stylesheet(user_stylesheet.clone(), guards.ua_or_user);
1041                self.load_all_web_fonts_from_stylesheet_with_guard(
1042                    user_stylesheet,
1043                    guards.ua_or_user,
1044                    &reflow_request.document_context,
1045                );
1046            }
1047
1048            if self.stylist.quirks_mode() == QuirksMode::Quirks {
1049                self.stylist.append_stylesheet(
1050                    ua_stylesheets.quirks_mode_stylesheet.clone(),
1051                    guards.ua_or_user,
1052                );
1053                self.load_all_web_fonts_from_stylesheet_with_guard(
1054                    &ua_stylesheets.quirks_mode_stylesheet,
1055                    guards.ua_or_user,
1056                    &reflow_request.document_context,
1057                );
1058            }
1059            self.have_added_user_agent_stylesheets = true;
1060        }
1061
1062        if reflow_request.stylesheets_changed() {
1063            self.stylist
1064                .force_stylesheet_origins_dirty(Origin::Author.into());
1065        }
1066
1067        document.flush_shadow_root_stylesheets_if_necessary(&mut self.stylist, guards.author);
1068
1069        self.stylist.flush(guards)
1070    }
1071
1072    #[servo_tracing::instrument(skip_all)]
1073    fn restyle_and_build_trees(
1074        &mut self,
1075        reflow_request: &mut ReflowRequest,
1076        document: ServoDangerousStyleDocument<'_>,
1077        root_element: ServoLayoutElement<'_>,
1078        image_resolver: &Arc<ImageResolver>,
1079    ) -> (ReflowPhasesRun, IFrameSizes) {
1080        let mut snapshot_map = SnapshotMap::new();
1081        let _snapshot_setter = match reflow_request.restyle.as_mut() {
1082            Some(restyle) => SnapshotSetter::new(restyle, &mut snapshot_map),
1083            None => return Default::default(),
1084        };
1085
1086        let document_shared_lock = document.style_shared_lock();
1087        let author_guard = document_shared_lock.read();
1088        let ua_stylesheets = &*UA_STYLESHEETS;
1089        let guards = StylesheetGuards {
1090            author: &author_guard,
1091            ua_or_user: &GLOBAL_STYLE_DATA.shared_lock.read(),
1092        };
1093
1094        let rayon_pool = STYLE_THREAD_POOL.lock();
1095        let rayon_pool = rayon_pool.pool();
1096        let rayon_pool = rayon_pool.as_ref();
1097
1098        let device_has_changed = std::mem::replace(&mut self.device_has_changed, false);
1099        let dangerous_root_element = unsafe { root_element.dangerous_style_element() };
1100        if device_has_changed {
1101            let sheet_origins_affected_by_device_change = self
1102                .stylist
1103                .media_features_change_changed_style(&guards, self.device());
1104            self.stylist
1105                .force_stylesheet_origins_dirty(sheet_origins_affected_by_device_change);
1106
1107            if let Some(mut data) = dangerous_root_element.mutate_data() {
1108                data.hint.insert(RestyleHint::recascade_subtree());
1109            }
1110        }
1111
1112        self.prepare_stylist_for_reflow(reflow_request, document, &guards, ua_stylesheets)
1113            .process_style(dangerous_root_element, Some(&snapshot_map));
1114
1115        if self.previously_highlighted_dom_node.get() != reflow_request.highlighted_dom_node {
1116            // Need to manually force layout to build a new display list regardless of whether the box tree
1117            // changed or not.
1118            self.need_new_display_list.set(true);
1119        }
1120
1121        let layout_context = LayoutContext {
1122            style_context: self.build_shared_style_context(
1123                guards,
1124                &snapshot_map,
1125                reflow_request.animation_timeline_value,
1126                &reflow_request.animations,
1127                match reflow_request.stylesheets_changed() {
1128                    true => TraversalFlags::ForCSSRuleChanges,
1129                    false => TraversalFlags::empty(),
1130                },
1131            ),
1132            font_context: self.font_context.clone(),
1133            iframe_sizes: Mutex::default(),
1134            use_rayon: rayon_pool.is_some(),
1135            image_resolver: image_resolver.clone(),
1136            painter_id: self.webview_id.into(),
1137        };
1138
1139        let restyle = reflow_request
1140            .restyle
1141            .as_ref()
1142            .expect("Should not get here if there is not restyle.");
1143
1144        let recalc_style_traversal;
1145        let dirty_root;
1146        {
1147            let _span = profile_traits::trace_span!("Styling").entered();
1148
1149            let original_dirty_root = unsafe {
1150                ServoLayoutNode::new(&restyle.dirty_root.unwrap())
1151                    .as_element()
1152                    .unwrap()
1153                    .dangerous_style_element()
1154            };
1155
1156            recalc_style_traversal = RecalcStyle::new(&layout_context);
1157            let token = {
1158                let shared = DomTraversal::<ServoDangerousStyleElement>::shared_context(
1159                    &recalc_style_traversal,
1160                );
1161                RecalcStyle::pre_traverse(original_dirty_root, shared)
1162            };
1163
1164            if !token.should_traverse() {
1165                layout_context.style_context.stylist.rule_tree().maybe_gc();
1166                return Default::default();
1167            }
1168
1169            dirty_root = driver::traverse_dom(&recalc_style_traversal, token, rayon_pool).as_node();
1170        }
1171
1172        let root_node = root_element.as_node();
1173        let damage_from_environment = if device_has_changed {
1174            RestyleDamage::RELAYOUT
1175        } else {
1176            Default::default()
1177        };
1178
1179        let mut box_tree = self.box_tree.borrow_mut();
1180        let damage = {
1181            let box_tree = &mut *box_tree;
1182            let mut compute_damage_and_build_box_tree = || {
1183                compute_damage_and_rebuild_box_tree(
1184                    box_tree,
1185                    &layout_context,
1186                    dirty_root.layout_node(),
1187                    root_node,
1188                    damage_from_environment,
1189                )
1190            };
1191
1192            if let Some(pool) = rayon_pool {
1193                pool.install(compute_damage_and_build_box_tree)
1194            } else {
1195                compute_damage_and_build_box_tree()
1196            }
1197        };
1198
1199        if damage.contains(RestyleDamage::RECALCULATE_OVERFLOW) {
1200            self.need_overflow_calculation.set(true);
1201        }
1202        if damage.contains(RestyleDamage::REBUILD_STACKING_CONTEXT) {
1203            self.need_new_stacking_context_tree.set(true);
1204        }
1205        if damage.contains(RestyleDamage::REPAINT) {
1206            self.need_new_display_list.set(true);
1207        }
1208        if !damage.contains(RestyleDamage::RELAYOUT) {
1209            layout_context.style_context.stylist.rule_tree().maybe_gc();
1210            return (ReflowPhasesRun::empty(), IFrameSizes::default());
1211        }
1212
1213        let box_tree = &*box_tree;
1214        let viewport_size = self.stylist.device().au_viewport_size();
1215        let run_layout = || {
1216            box_tree
1217                .as_ref()
1218                .unwrap()
1219                .layout(recalc_style_traversal.context(), viewport_size)
1220        };
1221        let fragment_tree = Rc::new(if let Some(pool) = rayon_pool {
1222            pool.install(run_layout)
1223        } else {
1224            run_layout()
1225        });
1226
1227        *self.fragment_tree.borrow_mut() = Some(fragment_tree);
1228
1229        if self.debug.style_tree {
1230            println!(
1231                "{:?}",
1232                ShowSubtreeDataAndPrimaryValues(dangerous_root_element.as_node())
1233            );
1234        }
1235        if self.debug.rule_tree {
1236            recalc_style_traversal
1237                .context()
1238                .style_context
1239                .stylist
1240                .rule_tree()
1241                .dump_stdout(&layout_context.style_context.guards);
1242        }
1243
1244        // GC the rule tree if some heuristics are met.
1245        layout_context.style_context.stylist.rule_tree().maybe_gc();
1246
1247        let mut iframe_sizes = layout_context.iframe_sizes.lock();
1248        (
1249            ReflowPhasesRun::RanLayout,
1250            std::mem::take(&mut *iframe_sizes),
1251        )
1252    }
1253
1254    #[servo_tracing::instrument(name = "Overflow Calculation", skip_all)]
1255    fn calculate_overflow(&self) -> bool {
1256        if !self.need_overflow_calculation.get() {
1257            return false;
1258        }
1259
1260        if let Some(fragment_tree) = &*self.fragment_tree.borrow() {
1261            fragment_tree.calculate_scrollable_overflow();
1262            if self.debug.flow_tree {
1263                fragment_tree.print();
1264            }
1265        }
1266
1267        self.need_overflow_calculation.set(false);
1268        assert!(self.need_new_display_list.get());
1269        assert!(self.need_new_stacking_context_tree.get());
1270
1271        true
1272    }
1273
1274    fn build_stacking_context_tree_for_reflow(&self, reflow_request: &ReflowRequest) -> bool {
1275        if !ReflowPhases::necessary(&reflow_request.reflow_goal)
1276            .contains(ReflowPhases::StackingContextTreeConstruction)
1277        {
1278            return false;
1279        }
1280        if !self.need_new_stacking_context_tree.get() {
1281            return false;
1282        }
1283
1284        self.build_stacking_context_tree(reflow_request.viewport_details)
1285    }
1286
1287    #[servo_tracing::instrument(name = "Stacking Context Tree Construction", skip_all)]
1288    fn build_stacking_context_tree(&self, viewport_details: ViewportDetails) -> bool {
1289        let Some(fragment_tree) = &*self.fragment_tree.borrow() else {
1290            return false;
1291        };
1292
1293        let mut stacking_context_tree = self.stacking_context_tree.borrow_mut();
1294        let old_scroll_offsets = stacking_context_tree
1295            .as_ref()
1296            .map(|tree| tree.paint_info.scroll_tree.scroll_offsets());
1297
1298        // Build the StackingContextTree. This turns the `FragmentTree` into a
1299        // tree of fragments in CSS painting order and also creates all
1300        // applicable spatial and clip nodes.
1301        let mut new_stacking_context_tree = StackingContextTree::new(
1302            fragment_tree,
1303            viewport_details,
1304            self.id.into(),
1305            !self.have_ever_generated_display_list.get(),
1306            &self.debug,
1307        );
1308
1309        // When a new StackingContextTree is built, it contains a freshly built
1310        // ScrollTree. We want to preserve any existing scroll offsets in that tree,
1311        // adjusted by any new scroll constraints.
1312        if let Some(old_scroll_offsets) = old_scroll_offsets {
1313            new_stacking_context_tree
1314                .paint_info
1315                .scroll_tree
1316                .set_all_scroll_offsets(&old_scroll_offsets);
1317        }
1318
1319        if self.debug.scroll_tree {
1320            new_stacking_context_tree
1321                .paint_info
1322                .scroll_tree
1323                .debug_print();
1324        }
1325
1326        *stacking_context_tree = Some(new_stacking_context_tree);
1327
1328        // The stacking context tree is up-to-date again.
1329        self.need_new_stacking_context_tree.set(false);
1330        assert!(self.need_new_display_list.get());
1331
1332        true
1333    }
1334
1335    /// Build the display list for the current layout and send it to the renderer. If no display
1336    /// list is built, returns false.
1337    #[servo_tracing::instrument(name = "Display List Construction", skip_all)]
1338    fn build_display_list(
1339        &self,
1340        reflow_request: &ReflowRequest,
1341        image_resolver: &Arc<ImageResolver>,
1342        reflow_statistics: &mut ReflowStatistics,
1343    ) -> bool {
1344        if !ReflowPhases::necessary(&reflow_request.reflow_goal)
1345            .contains(ReflowPhases::DisplayListConstruction)
1346        {
1347            return false;
1348        }
1349        let Some(fragment_tree) = &*self.fragment_tree.borrow() else {
1350            return false;
1351        };
1352        let mut stacking_context_tree = self.stacking_context_tree.borrow_mut();
1353        let Some(stacking_context_tree) = stacking_context_tree.as_mut() else {
1354            return false;
1355        };
1356
1357        // If a non-display-list-generating reflow updated layout in a previous refow, we
1358        // cannot skip display list generation here the next time a display list is
1359        // requested.
1360        if !self.need_new_display_list.get() {
1361            return false;
1362        }
1363
1364        // TODO: Eventually this should be set when `paint_info` is created, but that requires
1365        // ensuring that the Epoch is passed to any method that can creates `StackingContextTree`.
1366        stacking_context_tree.paint_info.epoch = reflow_request.epoch;
1367
1368        let mut paint_timing_handler = self.paint_timing_handler.borrow_mut();
1369        // This ensures that we only create the PaintTimingHandler once per layout thread.
1370        let paint_timing_handler = match paint_timing_handler.as_mut() {
1371            Some(paint_timing_handler) => paint_timing_handler,
1372            None => {
1373                *paint_timing_handler = Some(PaintTimingHandler::new(
1374                    stacking_context_tree
1375                        .paint_info
1376                        .viewport_details
1377                        .layout_size(),
1378                ));
1379                paint_timing_handler.as_mut().unwrap()
1380            },
1381        };
1382
1383        let built_display_list = DisplayListBuilder::build(
1384            stacking_context_tree,
1385            fragment_tree,
1386            image_resolver.clone(),
1387            self.device().device_pixel_ratio(),
1388            reflow_request.highlighted_dom_node,
1389            &self.debug,
1390            paint_timing_handler,
1391            reflow_statistics,
1392        );
1393        self.paint_api.send_display_list(
1394            self.webview_id,
1395            &stacking_context_tree.paint_info,
1396            built_display_list,
1397        );
1398
1399        if paint_timing_handler.did_lcp_candidate_update() {
1400            if let Some(lcp_candidate) = paint_timing_handler.largest_contentful_paint_candidate() {
1401                self.paint_api.send_lcp_candidate(
1402                    lcp_candidate,
1403                    self.webview_id,
1404                    self.id,
1405                    stacking_context_tree.paint_info.epoch,
1406                );
1407                paint_timing_handler.unset_lcp_candidate_updated();
1408            }
1409        }
1410
1411        let (keys, instance_keys) = self
1412            .font_context
1413            .collect_unused_webrender_resources(false /* all */);
1414        self.paint_api
1415            .remove_unused_font_resources(self.webview_id.into(), keys, instance_keys);
1416        self.last_display_list_was_empty.set(false);
1417        self.have_ever_generated_display_list.set(true);
1418        self.need_new_display_list.set(false);
1419        self.previously_highlighted_dom_node
1420            .set(reflow_request.highlighted_dom_node);
1421        true
1422    }
1423
1424    fn set_scroll_offset_from_script(
1425        &self,
1426        external_scroll_id: ExternalScrollId,
1427        offset: LayoutVector2D,
1428    ) -> bool {
1429        let mut stacking_context_tree = self.stacking_context_tree.borrow_mut();
1430        let Some(stacking_context_tree) = stacking_context_tree.as_mut() else {
1431            return false;
1432        };
1433
1434        if let Some(offset) = stacking_context_tree
1435            .paint_info
1436            .scroll_tree
1437            .set_scroll_offset_for_node_with_external_scroll_id(
1438                external_scroll_id,
1439                offset,
1440                ScrollType::Script,
1441            )
1442        {
1443            self.paint_api.scroll_node_by_delta(
1444                self.webview_id,
1445                self.id.into(),
1446                offset,
1447                external_scroll_id,
1448            );
1449            true
1450        } else {
1451            false
1452        }
1453    }
1454
1455    /// Returns profiling information which is passed to the time profiler.
1456    fn profiler_metadata(&self) -> Option<TimerMetadata> {
1457        Some(TimerMetadata {
1458            url: self.url.to_string(),
1459            iframe: if self.is_iframe {
1460                TimerMetadataFrameType::IFrame
1461            } else {
1462                TimerMetadataFrameType::RootWindow
1463            },
1464            incremental: if self.have_ever_generated_display_list.get() {
1465                TimerMetadataReflowType::Incremental
1466            } else {
1467                TimerMetadataReflowType::FirstReflow
1468            },
1469        })
1470    }
1471
1472    /// Clear all cached layout trees and send an empty display list to paint.
1473    fn clear_layout_trees_and_send_empty_display_list(
1474        &self,
1475        reflow_request: &ReflowRequest,
1476    ) -> Option<ReflowResult> {
1477        // Clear layout trees.
1478        self.box_tree.borrow_mut().take();
1479        self.fragment_tree.borrow_mut().take();
1480        self.stacking_context_tree.borrow_mut().take();
1481
1482        // Send empty display list.
1483        let paint_info = PaintDisplayListInfo::new(
1484            reflow_request.viewport_details,
1485            Size2D::zero(),
1486            self.id.into(),
1487            reflow_request.epoch,
1488            AxesScrollSensitivity {
1489                x: ScrollType::InputEvents | ScrollType::Script,
1490                y: ScrollType::InputEvents | ScrollType::Script,
1491            },
1492            !self.have_ever_generated_display_list.get(),
1493        );
1494        let mut builder = webrender_api::DisplayListBuilder::new(paint_info.pipeline_id);
1495        builder.begin();
1496        let (_, empty_display_list) = builder.end();
1497
1498        self.paint_api
1499            .send_display_list(self.webview_id, &paint_info, empty_display_list);
1500        self.last_display_list_was_empty.set(true);
1501        self.have_ever_generated_display_list.set(true);
1502
1503        Some(ReflowResult {
1504            reflow_phases_run: ReflowPhasesRun::BuiltDisplayList,
1505            ..Default::default()
1506        })
1507    }
1508}
1509
1510fn get_ua_stylesheets() -> Result<UserAgentStylesheets, &'static str> {
1511    fn parse_ua_stylesheet(
1512        shared_lock: &SharedRwLock,
1513        filename: &str,
1514        content: &[u8],
1515    ) -> Result<DocumentStyleSheet, &'static str> {
1516        let url = Url::parse(&format!("chrome://resources/{:?}", filename))
1517            .ok()
1518            .unwrap();
1519        Ok(DocumentStyleSheet(ServoArc::new(Stylesheet::from_bytes(
1520            content,
1521            url.into(),
1522            None,
1523            None,
1524            Origin::UserAgent,
1525            ServoArc::new(shared_lock.wrap(MediaList::empty())),
1526            shared_lock.clone(),
1527            None,
1528            None,
1529            QuirksMode::NoQuirks,
1530        ))))
1531    }
1532
1533    let shared_lock = &GLOBAL_STYLE_DATA.shared_lock;
1534
1535    // FIXME: presentational-hints.css should be at author origin with zero specificity.
1536    //        (Does it make a difference?)
1537    let user_agent_stylesheets = vec![
1538        parse_ua_stylesheet(shared_lock, "user-agent.css", USER_AGENT_CSS)?,
1539        parse_ua_stylesheet(shared_lock, "servo.css", SERVO_CSS)?,
1540        parse_ua_stylesheet(
1541            shared_lock,
1542            "presentational-hints.css",
1543            PRESENTATIONAL_HINTS_CSS,
1544        )?,
1545    ];
1546
1547    let quirks_mode_stylesheet =
1548        parse_ua_stylesheet(shared_lock, "quirks-mode.css", QUIRKS_MODE_CSS)?;
1549
1550    Ok(UserAgentStylesheets {
1551        user_agent_stylesheets,
1552        quirks_mode_stylesheet,
1553    })
1554}
1555
1556/// This structure holds the user-agent stylesheets.
1557pub struct UserAgentStylesheets {
1558    /// The user agent stylesheets.
1559    pub user_agent_stylesheets: Vec<DocumentStyleSheet>,
1560    /// The quirks mode stylesheet.
1561    pub quirks_mode_stylesheet: DocumentStyleSheet,
1562}
1563
1564static UA_STYLESHEETS: LazyLock<UserAgentStylesheets> =
1565    LazyLock::new(|| match get_ua_stylesheets() {
1566        Ok(stylesheets) => stylesheets,
1567        Err(filename) => {
1568            error!("Failed to load UA stylesheet {}!", filename);
1569            process::exit(1);
1570        },
1571    });
1572
1573struct RegisteredPainterImpl {
1574    painter: Box<dyn Painter>,
1575    name: Atom,
1576    // FIXME: Should be a PrecomputedHashMap.
1577    properties: FxHashMap<Atom, PropertyId>,
1578}
1579
1580impl SpeculativePainter for RegisteredPainterImpl {
1581    fn speculatively_draw_a_paint_image(
1582        &self,
1583        properties: Vec<(Atom, String)>,
1584        arguments: Vec<String>,
1585    ) {
1586        self.painter
1587            .speculatively_draw_a_paint_image(properties, arguments);
1588    }
1589}
1590
1591impl RegisteredSpeculativePainter for RegisteredPainterImpl {
1592    fn properties(&self) -> &FxHashMap<Atom, PropertyId> {
1593        &self.properties
1594    }
1595    fn name(&self) -> Atom {
1596        self.name.clone()
1597    }
1598}
1599
1600impl Painter for RegisteredPainterImpl {
1601    fn draw_a_paint_image(
1602        &self,
1603        size: Size2D<f32, CSSPixel>,
1604        device_pixel_ratio: Scale<f32, CSSPixel, DevicePixel>,
1605        properties: Vec<(Atom, String)>,
1606        arguments: Vec<String>,
1607    ) -> Result<DrawAPaintImageResult, PaintWorkletError> {
1608        self.painter
1609            .draw_a_paint_image(size, device_pixel_ratio, properties, arguments)
1610    }
1611}
1612
1613struct RegisteredPaintersImpl(HashMap<Atom, RegisteredPainterImpl>);
1614
1615impl RegisteredSpeculativePainters for RegisteredPaintersImpl {
1616    fn get(&self, name: &Atom) -> Option<&dyn RegisteredSpeculativePainter> {
1617        self.0
1618            .get(name)
1619            .map(|painter| painter as &dyn RegisteredSpeculativePainter)
1620    }
1621}
1622
1623struct LayoutFontMetricsProvider(Arc<FontContext>);
1624
1625impl FontMetricsProvider for LayoutFontMetricsProvider {
1626    fn query_font_metrics(
1627        &self,
1628        _vertical: bool,
1629        font: &Font,
1630        base_size: CSSPixelLength,
1631        _flags: QueryFontMetricsFlags,
1632    ) -> FontMetrics {
1633        let font_context = &self.0;
1634        let font_group = self
1635            .0
1636            .font_group_with_size(ServoArc::new(font.clone()), base_size.into());
1637
1638        let Some(first_font_metrics) = font_group
1639            .first(font_context)
1640            .map(|font| font.metrics.clone())
1641        else {
1642            return Default::default();
1643        };
1644
1645        // Only use the x-height of this font if it is non-zero. Some fonts return
1646        // inaccurate metrics, which shouldn't be used.
1647        let x_height = Some(first_font_metrics.x_height)
1648            .filter(|x_height| !x_height.is_zero())
1649            .map(CSSPixelLength::from);
1650
1651        let zero_advance_measure = first_font_metrics
1652            .zero_horizontal_advance
1653            .or_else(|| {
1654                font_group
1655                    .find_by_codepoint(font_context, '0', None, Language::UND)?
1656                    .metrics
1657                    .zero_horizontal_advance
1658            })
1659            .map(CSSPixelLength::from);
1660
1661        let ic_width = first_font_metrics
1662            .ic_horizontal_advance
1663            .or_else(|| {
1664                font_group
1665                    .find_by_codepoint(font_context, '\u{6C34}', None, Language::UND)?
1666                    .metrics
1667                    .ic_horizontal_advance
1668            })
1669            .map(CSSPixelLength::from);
1670
1671        FontMetrics {
1672            x_height,
1673            zero_advance_measure,
1674            cap_height: None,
1675            ic_width,
1676            ascent: first_font_metrics.ascent.into(),
1677            script_percent_scale_down: None,
1678            script_script_percent_scale_down: None,
1679        }
1680    }
1681
1682    fn base_size_for_generic(&self, generic: GenericFontFamily) -> Length {
1683        Length::new(match generic {
1684            GenericFontFamily::Monospace => pref!(fonts_default_monospace_size),
1685            _ => pref!(fonts_default_size),
1686        } as f32)
1687        .max(Length::new(0.0))
1688    }
1689}
1690
1691impl Debug for LayoutFontMetricsProvider {
1692    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
1693        f.debug_tuple("LayoutFontMetricsProvider").finish()
1694    }
1695}
1696
1697struct SnapshotSetter<'dom> {
1698    elements_with_snapshot: Vec<ServoLayoutElement<'dom>>,
1699}
1700
1701impl SnapshotSetter<'_> {
1702    fn new(restyle: &mut ReflowRequestRestyle, snapshot_map: &mut SnapshotMap) -> Self {
1703        debug!("Draining restyles: {}", restyle.pending_restyles.len());
1704        let restyles = std::mem::take(&mut restyle.pending_restyles);
1705
1706        let elements_with_snapshot: Vec<_> = restyles
1707            .iter()
1708            .filter(|r| r.1.snapshot.is_some())
1709            .map(|r| unsafe { ServoLayoutNode::new(&r.0).as_element().unwrap() })
1710            .collect();
1711
1712        for (element, restyle) in restyles {
1713            let element = unsafe { ServoLayoutNode::new(&element).as_element().unwrap() };
1714
1715            // If we haven't styled this node yet, we don't need to track a
1716            // restyle.
1717            let Some(mut style_data) = element
1718                .style_data()
1719                .map(|data| data.element_data.borrow_mut())
1720            else {
1721                element.unset_snapshot_flags();
1722                continue;
1723            };
1724
1725            debug!("Noting restyle for {:?}: {:?}", element, style_data);
1726            if let Some(s) = restyle.snapshot {
1727                element.set_has_snapshot();
1728                snapshot_map.insert(element.as_node().opaque(), s);
1729            }
1730
1731            // Stash the data on the element for processing by the style system.
1732            style_data.hint.insert(restyle.hint);
1733            style_data.damage = restyle.damage;
1734        }
1735        Self {
1736            elements_with_snapshot,
1737        }
1738    }
1739}
1740
1741impl Drop for SnapshotSetter<'_> {
1742    fn drop(&mut self) {
1743        for element in &self.elements_with_snapshot {
1744            element.unset_snapshot_flags();
1745        }
1746    }
1747}
1748
1749bitflags! {
1750    #[derive(Clone, Copy, Debug, Eq, PartialEq)]
1751    pub struct ReflowPhases: u8 {
1752        const StackingContextTreeConstruction = 1 << 0;
1753        const DisplayListConstruction = 1 << 1;
1754    }
1755}
1756
1757impl ReflowPhases {
1758    /// Return the necessary phases of layout for the given [`ReflowGoal`]. Note that all
1759    /// [`ReflowGoals`] need the basic restyle + box tree layout + fragment tree layout,
1760    /// so [`ReflowPhases::empty()`] implies that.
1761    fn necessary(reflow_goal: &ReflowGoal) -> Self {
1762        match reflow_goal {
1763            ReflowGoal::LayoutQuery(query) => match query {
1764                QueryMsg::NodesFromPointQuery => {
1765                    Self::StackingContextTreeConstruction | Self::DisplayListConstruction
1766                },
1767                QueryMsg::BoxArea |
1768                QueryMsg::BoxAreas |
1769                QueryMsg::ElementsFromPoint |
1770                QueryMsg::OffsetParentQuery |
1771                QueryMsg::ResolvedStyleQuery |
1772                QueryMsg::ScrollingAreaOrOffsetQuery |
1773                QueryMsg::TextIndexQuery => Self::StackingContextTreeConstruction,
1774                QueryMsg::ClientRectQuery |
1775                QueryMsg::CurrentCSSZoomQuery |
1776                QueryMsg::EffectiveOverflow |
1777                QueryMsg::ElementInnerOuterTextQuery |
1778                QueryMsg::InnerWindowDimensionsQuery |
1779                QueryMsg::PaddingQuery |
1780                QueryMsg::ResolvedFontStyleQuery |
1781                QueryMsg::ScrollParentQuery |
1782                QueryMsg::StyleQuery => Self::empty(),
1783            },
1784            ReflowGoal::UpdateScrollNode(..) | ReflowGoal::UpdateTheRendering => {
1785                Self::StackingContextTreeConstruction | Self::DisplayListConstruction
1786            },
1787        }
1788    }
1789}