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servo/components/layout/table_cell.rs
Martin Robinson e7019f2721 Flatten display list structure 
Instead of producing a tree of stacking contexts, display list
generation now produces a flat list of display items and a tree of
stacking contexts. This will eventually allow display list construction
to produce and modify WebRender vertex buffers directly, removing the
overhead of display list conversion.  This change also moves
layerization of the display list to the paint thread, since it isn't
currently useful for WebRender.

To accomplish this, display list generation now takes three passes of
the flow tree:

        1. Calculation of absolute positions.
        2. Collection of a tree of stacking contexts.
        3. Creation of a list of display items.

After collection of display items, they are sorted based upon the index
of their parent stacking contexts and their position in CSS 2.1
Appendeix E stacking order.

This is a big change, but it actually simplifies display list generation.
2016-03-01 14:50:07 -08:00

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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 http://mozilla.org/MPL/2.0/. */
//! CSS table formatting contexts.
#![deny(unsafe_code)]
use app_units::Au;
use block::{BlockFlow, ISizeAndMarginsComputer, MarginsMayCollapseFlag};
use context::LayoutContext;
use cssparser::Color;
use display_list_builder::{BlockFlowDisplayListBuilding, BorderPaintingMode, DisplayListBuildState};
use euclid::{Point2D, Rect, SideOffsets2D, Size2D};
use flow::{Flow, FlowClass, OpaqueFlow};
use fragment::{Fragment, FragmentBorderBoxIterator, Overflow};
use gfx::display_list::{StackingContext, StackingContextId};
use layout_debug;
use model::MaybeAuto;
use std::fmt;
use std::sync::Arc;
use style::computed_values::{border_collapse, border_top_style};
use style::logical_geometry::{LogicalMargin, LogicalRect, LogicalSize, WritingMode};
use style::properties::ComputedValues;
use table::InternalTable;
use table_row::{CollapsedBorder, CollapsedBorderProvenance};
use util::print_tree::PrintTree;
use wrapper::{ThreadSafeLayoutNode};
/// A table formatting context.
#[derive(RustcEncodable)]
pub struct TableCellFlow {
/// Data common to all block flows.
pub block_flow: BlockFlow,
/// Border collapse information for the cell.
pub collapsed_borders: CollapsedBordersForCell,
/// The column span of this cell.
pub column_span: u32,
/// Whether this cell is visible. If false, the value of `empty-cells` means that we must not
/// display this cell.
pub visible: bool,
}
impl TableCellFlow {
pub fn from_node_fragment_and_visibility_flag<'ln, N: ThreadSafeLayoutNode<'ln>>(
node: &N, fragment: Fragment, visible: bool) -> TableCellFlow {
TableCellFlow {
block_flow: BlockFlow::from_fragment(fragment, None),
collapsed_borders: CollapsedBordersForCell::new(),
column_span: node.get_colspan(),
visible: visible,
}
}
pub fn fragment(&mut self) -> &Fragment {
&self.block_flow.fragment
}
pub fn mut_fragment(&mut self) -> &mut Fragment {
&mut self.block_flow.fragment
}
/// Assign block-size for table-cell flow.
///
/// inline(always) because this is only ever called by in-order or non-in-order top-level
/// methods.
#[inline(always)]
fn assign_block_size_table_cell_base<'a>(&mut self, layout_context: &'a LayoutContext<'a>) {
let remaining = self.block_flow.assign_block_size_block_base(
layout_context,
None,
MarginsMayCollapseFlag::MarginsMayNotCollapse);
debug_assert!(remaining.is_none());
}
}
impl Flow for TableCellFlow {
fn class(&self) -> FlowClass {
FlowClass::TableCell
}
fn as_mut_table_cell(&mut self) -> &mut TableCellFlow {
self
}
fn as_table_cell(&self) -> &TableCellFlow {
self
}
fn as_mut_block(&mut self) -> &mut BlockFlow {
&mut self.block_flow
}
fn as_block(&self) -> &BlockFlow {
&self.block_flow
}
/// Minimum/preferred inline-sizes set by this function are used in automatic table layout
/// calculation.
fn bubble_inline_sizes(&mut self) {
let _scope = layout_debug_scope!("table_cell::bubble_inline_sizes {:x}",
self.block_flow.base.debug_id());
self.block_flow.bubble_inline_sizes_for_block(true);
let specified_inline_size = MaybeAuto::from_style(self.block_flow
.fragment
.style()
.content_inline_size(),
Au(0)).specified_or_zero();
if self.block_flow.base.intrinsic_inline_sizes.minimum_inline_size <
specified_inline_size {
self.block_flow.base.intrinsic_inline_sizes.minimum_inline_size = specified_inline_size
}
if self.block_flow.base.intrinsic_inline_sizes.preferred_inline_size <
self.block_flow.base.intrinsic_inline_sizes.minimum_inline_size {
self.block_flow.base.intrinsic_inline_sizes.preferred_inline_size =
self.block_flow.base.intrinsic_inline_sizes.minimum_inline_size;
}
}
/// Recursively (top-down) determines the actual inline-size of child contexts and fragments.
/// When called on this context, the context has had its inline-size set by the parent table
/// row.
fn assign_inline_sizes(&mut self, layout_context: &LayoutContext) {
let _scope = layout_debug_scope!("table_cell::assign_inline_sizes {:x}",
self.block_flow.base.debug_id());
debug!("assign_inline_sizes({}): assigning inline_size for flow", "table_cell");
// The position was set to the column inline-size by the parent flow, table row flow.
let containing_block_inline_size = self.block_flow.base.block_container_inline_size;
let inline_size_computer = InternalTable {
border_collapse: self.block_flow.fragment.style.get_inheritedtable().border_collapse,
};
inline_size_computer.compute_used_inline_size(&mut self.block_flow,
layout_context,
containing_block_inline_size);
let inline_start_content_edge =
self.block_flow.fragment.border_box.start.i +
self.block_flow.fragment.border_padding.inline_start;
let inline_end_content_edge =
self.block_flow.base.block_container_inline_size -
self.block_flow.fragment.border_padding.inline_start_end() -
self.block_flow.fragment.border_box.size.inline;
let padding_and_borders = self.block_flow.fragment.border_padding.inline_start_end();
let content_inline_size =
self.block_flow.fragment.border_box.size.inline - padding_and_borders;
self.block_flow.propagate_assigned_inline_size_to_children(layout_context,
inline_start_content_edge,
inline_end_content_edge,
content_inline_size,
|_, _, _, _, _, _| {});
}
fn assign_block_size<'a>(&mut self, layout_context: &'a LayoutContext<'a>) {
debug!("assign_block_size: assigning block_size for table_cell");
self.assign_block_size_table_cell_base(layout_context);
}
fn compute_absolute_position(&mut self, layout_context: &LayoutContext) {
self.block_flow.compute_absolute_position(layout_context)
}
fn update_late_computed_inline_position_if_necessary(&mut self, inline_position: Au) {
self.block_flow.update_late_computed_inline_position_if_necessary(inline_position)
}
fn update_late_computed_block_position_if_necessary(&mut self, block_position: Au) {
self.block_flow.update_late_computed_block_position_if_necessary(block_position)
}
fn build_display_list(&mut self, state: &mut DisplayListBuildState) {
if !self.visible {
return
}
let border_painting_mode = match self.block_flow
.fragment
.style
.get_inheritedtable()
.border_collapse {
border_collapse::T::separate => BorderPaintingMode::Separate,
border_collapse::T::collapse => BorderPaintingMode::Collapse(&self.collapsed_borders),
};
self.block_flow.build_display_list_for_block(state, border_painting_mode)
}
fn collect_stacking_contexts(&mut self,
parent_id: StackingContextId,
contexts: &mut Vec<StackingContext>)
-> StackingContextId {
self.block_flow.collect_stacking_contexts(parent_id, contexts)
}
fn repair_style(&mut self, new_style: &Arc<ComputedValues>) {
self.block_flow.repair_style(new_style)
}
fn compute_overflow(&self) -> Overflow {
self.block_flow.compute_overflow()
}
fn generated_containing_block_size(&self, flow: OpaqueFlow) -> LogicalSize<Au> {
self.block_flow.generated_containing_block_size(flow)
}
fn iterate_through_fragment_border_boxes(&self,
iterator: &mut FragmentBorderBoxIterator,
level: i32,
stacking_context_position: &Point2D<Au>) {
self.block_flow.iterate_through_fragment_border_boxes(iterator, level, stacking_context_position)
}
fn mutate_fragments(&mut self, mutator: &mut FnMut(&mut Fragment)) {
self.block_flow.mutate_fragments(mutator)
}
fn print_extra_flow_children(&self, print_tree: &mut PrintTree) {
self.block_flow.print_extra_flow_children(print_tree);
}
}
impl fmt::Debug for TableCellFlow {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(f, "TableCellFlow: {:?}", self.block_flow)
}
}
#[derive(Copy, Clone, Debug, RustcEncodable)]
pub struct CollapsedBordersForCell {
pub inline_start_border: CollapsedBorder,
pub inline_end_border: CollapsedBorder,
pub block_start_border: CollapsedBorder,
pub block_end_border: CollapsedBorder,
pub inline_start_width: Au,
pub inline_end_width: Au,
pub block_start_width: Au,
pub block_end_width: Au,
}
impl CollapsedBordersForCell {
fn new() -> CollapsedBordersForCell {
CollapsedBordersForCell {
inline_start_border: CollapsedBorder::new(),
inline_end_border: CollapsedBorder::new(),
block_start_border: CollapsedBorder::new(),
block_end_border: CollapsedBorder::new(),
inline_start_width: Au(0),
inline_end_width: Au(0),
block_start_width: Au(0),
block_end_width: Au(0),
}
}
fn should_paint_inline_start_border(&self) -> bool {
self.inline_start_border.provenance != CollapsedBorderProvenance::FromPreviousTableCell
}
fn should_paint_inline_end_border(&self) -> bool {
self.inline_end_border.provenance != CollapsedBorderProvenance::FromNextTableCell
}
fn should_paint_block_start_border(&self) -> bool {
self.block_start_border.provenance != CollapsedBorderProvenance::FromPreviousTableCell
}
fn should_paint_block_end_border(&self) -> bool {
self.block_end_border.provenance != CollapsedBorderProvenance::FromNextTableCell
}
pub fn adjust_border_widths_for_painting(&self, border_widths: &mut LogicalMargin<Au>) {
border_widths.inline_start = if !self.should_paint_inline_start_border() {
Au(0)
} else {
self.inline_start_border.width
};
border_widths.inline_end = if !self.should_paint_inline_end_border() {
Au(0)
} else {
self.inline_end_border.width
};
border_widths.block_start = if !self.should_paint_block_start_border() {
Au(0)
} else {
self.block_start_border.width
};
border_widths.block_end = if !self.should_paint_block_end_border() {
Au(0)
} else {
self.block_end_border.width
}
}
pub fn adjust_border_bounds_for_painting(&self,
border_bounds: &mut Rect<Au>,
writing_mode: WritingMode) {
let inline_start_divisor = if self.should_paint_inline_start_border() {
2
} else {
-2
};
let inline_start_offset = self.inline_start_width / 2 + self.inline_start_border.width /
inline_start_divisor;
let inline_end_divisor = if self.should_paint_inline_end_border() {
2
} else {
-2
};
let inline_end_offset = self.inline_end_width / 2 + self.inline_end_border.width /
inline_end_divisor;
let block_start_divisor = if self.should_paint_block_start_border() {
2
} else {
-2
};
let block_start_offset = self.block_start_width / 2 + self.block_start_border.width /
block_start_divisor;
let block_end_divisor = if self.should_paint_block_end_border() {
2
} else {
-2
};
let block_end_offset = self.block_end_width / 2 + self.block_end_border.width /
block_end_divisor;
// FIXME(pcwalton): Get the real container size.
let mut logical_bounds =
LogicalRect::from_physical(writing_mode, *border_bounds, Size2D::new(Au(0), Au(0)));
logical_bounds.start.i = logical_bounds.start.i - inline_start_offset;
logical_bounds.start.b = logical_bounds.start.b - block_start_offset;
logical_bounds.size.inline = logical_bounds.size.inline + inline_start_offset +
inline_end_offset;
logical_bounds.size.block = logical_bounds.size.block + block_start_offset +
block_end_offset;
*border_bounds = logical_bounds.to_physical(writing_mode, Size2D::new(Au(0), Au(0)))
}
pub fn adjust_border_colors_and_styles_for_painting(
&self,
border_colors: &mut SideOffsets2D<Color>,
border_styles: &mut SideOffsets2D<border_top_style::T>,
writing_mode: WritingMode) {
let logical_border_colors = LogicalMargin::new(writing_mode,
self.block_start_border.color,
self.inline_end_border.color,
self.block_end_border.color,
self.inline_start_border.color);
*border_colors = logical_border_colors.to_physical(writing_mode);
let logical_border_styles = LogicalMargin::new(writing_mode,
self.block_start_border.style,
self.inline_end_border.style,
self.block_end_border.style,
self.inline_start_border.style);
*border_styles = logical_border_styles.to_physical(writing_mode);
}
}
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