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servo/components/layout/display_list/webrender_helpers.rs
Samson aad2dccc9c
Strict import formatting (grouping and granularity) (#30325) 
* strict imports formatting

* Reformat all imports
2023-09-11 19:16:54 +00:00

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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at https://mozilla.org/MPL/2.0/. */
// TODO(gw): This contains helper traits and implementations for converting Servo display lists
// into WebRender display lists. In the future, this step should be completely removed.
// This might be achieved by sharing types between WR and Servo display lists, or
// completely converting layout to directly generate WebRender display lists, for example.
use log::trace;
use msg::constellation_msg::PipelineId;
use script_traits::compositor::{CompositorDisplayListInfo, ScrollTreeNodeId, ScrollableNodeInfo};
use webrender_api::units::{LayoutPoint, LayoutSize, LayoutVector2D};
use webrender_api::{
self, ClipChainId, ClipId, CommonItemProperties, DisplayItem as WrDisplayItem,
DisplayListBuilder, Epoch, PrimitiveFlags, PropertyBinding, PushStackingContextDisplayItem,
RasterSpace, ReferenceFrameKind, SpaceAndClipInfo, SpatialId, StackingContext,
};
use crate::display_list::items::{
BaseDisplayItem, ClipScrollNode, ClipScrollNodeType, ClipType, DisplayItem, DisplayList,
StackingContextType,
};
struct ClipScrollState<'a> {
clip_scroll_nodes: &'a mut Vec<ClipScrollNode>,
compositor_info: CompositorDisplayListInfo,
}
impl<'a> ClipScrollState<'a> {
fn new(
clip_scroll_nodes: &'a mut Vec<ClipScrollNode>,
compositor_info: CompositorDisplayListInfo,
builder: &mut DisplayListBuilder,
) -> Self {
let mut state = ClipScrollState {
clip_scroll_nodes,
compositor_info,
};
// We need to register the WebRender root reference frame and root scroll node ids
// here manually, because WebRender and the CompositorDisplayListInfo create them
// automatically. We also follow the "old" WebRender API for clip/scroll for now,
// hence both arrays are initialized based on FIRST_SPATIAL_NODE_INDEX, while
// FIRST_CLIP_NODE_INDEX is not taken into account.
state.clip_scroll_nodes[0].scroll_node_id =
Some(state.compositor_info.root_reference_frame_id);
state.clip_scroll_nodes[1].scroll_node_id = Some(state.compositor_info.root_scroll_node_id);
let root_clip_chain =
builder.define_clip_chain(None, [ClipId::root(state.compositor_info.pipeline_id)]);
state.add_clip_node_mapping(0, root_clip_chain);
state.add_clip_node_mapping(1, root_clip_chain);
state
}
fn webrender_clip_id_for_index(&mut self, index: usize) -> ClipChainId {
self.clip_scroll_nodes[index]
.clip_chain_id
.expect("Tried to access WebRender ClipId before definining it.")
}
fn webrender_spatial_id_for_index(&mut self, index: usize) -> SpatialId {
self.clip_scroll_nodes[index]
.scroll_node_id
.expect("Tried to use WebRender parent SpatialId before it was defined.")
.spatial_id
}
fn add_clip_node_mapping(&mut self, index: usize, webrender_id: ClipChainId) {
self.clip_scroll_nodes[index].clip_chain_id = Some(webrender_id);
}
fn scroll_node_id_from_index(&self, index: usize) -> ScrollTreeNodeId {
self.clip_scroll_nodes[index]
.scroll_node_id
.expect("Tried to use WebRender parent SpatialId before it was defined.")
}
fn register_spatial_node(
&mut self,
index: usize,
spatial_id: SpatialId,
parent_index: Option<usize>,
scroll_info: Option<ScrollableNodeInfo>,
) {
let parent_scroll_node_id = parent_index.map(|index| self.scroll_node_id_from_index(index));
self.clip_scroll_nodes[index].scroll_node_id =
Some(self.compositor_info.scroll_tree.add_scroll_tree_node(
parent_scroll_node_id.as_ref(),
spatial_id,
scroll_info,
));
}
fn add_spatial_node_mapping_to_parent_index(&mut self, index: usize, parent_index: usize) {
self.clip_scroll_nodes[index].scroll_node_id =
self.clip_scroll_nodes[parent_index].scroll_node_id
}
}
/// Contentful paint, for the purpose of
/// https://w3c.github.io/paint-timing/#first-contentful-paint
/// (i.e. the display list contains items of type text,
/// image, non-white canvas or SVG). Used by metrics.
pub struct IsContentful(pub bool);
impl DisplayList {
pub fn convert_to_webrender(
&mut self,
pipeline_id: PipelineId,
viewport_size: LayoutSize,
epoch: Epoch,
) -> (DisplayListBuilder, CompositorDisplayListInfo, IsContentful) {
let webrender_pipeline = pipeline_id.to_webrender();
let mut builder = DisplayListBuilder::new(webrender_pipeline);
let content_size = self.bounds().size;
let mut state = ClipScrollState::new(
&mut self.clip_scroll_nodes,
CompositorDisplayListInfo::new(viewport_size, content_size, webrender_pipeline, epoch),
&mut builder,
);
let mut is_contentful = IsContentful(false);
for item in &mut self.list {
is_contentful.0 |= item.convert_to_webrender(&mut state, &mut builder).0;
}
(builder, state.compositor_info, is_contentful)
}
}
impl DisplayItem {
fn convert_to_webrender(
&mut self,
state: &mut ClipScrollState,
builder: &mut DisplayListBuilder,
) -> IsContentful {
// Note: for each time of a display item, if we register one of `clip_ids` or `spatial_ids`,
// we also register the other one as inherited from the current state or the stack.
// This is not an ideal behavior, but it is compatible with the old WebRender model
// of the clip-scroll tree.
let clip_and_scroll_indices = self.base().clipping_and_scrolling;
trace!("converting {:?}", clip_and_scroll_indices);
let current_scrolling_index = clip_and_scroll_indices.scrolling.to_index();
let current_scroll_node_id = state.scroll_node_id_from_index(current_scrolling_index);
let internal_clip_id = clip_and_scroll_indices
.clipping
.unwrap_or(clip_and_scroll_indices.scrolling);
let current_clip_chain_id = state.webrender_clip_id_for_index(internal_clip_id.to_index());
let hit_test_bounds = self.bounds().intersection(&self.base().clip_rect);
let build_common_item_properties = |base: &BaseDisplayItem| {
CommonItemProperties {
clip_rect: base.clip_rect,
spatial_id: current_scroll_node_id.spatial_id,
clip_id: ClipId::ClipChain(current_clip_chain_id),
// TODO(gw): Make use of the WR backface visibility functionality.
flags: PrimitiveFlags::default(),
}
};
let mut push_hit_test = |base: &BaseDisplayItem| {
let bounds = match hit_test_bounds {
Some(bounds) => bounds,
None => return,
};
let cursor = match base.metadata.cursor {
Some(cursor) => cursor,
None => return,
};
let hit_test_index = state.compositor_info.add_hit_test_info(
base.metadata.node.0 as u64,
Some(cursor),
current_scroll_node_id,
);
builder.push_hit_test(
&CommonItemProperties {
clip_rect: bounds,
spatial_id: current_scroll_node_id.spatial_id,
clip_id: ClipId::ClipChain(current_clip_chain_id),
flags: PrimitiveFlags::default(),
},
(hit_test_index as u64, 0u16),
);
};
match *self {
DisplayItem::Rectangle(ref mut item) => {
item.item.common = build_common_item_properties(&item.base);
push_hit_test(&item.base);
builder.push_item(&WrDisplayItem::Rectangle(item.item));
IsContentful(false)
},
DisplayItem::Text(ref mut item) => {
item.item.common = build_common_item_properties(&item.base);
push_hit_test(&item.base);
builder.push_item(&WrDisplayItem::Text(item.item));
builder.push_iter(item.data.iter());
IsContentful(true)
},
DisplayItem::Image(ref mut item) => {
item.item.common = build_common_item_properties(&item.base);
push_hit_test(&item.base);
builder.push_item(&WrDisplayItem::Image(item.item));
IsContentful(true)
},
DisplayItem::RepeatingImage(ref mut item) => {
item.item.common = build_common_item_properties(&item.base);
push_hit_test(&item.base);
builder.push_item(&WrDisplayItem::RepeatingImage(item.item));
IsContentful(true)
},
DisplayItem::Border(ref mut item) => {
item.item.common = build_common_item_properties(&item.base);
push_hit_test(&item.base);
if !item.data.is_empty() {
builder.push_stops(item.data.as_ref());
}
builder.push_item(&WrDisplayItem::Border(item.item));
IsContentful(false)
},
DisplayItem::Gradient(ref mut item) => {
item.item.common = build_common_item_properties(&item.base);
push_hit_test(&item.base);
builder.push_stops(item.data.as_ref());
builder.push_item(&WrDisplayItem::Gradient(item.item));
IsContentful(false)
},
DisplayItem::RadialGradient(ref mut item) => {
item.item.common = build_common_item_properties(&item.base);
push_hit_test(&item.base);
builder.push_stops(item.data.as_ref());
builder.push_item(&WrDisplayItem::RadialGradient(item.item));
IsContentful(false)
},
DisplayItem::Line(ref mut item) => {
item.item.common = build_common_item_properties(&item.base);
push_hit_test(&item.base);
builder.push_item(&WrDisplayItem::Line(item.item));
IsContentful(false)
},
DisplayItem::BoxShadow(ref mut item) => {
item.item.common = build_common_item_properties(&item.base);
push_hit_test(&item.base);
builder.push_item(&WrDisplayItem::BoxShadow(item.item));
IsContentful(false)
},
DisplayItem::PushTextShadow(ref mut item) => {
let common = build_common_item_properties(&item.base);
push_hit_test(&item.base);
builder.push_shadow(
&SpaceAndClipInfo {
spatial_id: common.spatial_id,
clip_id: common.clip_id,
},
item.shadow,
true,
);
IsContentful(false)
},
DisplayItem::PopAllTextShadows(_) => {
builder.push_item(&WrDisplayItem::PopAllShadows);
IsContentful(false)
},
DisplayItem::Iframe(ref mut item) => {
let common = build_common_item_properties(&item.base);
push_hit_test(&item.base);
builder.push_iframe(
item.bounds,
common.clip_rect,
&SpaceAndClipInfo {
spatial_id: common.spatial_id,
clip_id: common.clip_id,
},
item.iframe.to_webrender(),
true,
);
IsContentful(false)
},
DisplayItem::PushStackingContext(ref item) => {
let stacking_context = &item.stacking_context;
debug_assert_eq!(stacking_context.context_type, StackingContextType::Real);
//let mut info = LayoutPrimitiveInfo::new(stacking_context.bounds);
let mut bounds = stacking_context.bounds;
let spatial_id =
if let Some(frame_index) = stacking_context.established_reference_frame {
let (transform, ref_frame) =
match (stacking_context.transform, stacking_context.perspective) {
(None, Some(p)) => (
p,
ReferenceFrameKind::Perspective {
scrolling_relative_to: None,
},
),
(Some(t), None) => (
t,
ReferenceFrameKind::Transform {
is_2d_scale_translation: false,
should_snap: false,
},
),
(Some(t), Some(p)) => (
p.then(&t),
ReferenceFrameKind::Perspective {
scrolling_relative_to: None,
},
),
(None, None) => unreachable!(),
};
let new_spatial_id = builder.push_reference_frame(
stacking_context.bounds.origin,
current_scroll_node_id.spatial_id,
stacking_context.transform_style,
PropertyBinding::Value(transform),
ref_frame,
);
let index = frame_index.to_index();
state.add_clip_node_mapping(index, current_clip_chain_id);
state.register_spatial_node(
index,
new_spatial_id,
Some(current_scrolling_index),
None,
);
bounds.origin = LayoutPoint::zero();
new_spatial_id
} else {
current_scroll_node_id.spatial_id
};
if !stacking_context.filters.is_empty() {
builder.push_item(&WrDisplayItem::SetFilterOps);
builder.push_iter(&stacking_context.filters);
}
// TODO(jdm): WebRender now requires us to create stacking context items
// with the IS_BLEND_CONTAINER flag enabled if any children
// of the stacking context have a blend mode applied.
// This will require additional tracking during layout
// before we start collecting stacking contexts so that
// information will be available when we reach this point.
let wr_item = PushStackingContextDisplayItem {
origin: bounds.origin,
spatial_id,
prim_flags: PrimitiveFlags::default(),
stacking_context: StackingContext {
transform_style: stacking_context.transform_style,
mix_blend_mode: stacking_context.mix_blend_mode,
clip_id: None,
raster_space: RasterSpace::Screen,
flags: Default::default(),
},
};
builder.push_item(&WrDisplayItem::PushStackingContext(wr_item));
IsContentful(false)
},
DisplayItem::PopStackingContext(ref item) => {
builder.pop_stacking_context();
if item.established_reference_frame {
builder.pop_reference_frame();
}
IsContentful(false)
},
DisplayItem::DefineClipScrollNode(ref mut item) => {
let index = item.node_index.to_index();
let node = state.clip_scroll_nodes[index].clone();
let item_rect = node.clip.main;
let parent_index = node.parent_index.to_index();
let parent_spatial_id = state.webrender_spatial_id_for_index(parent_index);
let parent_clip_chain_id = state.webrender_clip_id_for_index(parent_index);
let parent_space_and_clip_info = SpaceAndClipInfo {
clip_id: ClipId::root(state.compositor_info.pipeline_id),
spatial_id: parent_spatial_id,
};
match node.node_type {
ClipScrollNodeType::Clip(clip_type) => {
let clip_id = match clip_type {
ClipType::Rect => {
builder.define_clip_rect(&parent_space_and_clip_info, item_rect)
},
ClipType::Rounded(complex) => builder
.define_clip_rounded_rect(&parent_space_and_clip_info, complex),
};
let clip_chain_id =
builder.define_clip_chain(Some(parent_clip_chain_id), [clip_id]);
state.add_clip_node_mapping(index, clip_chain_id);
state.add_spatial_node_mapping_to_parent_index(index, parent_index);
},
ClipScrollNodeType::ScrollFrame(scroll_sensitivity, external_id) => {
let clip_id =
builder.define_clip_rect(&parent_space_and_clip_info, item_rect);
let clip_chain_id =
builder.define_clip_chain(Some(parent_clip_chain_id), [clip_id]);
state.add_clip_node_mapping(index, clip_chain_id);
let spatial_id = builder
.define_scroll_frame(
&parent_space_and_clip_info,
external_id,
node.content_rect,
item_rect,
scroll_sensitivity,
LayoutVector2D::zero(),
)
.spatial_id;
state.register_spatial_node(
index,
spatial_id,
Some(parent_index),
Some(ScrollableNodeInfo {
external_id,
scrollable_size: node.content_rect.size - item_rect.size,
scroll_sensitivity,
offset: LayoutVector2D::zero(),
}),
);
},
ClipScrollNodeType::StickyFrame(ref sticky_data) => {
// TODO: Add define_sticky_frame_with_parent to WebRender.
let id = builder.define_sticky_frame(
parent_spatial_id,
item_rect,
sticky_data.margins,
sticky_data.vertical_offset_bounds,
sticky_data.horizontal_offset_bounds,
LayoutVector2D::zero(),
);
state.add_clip_node_mapping(index, parent_clip_chain_id);
state.register_spatial_node(index, id, Some(current_scrolling_index), None);
},
ClipScrollNodeType::Placeholder => {
unreachable!("Found DefineClipScrollNode for Placeholder type node.");
},
};
IsContentful(false)
},
}
}
}
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