Mirrors/servo
1
0
Fork 0
mirror of https://github.com/servo/servo.git synced 2025-10-14 15:30:27 +01:00
Code Issues Projects Releases Packages Wiki Activity
servo/components/layout/taffy/layout.rs
haval0 ec88b5d752
layout: Check if root before establishing containing block (#36360) 
As per
[w3.org/TR/filter-effects-1#FilterProperty](https://www.w3.org/TR/filter-effects-1/#FilterProperty),
`filter` shouldn't make the root element establish a containing block
for absolute and fixed positioned descendants. `will-change: filter` has
matching behavior.

This PR adds a check for if we are the root element before establishing
such a block.

To know if we are the root element, we look at the `FragmentFlags`
passed in. Previously for our function, these were dummy flags, always
constructed as empty. Thus, this PR also makes sure the correct
FragmentFlags are passed down the chain to the function
`establishes_containing_block_for_all_descendants`.

Testing:
- `/css/filter-effects/filtered-html-is-not-container.html` now passes
- `/css/css-will-change/will-change-fixedpos-cb-003.html` now passes
- Manual tests are working

Fixes: #35391

---------

Signed-off-by: haval0 <56519858+haval0@users.noreply.github.com>
Signed-off-by: Oriol Brufau <obrufau@igalia.com>
Co-authored-by: Oriol Brufau <obrufau@igalia.com>
2025-04-29 19:19:31 +00:00

664 lines
28 KiB
Rust
Raw Blame History

/* 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/. */
use app_units::Au;
use atomic_refcell::{AtomicRef, AtomicRefCell};
use style::Zero;
use style::properties::ComputedValues;
use style::values::specified::align::AlignFlags;
use style::values::specified::box_::DisplayInside;
use taffy::style_helpers::{TaffyMaxContent, TaffyMinContent};
use taffy::{AvailableSpace, MaybeMath, RequestedAxis, RunMode};
use super::{
SpecificTaffyGridInfo, TaffyContainer, TaffyItemBox, TaffyItemBoxInner, TaffyStyloStyle,
};
use crate::cell::ArcRefCell;
use crate::context::LayoutContext;
use crate::formatting_contexts::{
Baselines, IndependentFormattingContext, IndependentFormattingContextContents,
};
use crate::fragment_tree::{
BoxFragment, CollapsedBlockMargins, Fragment, FragmentFlags, SpecificLayoutInfo,
};
use crate::geom::{
LogicalVec2, PhysicalPoint, PhysicalRect, PhysicalSides, PhysicalSize, Size, SizeConstraint,
Sizes,
};
use crate::layout_box_base::CacheableLayoutResult;
use crate::positioned::{AbsolutelyPositionedBox, PositioningContext, PositioningContextLength};
use crate::sizing::{ComputeInlineContentSizes, ContentSizes, InlineContentSizesResult};
use crate::style_ext::{ComputedValuesExt, LayoutStyle};
use crate::{ConstraintSpace, ContainingBlock, ContainingBlockSize};
const DUMMY_NODE_ID: taffy::NodeId = taffy::NodeId::new(u64::MAX);
fn resolve_content_size(constraint: AvailableSpace, content_sizes: ContentSizes) -> f32 {
match constraint {
AvailableSpace::Definite(limit) => {
let min = content_sizes.min_content.to_f32_px();
let max = content_sizes.max_content.to_f32_px();
limit.min(max).max(min)
},
AvailableSpace::MinContent => content_sizes.min_content.to_f32_px(),
AvailableSpace::MaxContent => content_sizes.max_content.to_f32_px(),
}
}
#[inline(always)]
fn with_independant_formatting_context<T>(
item: &mut TaffyItemBoxInner,
cb: impl FnOnce(&IndependentFormattingContext) -> T,
) -> T {
match item {
TaffyItemBoxInner::InFlowBox(context) => cb(context),
TaffyItemBoxInner::OutOfFlowAbsolutelyPositionedBox(abspos_box) => {
cb(&AtomicRefCell::borrow(abspos_box).context)
},
}
}
/// Layout parameters and intermediate results about a taffy container,
/// grouped to avoid passing around many parameters
struct TaffyContainerContext<'a> {
source_child_nodes: &'a [ArcRefCell<TaffyItemBox>],
layout_context: &'a LayoutContext<'a>,
positioning_context: &'a mut PositioningContext,
content_box_size_override: &'a ContainingBlock<'a>,
style: &'a ComputedValues,
specific_layout_info: Option<SpecificLayoutInfo>,
/// Temporary location for children specific info, which will be moved into child fragments
child_specific_layout_infos: Vec<Option<SpecificLayoutInfo>>,
}
struct ChildIter(std::ops::Range<usize>);
impl Iterator for ChildIter {
type Item = taffy::NodeId;
fn next(&mut self) -> Option<Self::Item> {
self.0.next().map(taffy::NodeId::from)
}
}
impl taffy::TraversePartialTree for TaffyContainerContext<'_> {
type ChildIter<'a>
= ChildIter
where
Self: 'a;
fn child_ids(&self, _node_id: taffy::NodeId) -> Self::ChildIter<'_> {
ChildIter(0..self.source_child_nodes.len())
}
fn child_count(&self, _node_id: taffy::NodeId) -> usize {
self.source_child_nodes.len()
}
fn get_child_id(&self, _node_id: taffy::NodeId, index: usize) -> taffy::NodeId {
taffy::NodeId::from(index)
}
}
impl taffy::LayoutPartialTree for TaffyContainerContext<'_> {
type CoreContainerStyle<'a>
= TaffyStyloStyle<&'a ComputedValues>
where
Self: 'a;
fn get_core_container_style(&self, _node_id: taffy::NodeId) -> Self::CoreContainerStyle<'_> {
TaffyStyloStyle(self.style)
}
fn set_unrounded_layout(&mut self, node_id: taffy::NodeId, layout: &taffy::Layout) {
let id = usize::from(node_id);
(*self.source_child_nodes[id]).borrow_mut().taffy_layout = *layout;
}
fn compute_child_layout(
&mut self,
node_id: taffy::NodeId,
inputs: taffy::LayoutInput,
) -> taffy::LayoutOutput {
let mut child = (*self.source_child_nodes[usize::from(node_id)]).borrow_mut();
let child = &mut *child;
fn option_f32_to_size(input: Option<f32>) -> Size<Au> {
match input {
None => Size::Initial,
Some(length) => Size::Numeric(Au::from_f32_px(length)),
}
}
with_independant_formatting_context(
&mut child.taffy_level_box,
|independent_context| -> taffy::LayoutOutput {
// TODO: re-evaluate sizing constraint conversions in light of recent layout changes
let containing_block = &self.content_box_size_override;
let style = independent_context.style();
// Adjust known_dimensions from border box to content box
let pbm = independent_context
.layout_style()
.padding_border_margin(containing_block);
let pb_sum = pbm.padding_border_sums.map(|v| v.to_f32_px());
let margin_sum = pbm.margin.auto_is(Au::zero).sum().map(|v| v.to_f32_px());
let content_box_inset = pb_sum + margin_sum;
let content_box_known_dimensions = taffy::Size {
width: inputs
.known_dimensions
.width
.map(|width| width - pb_sum.inline),
height: inputs
.known_dimensions
.height
.map(|height| height - pb_sum.block),
};
match &independent_context.contents {
IndependentFormattingContextContents::Replaced(replaced) => {
let content_box_size = replaced
.used_size_as_if_inline_element_from_content_box_sizes(
containing_block,
style,
independent_context
.preferred_aspect_ratio(&pbm.padding_border_sums),
LogicalVec2 {
block: &Sizes::new(
option_f32_to_size(content_box_known_dimensions.height),
Size::Initial,
Size::Initial,
),
inline: &Sizes::new(
option_f32_to_size(content_box_known_dimensions.width),
Size::Initial,
Size::Initial,
),
},
Size::FitContent.into(),
pbm.padding_border_sums + pbm.margin.auto_is(Au::zero).sum(),
)
.to_physical_size(self.style.writing_mode);
// Create fragments if the RunMode if PerformLayout
// If the RunMode is ComputeSize then only the returned size will be used
if inputs.run_mode == RunMode::PerformLayout {
child.child_fragments = replaced.make_fragments(
self.layout_context,
style,
content_box_size,
);
}
let computed_size = taffy::Size {
width: inputs.known_dimensions.width.unwrap_or_else(|| {
content_box_size.width.to_f32_px() + pb_sum.inline
}),
height: inputs.known_dimensions.height.unwrap_or_else(|| {
content_box_size.height.to_f32_px() + pb_sum.block
}),
};
let size = inputs.known_dimensions.unwrap_or(computed_size);
taffy::LayoutOutput {
size,
..taffy::LayoutOutput::DEFAULT
}
},
IndependentFormattingContextContents::NonReplaced(non_replaced) => {
// Compute inline size
let inline_size = content_box_known_dimensions.width.unwrap_or_else(|| {
let constraint_space = ConstraintSpace {
// TODO: pass min- and max- size
block_size: SizeConstraint::new(
inputs.parent_size.height.map(Au::from_f32_px),
Au::zero(),
None,
),
writing_mode: self.style.writing_mode,
preferred_aspect_ratio: non_replaced.preferred_aspect_ratio(),
};
let result = independent_context
.inline_content_sizes(self.layout_context, &constraint_space);
let adjusted_available_space = inputs
.available_space
.width
.map_definite_value(|width| width - content_box_inset.inline);
resolve_content_size(adjusted_available_space, result.sizes)
});
// Return early if only inline content sizes are requested
if inputs.run_mode == RunMode::ComputeSize &&
inputs.axis == RequestedAxis::Horizontal
{
return taffy::LayoutOutput::from_outer_size(taffy::Size {
width: inline_size + pb_sum.inline,
// If RequestedAxis is Horizontal then height will be ignored.
height: 0.0,
});
}
let content_box_size_override = ContainingBlock {
size: ContainingBlockSize {
inline: Au::from_f32_px(inline_size),
block: content_box_known_dimensions
.height
.map(Au::from_f32_px)
.map_or_else(SizeConstraint::default, SizeConstraint::Definite),
},
style,
};
let layout = {
let mut child_positioning_context = independent_context
.new_positioning_context()
.unwrap_or_else(|| {
PositioningContext::new_for_subtree(
self.positioning_context
.collects_for_nearest_positioned_ancestor(),
)
});
let layout = non_replaced.layout_without_caching(
self.layout_context,
&mut child_positioning_context,
&content_box_size_override,
containing_block,
false, /* depends_on_block_constraints */
);
// Store layout data on child for later access
child.positioning_context = child_positioning_context;
layout
};
child.child_fragments = layout.fragments;
self.child_specific_layout_infos[usize::from(node_id)] =
layout.specific_layout_info;
let block_size = layout.content_block_size.to_f32_px();
let computed_size = taffy::Size {
width: inline_size + pb_sum.inline,
height: block_size + pb_sum.block,
};
let size = inputs.known_dimensions.unwrap_or(computed_size);
taffy::LayoutOutput {
size,
first_baselines: taffy::Point {
x: None,
y: layout.baselines.first.map(|au| au.to_f32_px()),
},
..taffy::LayoutOutput::DEFAULT
}
},
}
},
)
}
}
impl taffy::LayoutGridContainer for TaffyContainerContext<'_> {
type GridContainerStyle<'a>
= TaffyStyloStyle<&'a ComputedValues>
where
Self: 'a;
type GridItemStyle<'a>
= TaffyStyloStyle<AtomicRef<'a, ComputedValues>>
where
Self: 'a;
fn get_grid_container_style(
&self,
_node_id: taffy::prelude::NodeId,
) -> Self::GridContainerStyle<'_> {
TaffyStyloStyle(self.style)
}
fn get_grid_child_style(
&self,
child_node_id: taffy::prelude::NodeId,
) -> Self::GridItemStyle<'_> {
let id = usize::from(child_node_id);
let child = (*self.source_child_nodes[id]).borrow();
TaffyStyloStyle(AtomicRef::map(child, |c| &*c.style))
}
fn set_detailed_grid_info(
&mut self,
_node_id: taffy::NodeId,
specific_layout_info: taffy::DetailedGridInfo,
) {
self.specific_layout_info = Some(SpecificLayoutInfo::Grid(Box::new(
SpecificTaffyGridInfo::from_detailed_grid_layout(specific_layout_info),
)));
}
}
impl ComputeInlineContentSizes for TaffyContainer {
fn compute_inline_content_sizes(
&self,
layout_context: &LayoutContext,
_constraint_space: &ConstraintSpace,
) -> InlineContentSizesResult {
let style = &self.style;
let max_content_inputs = taffy::LayoutInput {
run_mode: taffy::RunMode::ComputeSize,
sizing_mode: taffy::SizingMode::InherentSize,
axis: taffy::RequestedAxis::Horizontal,
vertical_margins_are_collapsible: taffy::Line::FALSE,
known_dimensions: taffy::Size::NONE,
parent_size: taffy::Size::NONE,
available_space: taffy::Size::MAX_CONTENT,
};
let min_content_inputs = taffy::LayoutInput {
available_space: taffy::Size::MIN_CONTENT,
..max_content_inputs
};
let containing_block = &ContainingBlock {
size: ContainingBlockSize {
inline: Au::zero(),
block: SizeConstraint::default(),
},
style,
};
let mut grid_context = TaffyContainerContext {
layout_context,
positioning_context:
&mut PositioningContext::new_for_containing_block_for_all_descendants(),
content_box_size_override: containing_block,
style,
source_child_nodes: &self.children,
specific_layout_info: None,
child_specific_layout_infos: vec![None; self.children.len()],
};
let (max_content_output, min_content_output) = match style.clone_display().inside() {
DisplayInside::Grid => {
let max_content_output = taffy::compute_grid_layout(
&mut grid_context,
DUMMY_NODE_ID,
max_content_inputs,
);
let min_content_output = taffy::compute_grid_layout(
&mut grid_context,
DUMMY_NODE_ID,
min_content_inputs,
);
(max_content_output, min_content_output)
},
_ => panic!("Servo is only configured to use Taffy for CSS Grid layout"),
};
let pb_sums = self
.layout_style()
.padding_border_margin(containing_block)
.padding_border_sums;
InlineContentSizesResult {
sizes: ContentSizes {
max_content: Au::from_f32_px(max_content_output.size.width) - pb_sums.inline,
min_content: Au::from_f32_px(min_content_output.size.width) - pb_sums.inline,
},
// TODO: determine this accurately
//
// "true" is a safe default as it will prevent Servo from performing optimizations based
// on the assumption that the node's size does not depend on block constraints.
depends_on_block_constraints: true,
}
}
}
impl TaffyContainer {
/// <https://drafts.csswg.org/css-grid/#layout-algorithm>
pub(crate) fn layout(
&self,
layout_context: &LayoutContext,
positioning_context: &mut PositioningContext,
content_box_size_override: &ContainingBlock,
containing_block: &ContainingBlock,
) -> CacheableLayoutResult {
let mut container_ctx = TaffyContainerContext {
layout_context,
positioning_context,
content_box_size_override,
style: content_box_size_override.style,
source_child_nodes: &self.children,
specific_layout_info: None,
child_specific_layout_infos: vec![None; self.children.len()],
};
let container_style = &content_box_size_override.style;
let align_items = container_style.clone_align_items();
let justify_items = container_style.clone_justify_items();
let pbm = self.layout_style().padding_border_margin(containing_block);
let known_dimensions = taffy::Size {
width: Some(
(content_box_size_override.size.inline + pbm.padding_border_sums.inline)
.to_f32_px(),
),
height: content_box_size_override
.size
.block
.to_definite()
.map(Au::to_f32_px)
.maybe_add(pbm.padding_border_sums.block.to_f32_px()),
};
let taffy_containing_block = taffy::Size {
width: Some(containing_block.size.inline.to_f32_px()),
height: containing_block.size.block.to_definite().map(Au::to_f32_px),
};
let layout_input = taffy::LayoutInput {
run_mode: taffy::RunMode::PerformLayout,
sizing_mode: taffy::SizingMode::InherentSize,
axis: taffy::RequestedAxis::Vertical,
vertical_margins_are_collapsible: taffy::Line::FALSE,
known_dimensions,
parent_size: taffy_containing_block,
available_space: taffy_containing_block.map(AvailableSpace::from),
};
let output = match container_ctx.style.clone_display().inside() {
DisplayInside::Grid => {
taffy::compute_grid_layout(&mut container_ctx, DUMMY_NODE_ID, layout_input)
},
_ => panic!("Servo is only configured to use Taffy for CSS Grid layout"),
};
// Convert `taffy::Layout` into Servo `Fragment`s
// with container_ctx.child_specific_layout_infos will also moved to the corresponding `Fragment`s
let fragments: Vec<Fragment> = self
.children
.iter()
.map(|child| (**child).borrow_mut())
.enumerate()
.map(|(child_id, mut child)| {
fn rect_to_physical_sides<T>(rect: taffy::Rect<T>) -> PhysicalSides<T> {
PhysicalSides::new(rect.top, rect.right, rect.bottom, rect.left)
}
fn size_and_pos_to_logical_rect<T: Default>(
position: taffy::Point<T>,
size: taffy::Size<T>,
) -> PhysicalRect<T> {
PhysicalRect::new(
PhysicalPoint::new(position.x, position.y),
PhysicalSize::new(size.width, size.height),
)
}
let layout = &child.taffy_layout;
let padding = rect_to_physical_sides(layout.padding.map(Au::from_f32_px));
let border = rect_to_physical_sides(layout.border.map(Au::from_f32_px));
let margin = rect_to_physical_sides(layout.margin.map(Au::from_f32_px));
// Compute content box size and position.
//
// For the x/y position we have to correct for the difference between the
// content box and the border box for both the parent and the child.
let content_size = size_and_pos_to_logical_rect(
taffy::Point {
x: Au::from_f32_px(
layout.location.x + layout.padding.left + layout.border.left,
) - pbm.padding.inline_start -
pbm.border.inline_start,
y: Au::from_f32_px(
layout.location.y + layout.padding.top + layout.border.top,
) - pbm.padding.block_start -
pbm.border.block_start,
},
taffy::Size {
width: layout.size.width -
layout.padding.left -
layout.padding.right -
layout.border.left -
layout.border.right,
height: layout.size.height -
layout.padding.top -
layout.padding.bottom -
layout.border.top -
layout.border.bottom,
}
.map(Au::from_f32_px),
);
let child_specific_layout_info: Option<SpecificLayoutInfo> =
std::mem::take(&mut container_ctx.child_specific_layout_infos[child_id]);
let establishes_containing_block_for_absolute_descendants =
if let TaffyItemBoxInner::InFlowBox(independent_box) = &child.taffy_level_box {
child
.style
.establishes_containing_block_for_absolute_descendants(
independent_box.base_fragment_info().flags,
)
} else {
false
};
let fragment = match &mut child.taffy_level_box {
TaffyItemBoxInner::InFlowBox(independent_box) => {
let mut fragment_info = independent_box.base_fragment_info();
fragment_info
.flags
.insert(FragmentFlags::IS_FLEX_OR_GRID_ITEM);
let mut box_fragment = BoxFragment::new(
fragment_info,
independent_box.style().clone(),
std::mem::take(&mut child.child_fragments),
content_size,
padding,
border,
margin,
None, /* clearance */
)
.with_baselines(Baselines {
first: output.first_baselines.y.map(Au::from_f32_px),
last: None,
})
.with_specific_layout_info(child_specific_layout_info);
if establishes_containing_block_for_absolute_descendants {
child.positioning_context.layout_collected_children(
container_ctx.layout_context,
&mut box_fragment,
);
}
let fragment = Fragment::Box(ArcRefCell::new(box_fragment));
child
.positioning_context
.adjust_static_position_of_hoisted_fragments(
&fragment,
PositioningContextLength::zero(),
);
let child_positioning_context = std::mem::replace(
&mut child.positioning_context,
PositioningContext::new_for_containing_block_for_all_descendants(),
);
container_ctx
.positioning_context
.append(child_positioning_context);
fragment
},
TaffyItemBoxInner::OutOfFlowAbsolutelyPositionedBox(abs_pos_box) => {
fn resolve_alignment(value: AlignFlags, auto: AlignFlags) -> AlignFlags {
match value {
AlignFlags::AUTO => auto,
AlignFlags::NORMAL => AlignFlags::STRETCH,
value => value,
}
}
let hoisted_box = AbsolutelyPositionedBox::to_hoisted(
abs_pos_box.clone(),
PhysicalRect::from_size(PhysicalSize::new(
Au::from_f32_px(output.size.width),
Au::from_f32_px(output.size.height),
)),
LogicalVec2 {
inline: resolve_alignment(
child.style.clone_align_self().0.0,
align_items.0,
),
block: resolve_alignment(
child.style.clone_justify_self().0.0,
justify_items.computed.0,
),
},
container_ctx.style.writing_mode,
);
let hoisted_fragment = hoisted_box.fragment.clone();
container_ctx.positioning_context.push(hoisted_box);
Fragment::AbsoluteOrFixedPositioned(hoisted_fragment)
},
};
if let TaffyItemBoxInner::InFlowBox(independent_formatting_context) =
&child.taffy_level_box
{
independent_formatting_context
.base
.set_fragment(fragment.clone());
}
fragment
})
.collect();
CacheableLayoutResult {
fragments,
content_block_size: Au::from_f32_px(output.size.height) - pbm.padding_border_sums.block,
content_inline_size_for_table: None,
baselines: Baselines::default(),
// TODO: determine this accurately
//
// "true" is a safe default as it will prevent Servo from performing optimizations based
// on the assumption that the node's size does not depend on block constraints.
depends_on_block_constraints: true,
specific_layout_info: container_ctx.specific_layout_info,
collapsible_margins_in_children: CollapsedBlockMargins::zero(),
}
}
#[inline]
pub(crate) fn layout_style(&self) -> LayoutStyle {
LayoutStyle::Default(&self.style)
}
}
Reference in a new issue View git blame Copy permalink