/* 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 block::BlockFlow;
use block::ISizeAndMarginsComputer;
use context::LayoutContext;
use flow::{self, FlowClass, Flow, ImmutableFlowUtils};
use fragment::{Fragment, FragmentBorderBoxIterator};
use layout_debug;
use table::{ChildInlineSizeInfo, ColumnComputedInlineSize, ColumnIntrinsicInlineSize};
use table::{InternalTable};
use model::MaybeAuto;
use wrapper::ThreadSafeLayoutNode;
use geom::{Point2D, Rect};
use util::geometry::Au;
use util::logical_geometry::LogicalRect;
use std::cmp::max;
use std::fmt;
use std::sync::Arc;
use style::computed_values::border_spacing;
use style::properties::ComputedValues;
use style::values::computed::LengthOrPercentageOrAuto;
/// A single row of a table.
#[derive(RustcEncodable)]
pub struct TableRowFlow {
pub block_flow: BlockFlow,
/// Information about the intrinsic inline-sizes of each cell.
pub cell_intrinsic_inline_sizes: Vec<CellIntrinsicInlineSize>,
/// Information about the computed inline-sizes of each column.
pub column_computed_inline_sizes: Vec<ColumnComputedInlineSize>,
/// The spacing for this row, propagated down from the table during the inline-size assignment
/// phase.
pub spacing: border_spacing::T,
}
/// Information about the column inline size and span for each cell.
#[derive(RustcEncodable, Copy)]
pub struct CellIntrinsicInlineSize {
/// Inline sizes that this cell contributes to the column.
pub column_size: ColumnIntrinsicInlineSize,
/// The column span of this cell.
pub column_span: u32,
}
impl TableRowFlow {
pub fn from_node_and_fragment(node: &ThreadSafeLayoutNode, fragment: Fragment)
-> TableRowFlow {
TableRowFlow {
block_flow: BlockFlow::from_node_and_fragment(node, fragment),
cell_intrinsic_inline_sizes: Vec::new(),
column_computed_inline_sizes: Vec::new(),
spacing: border_spacing::T {
horizontal: Au(0),
vertical: Au(0),
},
}
}
pub fn fragment<'a>(&'a mut self) -> &'a Fragment {
&self.block_flow.fragment
}
fn initialize_offsets(&mut self) -> (Au, Au, Au) {
// TODO: If border-collapse: collapse, block_start_offset, block_end_offset, and
// inline_start_offset should be updated. Currently, they are set as Au(0).
(Au(0), Au(0), Au(0))
}
/// Assign block-size for table-row flow.
///
/// TODO(pcwalton): This doesn't handle floats and positioned elements right.
///
/// 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_row_base<'a>(&mut self, layout_context: &'a LayoutContext<'a>) {
let (block_start_offset, _, _) = self.initialize_offsets();
// Per CSS 2.1 § 17.5.3, find max_y = max(computed `block-size`, minimum block-size of all
// cells).
let mut max_block_size = Au(0);
let thread_id = self.block_flow.base.thread_id;
for kid in self.block_flow.base.child_iter() {
kid.place_float_if_applicable(layout_context);
if !flow::base(kid).flags.is_float() {
kid.assign_block_size_for_inorder_child_if_necessary(layout_context, thread_id);
}
{
let child_fragment = kid.as_table_cell().fragment();
// TODO: Percentage block-size
let child_specified_block_size =
MaybeAuto::from_style(child_fragment.style().content_block_size(),
Au(0)).specified_or_zero();
max_block_size =
max(max_block_size,
child_specified_block_size +
child_fragment.border_padding.block_start_end());
}
let child_node = flow::mut_base(kid);
child_node.position.start.b = block_start_offset;
max_block_size = max(max_block_size, child_node.position.size.block);
}
let mut block_size = max_block_size;
// TODO: Percentage block-size
block_size = match MaybeAuto::from_style(self.block_flow
.fragment
.style()
.content_block_size(),
Au(0)) {
MaybeAuto::Auto => block_size,
MaybeAuto::Specified(value) => max(value, block_size)
};
// Assign the block-size of own fragment
let mut position = self.block_flow.fragment.border_box;
position.size.block = block_size;
self.block_flow.fragment.border_box = position;
self.block_flow.base.position.size.block = block_size;
// Assign the block-size of kid fragments, which is the same value as own block-size.
for kid in self.block_flow.base.child_iter() {
{
let kid_fragment = kid.as_table_cell().mut_fragment();
let mut position = kid_fragment.border_box;
position.size.block = block_size;
kid_fragment.border_box = position;
}
let child_node = flow::mut_base(kid);
child_node.position.size.block = block_size;
}
}
}
impl Flow for TableRowFlow {
fn class(&self) -> FlowClass {
FlowClass::TableRow
}
fn as_table_row<'a>(&'a mut self) -> &'a mut TableRowFlow {
self
}
fn as_immutable_table_row<'a>(&'a self) -> &'a TableRowFlow {
self
}
fn as_block<'a>(&'a mut self) -> &'a mut BlockFlow {
&mut self.block_flow
}
fn column_intrinsic_inline_sizes<'a>(&'a mut self) -> &'a mut Vec<ColumnIntrinsicInlineSize> {
panic!("can't call column_intrinsic_inline_sizes() on table row")
}
fn column_computed_inline_sizes<'a>(&'a mut self) -> &'a mut Vec<ColumnComputedInlineSize> {
&mut self.column_computed_inline_sizes
}
/// Recursively (bottom-up) determines the context's preferred and minimum inline-sizes. When
/// called on this context, all child contexts have had their min/pref inline-sizes set. This
/// function must decide min/pref inline-sizes based on child context inline-sizes and
/// dimensions of any fragments it is responsible for flowing.
/// Min/pref inline-sizes set by this function are used in automatic table layout calculation.
/// The specified column inline-sizes of children cells are used in fixed table layout
/// calculation.
fn bubble_inline_sizes(&mut self) {
let _scope = layout_debug_scope!("table_row::bubble_inline_sizes {:x}",
self.block_flow.base.debug_id());
// Bubble up the specified inline-sizes from child table cells.
let (mut min_inline_size, mut pref_inline_size) = (Au(0), Au(0));
for kid in self.block_flow.base.child_iter() {
assert!(kid.is_table_cell());
// Collect the specified column inline-size of the cell. This is used in both fixed and
// automatic table layout calculation.
let child_specified_inline_size;
let child_column_span;
{
let child_table_cell = kid.as_table_cell();
child_specified_inline_size = child_table_cell.fragment()
.style()
.content_inline_size();
child_column_span = child_table_cell.column_span
}
// Collect minimum and preferred inline-sizes of the cell for automatic table layout
// calculation.
let child_base = flow::mut_base(kid);
let child_column_inline_size = ColumnIntrinsicInlineSize {
minimum_length: match child_specified_inline_size {
LengthOrPercentageOrAuto::Auto | LengthOrPercentageOrAuto::Percentage(_) => {
child_base.intrinsic_inline_sizes.minimum_inline_size
}
LengthOrPercentageOrAuto::Length(length) => length,
},
percentage: match child_specified_inline_size {
LengthOrPercentageOrAuto::Auto | LengthOrPercentageOrAuto::Length(_) => 0.0,
LengthOrPercentageOrAuto::Percentage(percentage) => percentage,
},
preferred: child_base.intrinsic_inline_sizes.preferred_inline_size,
constrained: match child_specified_inline_size {
LengthOrPercentageOrAuto::Length(_) => true,
LengthOrPercentageOrAuto::Auto | LengthOrPercentageOrAuto::Percentage(_) => false,
},
};
min_inline_size = min_inline_size + child_column_inline_size.minimum_length;
pref_inline_size = pref_inline_size + child_column_inline_size.preferred;
self.cell_intrinsic_inline_sizes.push(CellIntrinsicInlineSize {
column_size: child_column_inline_size,
column_span: child_column_span,
});
}
self.block_flow.base.intrinsic_inline_sizes.minimum_inline_size = min_inline_size;
self.block_flow.base.intrinsic_inline_sizes.preferred_inline_size = max(min_inline_size,
pref_inline_size);
}
fn assign_inline_sizes(&mut self, layout_context: &LayoutContext) {
let _scope = layout_debug_scope!("table_row::assign_inline_sizes {:x}",
self.block_flow.base.debug_id());
debug!("assign_inline_sizes({}): assigning inline_size for flow", "table_row");
// The position was set to the containing block by the flow's parent.
let containing_block_inline_size = self.block_flow.base.block_container_inline_size;
// FIXME: In case of border-collapse: collapse, inline_start_content_edge should be
// border_inline_start.
let inline_start_content_edge = Au(0);
let inline_end_content_edge = Au(0);
let inline_size_computer = InternalTable;
inline_size_computer.compute_used_inline_size(&mut self.block_flow,
layout_context,
containing_block_inline_size);
// Spread out the completed inline sizes among columns with spans > 1.
let mut computed_inline_size_for_cells = Vec::new();
let mut column_computed_inline_size_iterator = self.column_computed_inline_sizes.iter();
for cell_intrinsic_inline_size in self.cell_intrinsic_inline_sizes.iter() {
// Start with the computed inline size for the first column in the span.
let mut column_computed_inline_size =
match column_computed_inline_size_iterator.next() {
Some(column_computed_inline_size) => *column_computed_inline_size,
None => {
// We're in fixed layout mode and there are more cells in this row than
// columns we know about. According to CSS 2.1 § 17.5.2.1, the behavior is
// now undefined. So just use zero.
//
// FIXME(pcwalton): $10 says this isn't Web compatible.
ColumnComputedInlineSize {
size: Au(0),
}
}
};
// Add in computed inline sizes for any extra columns in the span.
for _ in range(1, cell_intrinsic_inline_size.column_span) {
let extra_column_computed_inline_size =
match column_computed_inline_size_iterator.next() {
Some(column_computed_inline_size) => column_computed_inline_size,
None => break,
};
column_computed_inline_size.size = column_computed_inline_size.size +
extra_column_computed_inline_size.size;
}
computed_inline_size_for_cells.push(column_computed_inline_size)
}
// Push those inline sizes down to the cells.
let info = ChildInlineSizeInfo {
column_computed_inline_sizes: computed_inline_size_for_cells.as_slice(),
spacing: self.spacing,
};
self.block_flow.propagate_assigned_inline_size_to_children(layout_context,
inline_start_content_edge,
inline_end_content_edge,
containing_block_inline_size,
Some(info));
}
fn assign_block_size<'a>(&mut self, ctx: &'a LayoutContext<'a>) {
debug!("assign_block_size: assigning block_size for table_row");
self.assign_block_size_table_row_base(ctx);
}
fn compute_absolute_position(&mut self) {
self.block_flow.compute_absolute_position()
}
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, layout_context: &LayoutContext) {
self.block_flow.build_display_list(layout_context)
}
fn repair_style(&mut self, new_style: &Arc<ComputedValues>) {
self.block_flow.repair_style(new_style)
}
fn compute_overflow(&self) -> Rect<Au> {
self.block_flow.compute_overflow()
}
fn generated_containing_block_rect(&self) -> LogicalRect<Au> {
self.block_flow.generated_containing_block_rect()
}
fn iterate_through_fragment_border_boxes(&self,
iterator: &mut FragmentBorderBoxIterator,
stacking_context_position: &Point2D<Au>) {
self.block_flow.iterate_through_fragment_border_boxes(iterator, stacking_context_position)
}
fn mutate_fragments(&mut self, mutator: &mut FnMut(&mut Fragment)) {
self.block_flow.mutate_fragments(mutator)
}
}
impl fmt::Debug for TableRowFlow {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(f, "TableRowFlow: {:?}", self.block_flow.fragment)
}
}