/* 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 crate::display_list::items::{BaseDisplayItem, ClipScrollNode, ClipScrollNodeType, ClipType}; use crate::display_list::items::{DisplayItem, DisplayList, StackingContextType}; use msg::constellation_msg::PipelineId; use webrender_api::units::{LayoutPoint, LayoutVector2D}; use webrender_api::{ self, ClipId, CommonItemProperties, DisplayItem as WrDisplayItem, DisplayListBuilder, PrimitiveFlags, PropertyBinding, PushStackingContextDisplayItem, RasterSpace, ReferenceFrameKind, SpaceAndClipInfo, SpatialId, StackingContext, }; struct ClipScrollState { clip_ids: Vec>, spatial_ids: Vec>, active_clip_id: ClipId, active_spatial_id: SpatialId, } impl ClipScrollState { fn new(size: usize, pipeline_id: webrender_api::PipelineId) -> Self { let root_clip_id = ClipId::root(pipeline_id); let root_scroll_node_id = SpatialId::root_scroll_node(pipeline_id); let root_reference_frame_id = SpatialId::root_reference_frame(pipeline_id); let mut state = ClipScrollState { clip_ids: vec![None; size], spatial_ids: vec![None; size], active_clip_id: root_clip_id, active_spatial_id: root_scroll_node_id, }; // 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.spatial_ids[0] = Some(root_reference_frame_id); state.spatial_ids[1] = Some(root_scroll_node_id); state.add_clip_node_mapping(0, root_clip_id); state.add_clip_node_mapping(1, root_clip_id); state } fn webrender_clip_id_for_index(&mut self, index: usize) -> ClipId { self.clip_ids[index].expect("Tried to use WebRender parent ClipId before it was defined.") } fn webrender_spatial_id_for_index(&mut self, index: usize) -> SpatialId { self.spatial_ids[index] .expect("Tried to use WebRender parent SpatialId before it was defined.") } fn add_clip_node_mapping(&mut self, index: usize, webrender_id: ClipId) { self.clip_ids[index] = Some(webrender_id); } fn register_spatial_node(&mut self, index: usize, webrender_id: SpatialId) { self.spatial_ids[index] = Some(webrender_id); } fn add_spatial_node_mapping_to_parent_index(&mut self, index: usize, parent_index: usize) { self.spatial_ids[index] = self.spatial_ids[parent_index]; } } /// 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, ) -> (DisplayListBuilder, IsContentful) { let webrender_pipeline = pipeline_id.to_webrender(); let mut state = ClipScrollState::new(self.clip_scroll_nodes.len(), webrender_pipeline); let mut builder = DisplayListBuilder::with_capacity( webrender_pipeline, self.bounds().size, 1024 * 1024, // 1 MB of space ); let mut is_contentful = IsContentful(false); for item in &mut self.list { is_contentful.0 |= item .convert_to_webrender(&self.clip_scroll_nodes, &mut state, &mut builder) .0; } (builder, is_contentful) } } impl DisplayItem { fn convert_to_webrender( &mut self, clip_scroll_nodes: &[ClipScrollNode], 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 cur_spatial_id = state.webrender_spatial_id_for_index(current_scrolling_index); if cur_spatial_id != state.active_spatial_id { state.active_spatial_id = cur_spatial_id; } let internal_clip_id = clip_and_scroll_indices .clipping .unwrap_or(clip_and_scroll_indices.scrolling); let cur_clip_id = state.webrender_clip_id_for_index(internal_clip_id.to_index()); if cur_clip_id != state.active_clip_id { state.active_clip_id = cur_clip_id; } let build_common_item_properties = |base: &BaseDisplayItem| { let tag = match base.metadata.pointing { Some(cursor) => Some((base.metadata.node.0 as u64, cursor)), None => None, }; CommonItemProperties { clip_rect: base.clip_rect, spatial_id: state.active_spatial_id, clip_id: state.active_clip_id, // TODO(gw): Make use of the WR backface visibility functionality. flags: PrimitiveFlags::default(), hit_info: tag, } }; match *self { DisplayItem::Rectangle(ref mut item) => { item.item.common = build_common_item_properties(&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); 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); builder.push_item(&WrDisplayItem::Image(item.item)); IsContentful(true) }, DisplayItem::RepeatingImage(ref mut item) => { item.item.common = build_common_item_properties(&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); 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); 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); 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); builder.push_item(&WrDisplayItem::Line(item.item)); IsContentful(false) }, DisplayItem::BoxShadow(ref mut item) => { item.item.common = build_common_item_properties(&item.base); builder.push_item(&WrDisplayItem::BoxShadow(item.item)); IsContentful(false) }, DisplayItem::PushTextShadow(ref mut item) => { let common = build_common_item_properties(&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); 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 = webrender_api::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), (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, state.active_spatial_id, stacking_context.transform_style, PropertyBinding::Value(transform), ref_frame, ); let index = frame_index.to_index(); state.add_clip_node_mapping(index, cur_clip_id); state.register_spatial_node(index, new_spatial_id); bounds.origin = LayoutPoint::zero(); new_spatial_id } else { state.active_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 = &clip_scroll_nodes[index]; 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_id = state.webrender_clip_id_for_index(parent_index); match node.node_type { ClipScrollNodeType::Clip(clip_type) => { let space_and_clip_info = SpaceAndClipInfo { clip_id: parent_clip_id, spatial_id: parent_spatial_id, }; let clip_id = match clip_type { ClipType::Rect => { builder.define_clip_rect(&space_and_clip_info, item_rect) }, ClipType::Rounded(complex) => { builder.define_clip_rounded_rect(&space_and_clip_info, complex) }, }; state.add_clip_node_mapping(index, clip_id); state.add_spatial_node_mapping_to_parent_index(index, parent_index); }, ClipScrollNodeType::ScrollFrame(scroll_sensitivity, external_id) => { let space_clip_info = builder.define_scroll_frame( &SpaceAndClipInfo { clip_id: parent_clip_id, spatial_id: parent_spatial_id, }, Some(external_id), node.content_rect, item_rect, scroll_sensitivity, LayoutVector2D::zero(), ); state.register_spatial_node(index, space_clip_info.spatial_id); state.add_clip_node_mapping(index, space_clip_info.clip_id); }, 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_id); state.register_spatial_node(index, id); }, ClipScrollNodeType::Placeholder => { unreachable!("Found DefineClipScrollNode for Placeholder type node."); }, }; IsContentful(false) }, } } }