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servo/components/layout/construct.rs
Cameron Zwarich b2a3519011 Remove the 'static lifetime parameters from TElement methods 
This improves the static correctness of layout's use of DOM nodes.

Fixes #2595.
2014-09-27 11:14:10 -07:00

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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/. */
//! Creates flows and fragments from a DOM tree via a bottom-up, incremental traversal of the DOM.
//!
//! Each step of the traversal considers the node and existing flow, if there is one. If a node is
//! not dirty and an existing flow exists, then the traversal reuses that flow. Otherwise, it
//! proceeds to construct either a flow or a `ConstructionItem`. A construction item is a piece of
//! intermediate data that goes with a DOM node and hasn't found its "home" yet-maybe it's a box,
//! maybe it's an absolute or fixed position thing that hasn't found its containing block yet.
//! Construction items bubble up the tree from children to parents until they find their homes.
//!
//! TODO(pcwalton): There is no incremental reflow yet. This scheme requires that nodes either have
//! weak references to flows or that there be some mechanism to efficiently (O(1) time) "blow
//! apart" a flow tree and have the flows migrate "home" to their respective DOM nodes while we
//! perform flow tree construction. The precise mechanism for this will take some experimentation
//! to get right.
#![deny(unsafe_block)]
use css::node_style::StyledNode;
use block::BlockFlow;
use context::LayoutContext;
use floats::FloatKind;
use flow::{Flow, ImmutableFlowUtils, MutableOwnedFlowUtils};
use flow::{Descendants, AbsDescendants};
use flow;
use flow_ref::FlowRef;
use fragment::{InlineBlockFragment, InlineBlockFragmentInfo};
use fragment::{Fragment, GenericFragment, IframeFragment, IframeFragmentInfo};
use fragment::{ImageFragment, ImageFragmentInfo, SpecificFragmentInfo, TableFragment};
use fragment::{TableCellFragment, TableColumnFragment, TableColumnFragmentInfo};
use fragment::{TableRowFragment, TableWrapperFragment, UnscannedTextFragment};
use fragment::{UnscannedTextFragmentInfo};
use inline::{InlineFragments, InlineFlow};
use parallel;
use table_wrapper::TableWrapperFlow;
use table::TableFlow;
use table_caption::TableCaptionFlow;
use table_colgroup::TableColGroupFlow;
use table_rowgroup::TableRowGroupFlow;
use table_row::TableRowFlow;
use table_cell::TableCellFlow;
use text::TextRunScanner;
use util::{LayoutDataAccess, OpaqueNodeMethods};
use wrapper::{PostorderNodeMutTraversal, TLayoutNode, ThreadSafeLayoutNode};
use wrapper::{Before, After, Normal};
use gfx::display_list::OpaqueNode;
use script::dom::element::{HTMLIFrameElementTypeId, HTMLImageElementTypeId};
use script::dom::element::{HTMLObjectElementTypeId};
use script::dom::element::{HTMLTableColElementTypeId, HTMLTableDataCellElementTypeId};
use script::dom::element::{HTMLTableElementTypeId, HTMLTableHeaderCellElementTypeId};
use script::dom::element::{HTMLTableRowElementTypeId, HTMLTableSectionElementTypeId};
use script::dom::node::{CommentNodeTypeId, DoctypeNodeTypeId, DocumentFragmentNodeTypeId};
use script::dom::node::{DocumentNodeTypeId, ElementNodeTypeId, ProcessingInstructionNodeTypeId};
use script::dom::node::{TextNodeTypeId};
use script::dom::htmlobjectelement::is_image_data;
use servo_util::namespace;
use std::mem;
use std::sync::atomics::Relaxed;
use style::ComputedValues;
use style::computed_values::{display, position, float};
use sync::Arc;
use url::Url;
/// The results of flow construction for a DOM node.
pub enum ConstructionResult {
/// This node contributes nothing at all (`display: none`). Alternately, this is what newly
/// created nodes have their `ConstructionResult` set to.
NoConstructionResult,
/// This node contributed a flow at the proper position in the tree.
/// Nothing more needs to be done for this node. It has bubbled up fixed
/// and absolute descendant flows that have a containing block above it.
FlowConstructionResult(FlowRef, AbsDescendants),
/// This node contributed some object or objects that will be needed to construct a proper flow
/// later up the tree, but these objects have not yet found their home.
ConstructionItemConstructionResult(ConstructionItem),
}
/// Represents the output of flow construction for a DOM node that has not yet resulted in a
/// complete flow. Construction items bubble up the tree until they find a `Flow` to be attached
/// to.
pub enum ConstructionItem {
/// Inline fragments and associated {ib} splits that have not yet found flows.
InlineFragmentsConstructionItem(InlineFragmentsConstructionResult),
/// Potentially ignorable whitespace.
WhitespaceConstructionItem(OpaqueNode, Arc<ComputedValues>),
/// TableColumn Fragment
TableColumnFragmentConstructionItem(Fragment),
}
/// Represents inline fragments and {ib} splits that are bubbling up from an inline.
pub struct InlineFragmentsConstructionResult {
/// Any {ib} splits that we're bubbling up.
pub splits: Vec<InlineBlockSplit>,
/// Any fragments that succeed the {ib} splits.
pub fragments: InlineFragments,
/// Any absolute descendants that we're bubbling up.
pub abs_descendants: AbsDescendants,
}
/// Represents an {ib} split that has not yet found the containing block that it belongs to. This
/// is somewhat tricky. An example may be helpful. For this DOM fragment:
///
/// ```html
/// <span>
/// A
/// <div>B</div>
/// C
/// </span>
/// ```
///
/// The resulting `ConstructionItem` for the outer `span` will be:
///
/// ```ignore
/// InlineFragmentsConstructionItem(Some(~[
/// InlineBlockSplit {
/// predecessor_fragments: ~[
/// A
/// ],
/// block: ~BlockFlow {
/// B
/// },
/// }),~[
/// C
/// ])
/// ```
pub struct InlineBlockSplit {
/// The inline fragments that precede the flow.
pub predecessors: InlineFragments,
/// The flow that caused this {ib} split.
pub flow: FlowRef,
}
/// Holds inline fragments that we're gathering for children of an inline node.
struct InlineFragmentsAccumulator {
/// The list of fragments.
fragments: InlineFragments,
/// Whether we've created a range to enclose all the fragments. This will be Some() if the outer node
/// is an inline and None otherwise.
enclosing_style: Option<Arc<ComputedValues>>,
}
impl InlineFragmentsAccumulator {
fn new() -> InlineFragmentsAccumulator {
InlineFragmentsAccumulator {
fragments: InlineFragments::new(),
enclosing_style: None,
}
}
fn from_inline_node(node: &ThreadSafeLayoutNode) -> InlineFragmentsAccumulator {
let fragments = InlineFragments::new();
InlineFragmentsAccumulator {
fragments: fragments,
enclosing_style: Some(node.style().clone()),
}
}
fn finish(self) -> InlineFragments {
let InlineFragmentsAccumulator {
fragments: mut fragments,
enclosing_style
} = self;
match enclosing_style {
Some(enclosing_style) => {
for frag in fragments.fragments.iter_mut() {
frag.add_inline_context_style(enclosing_style.clone());
}
}
None => {}
}
fragments
}
}
enum WhitespaceStrippingMode {
NoWhitespaceStripping,
StripWhitespaceFromStart,
StripWhitespaceFromEnd,
}
/// An object that knows how to create flows.
pub struct FlowConstructor<'a> {
/// The layout context.
pub layout_context: &'a LayoutContext<'a>,
}
impl<'a> FlowConstructor<'a> {
/// Creates a new flow constructor.
pub fn new<'a>(layout_context: &'a LayoutContext<'a>)
-> FlowConstructor<'a> {
FlowConstructor {
layout_context: layout_context,
}
}
/// Builds the `ImageFragmentInfo` for the given image. This is out of line to guide inlining.
fn build_fragment_info_for_image(&mut self, node: &ThreadSafeLayoutNode, url: Option<Url>)
-> SpecificFragmentInfo {
match url {
None => GenericFragment,
Some(url) => {
// FIXME(pcwalton): The fact that image fragments store the cache within them makes
// little sense to me.
ImageFragment(ImageFragmentInfo::new(node,
url,
self.layout_context
.shared
.image_cache
.clone()))
}
}
}
/// Builds specific `Fragment` info for the given node.
///
/// This does *not* construct the text for generated content (but, for generated content with
/// `display: block`, it does construct the generic fragment corresponding to the block).
/// Construction of the text fragment is done specially by `build_flow_using_children()` and
/// `build_fragments_for_replaced_inline_content()`.
pub fn build_specific_fragment_info_for_node(&mut self, node: &ThreadSafeLayoutNode)
-> SpecificFragmentInfo {
match node.type_id() {
Some(ElementNodeTypeId(HTMLImageElementTypeId)) => {
self.build_fragment_info_for_image(node, node.image_url())
}
Some(ElementNodeTypeId(HTMLIFrameElementTypeId)) => {
IframeFragment(IframeFragmentInfo::new(node))
}
Some(ElementNodeTypeId(HTMLObjectElementTypeId)) => {
let data = node.get_object_data();
self.build_fragment_info_for_image(node, data)
}
Some(ElementNodeTypeId(HTMLTableElementTypeId)) => TableWrapperFragment,
Some(ElementNodeTypeId(HTMLTableColElementTypeId)) => {
TableColumnFragment(TableColumnFragmentInfo::new(node))
}
Some(ElementNodeTypeId(HTMLTableDataCellElementTypeId)) |
Some(ElementNodeTypeId(HTMLTableHeaderCellElementTypeId)) => TableCellFragment,
Some(ElementNodeTypeId(HTMLTableRowElementTypeId)) |
Some(ElementNodeTypeId(HTMLTableSectionElementTypeId)) => TableRowFragment,
Some(TextNodeTypeId) => UnscannedTextFragment(UnscannedTextFragmentInfo::new(node)),
_ => {
// This includes pseudo-elements.
GenericFragment
}
}
}
/// Creates an inline flow from a set of inline fragments, then adds it as a child of the given
/// flow or pushes it onto the given flow list.
///
/// `#[inline(always)]` because this is performance critical and LLVM will not inline it
/// otherwise.
#[inline(always)]
fn flush_inline_fragments_to_flow_or_list(&mut self,
fragment_accumulator: InlineFragmentsAccumulator,
flow: &mut FlowRef,
flow_list: &mut Vec<FlowRef>,
whitespace_stripping: WhitespaceStrippingMode,
node: &ThreadSafeLayoutNode) {
let mut fragments = fragment_accumulator.finish();
if fragments.is_empty() {
return
};
match whitespace_stripping {
NoWhitespaceStripping => {}
StripWhitespaceFromStart => {
fragments.strip_ignorable_whitespace_from_start();
if fragments.is_empty() {
return
};
}
StripWhitespaceFromEnd => {
fragments.strip_ignorable_whitespace_from_end();
if fragments.is_empty() {
return
};
}
}
// Build a list of all the inline-block fragments before fragments is moved.
let mut inline_block_flows = vec!();
for f in fragments.fragments.iter() {
match f.specific {
InlineBlockFragment(ref info) => {
inline_block_flows.push(info.flow_ref.clone());
},
_ => {}
}
}
let mut inline_flow_ref = FlowRef::new(box InlineFlow::from_fragments((*node).clone(), fragments));
// Add all the inline-block fragments as children of the inline flow.
for inline_block_flow in inline_block_flows.iter() {
inline_flow_ref.add_new_child(inline_block_flow.clone());
}
{
let inline_flow = inline_flow_ref.get_mut().as_inline();
let (ascent, descent) = inline_flow.compute_minimum_ascent_and_descent(self.layout_context.font_context(), &**node.style());
inline_flow.minimum_block_size_above_baseline = ascent;
inline_flow.minimum_depth_below_baseline = descent;
TextRunScanner::new().scan_for_runs(self.layout_context.font_context(), inline_flow);
}
inline_flow_ref.finish(self.layout_context);
if flow.get().need_anonymous_flow(inline_flow_ref.get()) {
flow_list.push(inline_flow_ref)
} else {
flow.add_new_child(inline_flow_ref)
}
}
fn build_block_flow_using_construction_result_of_child(&mut self,
flow: &mut FlowRef,
consecutive_siblings: &mut Vec<FlowRef>,
node: &ThreadSafeLayoutNode,
kid: ThreadSafeLayoutNode,
inline_fragment_accumulator:
&mut InlineFragmentsAccumulator,
abs_descendants: &mut Descendants,
first_fragment: &mut bool) {
match kid.swap_out_construction_result() {
NoConstructionResult => {}
FlowConstructionResult(kid_flow, kid_abs_descendants) => {
// If kid_flow is TableCaptionFlow, kid_flow should be added under
// TableWrapperFlow.
if flow.get().is_table() && kid_flow.get().is_table_caption() {
kid.set_flow_construction_result(FlowConstructionResult(kid_flow,
Descendants::new()))
} else if flow.get().need_anonymous_flow(kid_flow.get()) {
consecutive_siblings.push(kid_flow)
} else {
// Flush any inline fragments that we were gathering up. This allows us to handle
// {ib} splits.
debug!("flushing {} inline box(es) to flow A",
inline_fragment_accumulator.fragments.len());
self.flush_inline_fragments_to_flow_or_list(
mem::replace(inline_fragment_accumulator, InlineFragmentsAccumulator::new()),
flow,
consecutive_siblings,
StripWhitespaceFromStart,
node);
if !consecutive_siblings.is_empty() {
let consecutive_siblings = mem::replace(consecutive_siblings, vec!());
self.generate_anonymous_missing_child(consecutive_siblings,
flow,
node);
}
flow.add_new_child(kid_flow);
}
abs_descendants.push_descendants(kid_abs_descendants);
}
ConstructionItemConstructionResult(InlineFragmentsConstructionItem(
InlineFragmentsConstructionResult {
splits: splits,
fragments: successor_fragments,
abs_descendants: kid_abs_descendants,
})) => {
// Add any {ib} splits.
for split in splits.into_iter() {
// Pull apart the {ib} split object and push its predecessor fragments
// onto the list.
let InlineBlockSplit {
predecessors: predecessors,
flow: kid_flow
} = split;
inline_fragment_accumulator.fragments.push_all(predecessors);
// If this is the first fragment in flow, then strip ignorable
// whitespace per CSS 2.1 § 9.2.1.1.
let whitespace_stripping = if *first_fragment {
*first_fragment = false;
StripWhitespaceFromStart
} else {
NoWhitespaceStripping
};
// Flush any inline fragments that we were gathering up.
debug!("flushing {} inline box(es) to flow A",
inline_fragment_accumulator.fragments.len());
self.flush_inline_fragments_to_flow_or_list(
mem::replace(inline_fragment_accumulator,
InlineFragmentsAccumulator::new()),
flow,
consecutive_siblings,
whitespace_stripping,
node);
// Push the flow generated by the {ib} split onto our list of
// flows.
if flow.get().need_anonymous_flow(kid_flow.get()) {
consecutive_siblings.push(kid_flow)
} else {
flow.add_new_child(kid_flow)
}
}
// Add the fragments to the list we're maintaining.
inline_fragment_accumulator.fragments.push_all(successor_fragments);
abs_descendants.push_descendants(kid_abs_descendants);
}
ConstructionItemConstructionResult(WhitespaceConstructionItem(whitespace_node, whitespace_style)) => {
// Add whitespace results. They will be stripped out later on when
// between block elements, and retained when between inline elements.
let fragment_info = UnscannedTextFragment(UnscannedTextFragmentInfo::from_text(" ".to_string()));
let mut fragment = Fragment::from_opaque_node_and_style(whitespace_node,
whitespace_style,
fragment_info);
inline_fragment_accumulator.fragments.push(&mut fragment);
}
ConstructionItemConstructionResult(TableColumnFragmentConstructionItem(_)) => {
// TODO: Implement anonymous table objects for missing parents
// CSS 2.1 § 17.2.1, step 3-2
}
}
}
/// Build block flow for current node using information from children nodes.
///
/// Consume results from children and combine them, handling {ib} splits.
/// Block flows and inline flows thus created will become the children of
/// this block flow.
/// Also, deal with the absolute and fixed descendants bubbled up by
/// children nodes.
fn build_flow_for_block(&mut self, mut flow: FlowRef, node: &ThreadSafeLayoutNode)
-> ConstructionResult {
// Gather up fragments for the inline flows we might need to create.
let mut inline_fragment_accumulator = InlineFragmentsAccumulator::new();
let mut consecutive_siblings = vec!();
let mut first_fragment = true;
// Special case: If this is generated content, then we need to initialize the accumulator
// with the fragment corresponding to that content.
if node.get_pseudo_element_type() != Normal {
let fragment_info = UnscannedTextFragment(UnscannedTextFragmentInfo::new(node));
let mut fragment = Fragment::new_from_specific_info(node, fragment_info);
inline_fragment_accumulator.fragments.push(&mut fragment);
first_fragment = false;
}
// List of absolute descendants, in tree order.
let mut abs_descendants = Descendants::new();
for kid in node.children() {
if kid.get_pseudo_element_type() != Normal {
self.process(&kid);
}
self.build_block_flow_using_construction_result_of_child(
&mut flow,
&mut consecutive_siblings,
node,
kid,
&mut inline_fragment_accumulator,
&mut abs_descendants,
&mut first_fragment);
}
// Perform a final flush of any inline fragments that we were gathering up to handle {ib}
// splits, after stripping ignorable whitespace.
self.flush_inline_fragments_to_flow_or_list(inline_fragment_accumulator,
&mut flow,
&mut consecutive_siblings,
StripWhitespaceFromEnd,
node);
if !consecutive_siblings.is_empty() {
self.generate_anonymous_missing_child(consecutive_siblings, &mut flow, node);
}
// The flow is done.
flow.finish(self.layout_context);
let is_positioned = flow.get_mut().as_block().is_positioned();
let is_fixed_positioned = flow.get_mut().as_block().is_fixed();
let is_absolutely_positioned = flow.get_mut().as_block().is_absolutely_positioned();
if is_positioned {
// This is the CB for all the absolute descendants.
flow.set_absolute_descendants(abs_descendants);
abs_descendants = Descendants::new();
if is_fixed_positioned || is_absolutely_positioned {
// This is now the only absolute flow in the subtree which hasn't yet
// reached its CB.
abs_descendants.push(flow.clone());
}
}
FlowConstructionResult(flow, abs_descendants)
}
/// Builds a flow for a node with `display: block`. This yields a `BlockFlow` with possibly
/// other `BlockFlow`s or `InlineFlow`s underneath it, depending on whether {ib} splits needed
/// to happen.
fn build_flow_for_nonfloated_block(&mut self, node: &ThreadSafeLayoutNode)
-> ConstructionResult {
let flow = box BlockFlow::from_node(self, node) as Box<Flow>;
self.build_flow_for_block(FlowRef::new(flow), node)
}
/// Builds the flow for a node with `float: {left|right}`. This yields a float `BlockFlow` with
/// a `BlockFlow` underneath it.
fn build_flow_for_floated_block(&mut self, node: &ThreadSafeLayoutNode, float_kind: FloatKind)
-> ConstructionResult {
let flow = box BlockFlow::float_from_node(self, node, float_kind) as Box<Flow>;
self.build_flow_for_block(FlowRef::new(flow), node)
}
/// Concatenates the fragments of kids, adding in our own borders/padding/margins if necessary.
/// Returns the `InlineFragmentsConstructionResult`, if any. There will be no
/// `InlineFragmentsConstructionResult` if this node consisted entirely of ignorable
/// whitespace.
fn build_fragments_for_nonreplaced_inline_content(&mut self, node: &ThreadSafeLayoutNode)
-> ConstructionResult {
let mut opt_inline_block_splits: Vec<InlineBlockSplit> = Vec::new();
let mut fragment_accumulator = InlineFragmentsAccumulator::from_inline_node(node);
let mut abs_descendants = Descendants::new();
// Concatenate all the fragments of our kids, creating {ib} splits as necessary.
for kid in node.children() {
if kid.get_pseudo_element_type() != Normal {
self.process(&kid);
}
match kid.swap_out_construction_result() {
NoConstructionResult => {}
FlowConstructionResult(flow, kid_abs_descendants) => {
// {ib} split. Flush the accumulator to our new split and make a new
// accumulator to hold any subsequent fragments we come across.
let split = InlineBlockSplit {
predecessors:
mem::replace(
&mut fragment_accumulator,
InlineFragmentsAccumulator::from_inline_node(node)).finish(),
flow: flow,
};
opt_inline_block_splits.push(split);
abs_descendants.push_descendants(kid_abs_descendants);
}
ConstructionItemConstructionResult(InlineFragmentsConstructionItem(
InlineFragmentsConstructionResult {
splits: splits,
fragments: successors,
abs_descendants: kid_abs_descendants,
})) => {
// Bubble up {ib} splits.
for split in splits.into_iter() {
let InlineBlockSplit {
predecessors: predecessors,
flow: kid_flow
} = split;
fragment_accumulator.fragments.push_all(predecessors);
let split = InlineBlockSplit {
predecessors:
mem::replace(&mut fragment_accumulator,
InlineFragmentsAccumulator::from_inline_node(node))
.finish(),
flow: kid_flow,
};
opt_inline_block_splits.push(split)
}
// Push residual fragments.
fragment_accumulator.fragments.push_all(successors);
abs_descendants.push_descendants(kid_abs_descendants);
}
ConstructionItemConstructionResult(WhitespaceConstructionItem(whitespace_node,
whitespace_style))
=> {
// Instantiate the whitespace fragment.
let fragment_info = UnscannedTextFragment(UnscannedTextFragmentInfo::from_text(" ".to_string()));
let mut fragment = Fragment::from_opaque_node_and_style(whitespace_node,
whitespace_style,
fragment_info);
fragment_accumulator.fragments.push(&mut fragment)
}
ConstructionItemConstructionResult(TableColumnFragmentConstructionItem(_)) => {
// TODO: Implement anonymous table objects for missing parents
// CSS 2.1 § 17.2.1, step 3-2
}
}
}
// Finally, make a new construction result.
if opt_inline_block_splits.len() > 0 || fragment_accumulator.fragments.len() > 0
|| abs_descendants.len() > 0 {
let construction_item = InlineFragmentsConstructionItem(
InlineFragmentsConstructionResult {
splits: opt_inline_block_splits,
fragments: fragment_accumulator.finish(),
abs_descendants: abs_descendants,
});
ConstructionItemConstructionResult(construction_item)
} else {
NoConstructionResult
}
}
/// Creates an `InlineFragmentsConstructionResult` for replaced content. Replaced content
/// doesn't render its children, so this just nukes a child's fragments and creates a
/// `Fragment`.
fn build_fragments_for_replaced_inline_content(&mut self, node: &ThreadSafeLayoutNode)
-> ConstructionResult {
for kid in node.children() {
kid.set_flow_construction_result(NoConstructionResult)
}
// If this node is ignorable whitespace, bail out now.
//
// FIXME(#2001, pcwalton): Don't do this if there's padding or borders.
if node.is_ignorable_whitespace() {
let opaque_node = OpaqueNodeMethods::from_thread_safe_layout_node(node);
return ConstructionItemConstructionResult(WhitespaceConstructionItem(
opaque_node,
node.style().clone()))
}
// If this is generated content, then we need to initialize the accumulator with the
// fragment corresponding to that content. Otherwise, just initialize with the ordinary
// fragment that needs to be generated for this inline node.
let mut fragment = if node.get_pseudo_element_type() != Normal {
let fragment_info = UnscannedTextFragment(UnscannedTextFragmentInfo::new(node));
Fragment::new_from_specific_info(node, fragment_info)
} else {
Fragment::new(self, node)
};
let mut fragments = InlineFragments::new();
fragments.push(&mut fragment);
let construction_item = InlineFragmentsConstructionItem(InlineFragmentsConstructionResult {
splits: Vec::new(),
fragments: fragments,
abs_descendants: Descendants::new(),
});
ConstructionItemConstructionResult(construction_item)
}
fn build_fragment_for_inline_block(&mut self, node: &ThreadSafeLayoutNode)
-> ConstructionResult {
let block_flow_result = self.build_flow_for_nonfloated_block(node);
let (block_flow, abs_descendants) = match block_flow_result {
FlowConstructionResult(block_flow, abs_descendants) => (block_flow, abs_descendants),
_ => unreachable!()
};
let fragment_info = InlineBlockFragment(InlineBlockFragmentInfo::new(block_flow));
let mut fragment = Fragment::new_from_specific_info(node, fragment_info);
let mut fragment_accumulator = InlineFragmentsAccumulator::from_inline_node(node);
fragment_accumulator.fragments.push(&mut fragment);
let construction_item = InlineFragmentsConstructionItem(InlineFragmentsConstructionResult {
splits: Vec::new(),
fragments: fragment_accumulator.finish(),
abs_descendants: abs_descendants,
});
ConstructionItemConstructionResult(construction_item)
}
/// Builds one or more fragments for a node with `display: inline`. This yields an
/// `InlineFragmentsConstructionResult`.
fn build_fragments_for_inline(&mut self, node: &ThreadSafeLayoutNode) -> ConstructionResult {
// Is this node replaced content?
if !node.is_replaced_content() {
// Go to a path that concatenates our kids' fragments.
self.build_fragments_for_nonreplaced_inline_content(node)
} else {
// Otherwise, just nuke our kids' fragments, create our fragment if any, and be done
// with it.
self.build_fragments_for_replaced_inline_content(node)
}
}
/// TableCaptionFlow is populated underneath TableWrapperFlow
fn place_table_caption_under_table_wrapper(&mut self,
table_wrapper_flow: &mut FlowRef,
node: &ThreadSafeLayoutNode) {
for kid in node.children() {
match kid.swap_out_construction_result() {
NoConstructionResult | ConstructionItemConstructionResult(_) => {}
FlowConstructionResult(kid_flow, _) => {
// Only kid flows with table-caption are matched here.
assert!(kid_flow.get().is_table_caption());
table_wrapper_flow.add_new_child(kid_flow);
}
}
}
}
/// Generates an anonymous table flow according to CSS 2.1 § 17.2.1, step 2.
/// If necessary, generate recursively another anonymous table flow.
fn generate_anonymous_missing_child(&mut self,
child_flows: Vec<FlowRef>,
flow: &mut FlowRef,
node: &ThreadSafeLayoutNode) {
let mut anonymous_flow = flow.get().generate_missing_child_flow(node);
let mut consecutive_siblings = vec!();
for kid_flow in child_flows.into_iter() {
if anonymous_flow.get().need_anonymous_flow(kid_flow.get()) {
consecutive_siblings.push(kid_flow);
continue;
}
if !consecutive_siblings.is_empty() {
self.generate_anonymous_missing_child(consecutive_siblings,
&mut anonymous_flow,
node);
consecutive_siblings = vec!();
}
anonymous_flow.add_new_child(kid_flow);
}
if !consecutive_siblings.is_empty() {
self.generate_anonymous_missing_child(consecutive_siblings, &mut anonymous_flow, node);
}
// The flow is done.
anonymous_flow.finish(self.layout_context);
flow.add_new_child(anonymous_flow);
}
/// Builds a flow for a node with `display: table`. This yields a `TableWrapperFlow` with possibly
/// other `TableCaptionFlow`s or `TableFlow`s underneath it.
fn build_flow_for_table_wrapper(&mut self, node: &ThreadSafeLayoutNode,
float_value: float::T) -> ConstructionResult {
let fragment = Fragment::new_from_specific_info(node, TableWrapperFragment);
let wrapper_flow = match float_value {
float::none => box TableWrapperFlow::from_node_and_fragment(node, fragment),
_ => {
let float_kind = FloatKind::from_property(float_value);
box TableWrapperFlow::float_from_node_and_fragment(node, fragment, float_kind)
}
};
let mut wrapper_flow = FlowRef::new(wrapper_flow as Box<Flow>);
let table_fragment = Fragment::new_from_specific_info(node, TableFragment);
let table_flow = box TableFlow::from_node_and_fragment(node, table_fragment);
let table_flow = FlowRef::new(table_flow as Box<Flow>);
// We first populate the TableFlow with other flows than TableCaptionFlow.
// We then populate the TableWrapperFlow with TableCaptionFlow, and attach
// the TableFlow to the TableWrapperFlow
let construction_result = self.build_flow_for_block(table_flow, node);
self.place_table_caption_under_table_wrapper(&mut wrapper_flow, node);
let mut abs_descendants = Descendants::new();
let mut fixed_descendants = Descendants::new();
// NOTE: The order of captions and table are not the same order as in the DOM tree.
// All caption blocks are placed before the table flow
match construction_result {
FlowConstructionResult(table_flow, table_abs_descendants) => {
wrapper_flow.add_new_child(table_flow);
abs_descendants.push_descendants(table_abs_descendants);
}
_ => {}
}
// The flow is done.
wrapper_flow.finish(self.layout_context);
let is_positioned = wrapper_flow.get_mut().as_block().is_positioned();
let is_fixed_positioned = wrapper_flow.get_mut().as_block().is_fixed();
let is_absolutely_positioned = wrapper_flow.get_mut()
.as_block()
.is_absolutely_positioned();
if is_positioned {
// This is the containing block for all the absolute descendants.
wrapper_flow.set_absolute_descendants(abs_descendants);
abs_descendants = Descendants::new();
if is_fixed_positioned {
// Send itself along with the other fixed descendants.
fixed_descendants.push(wrapper_flow.clone());
} else if is_absolutely_positioned {
// This is now the only absolute flow in the subtree which hasn't yet
// reached its containing block.
abs_descendants.push(wrapper_flow.clone());
}
}
FlowConstructionResult(wrapper_flow, abs_descendants)
}
/// Builds a flow for a node with `display: table-caption`. This yields a `TableCaptionFlow`
/// with possibly other `BlockFlow`s or `InlineFlow`s underneath it.
fn build_flow_for_table_caption(&mut self, node: &ThreadSafeLayoutNode) -> ConstructionResult {
let flow = box TableCaptionFlow::from_node(self, node) as Box<Flow>;
self.build_flow_for_block(FlowRef::new(flow), node)
}
/// Builds a flow for a node with `display: table-row-group`. This yields a `TableRowGroupFlow`
/// with possibly other `TableRowFlow`s underneath it.
fn build_flow_for_table_rowgroup(&mut self, node: &ThreadSafeLayoutNode)
-> ConstructionResult {
let fragment = Fragment::new_from_specific_info(node, TableRowFragment);
let flow = box TableRowGroupFlow::from_node_and_fragment(node, fragment);
let flow = flow as Box<Flow>;
self.build_flow_for_block(FlowRef::new(flow), node)
}
/// Builds a flow for a node with `display: table-row`. This yields a `TableRowFlow` with
/// possibly other `TableCellFlow`s underneath it.
fn build_flow_for_table_row(&mut self, node: &ThreadSafeLayoutNode) -> ConstructionResult {
let fragment = Fragment::new_from_specific_info(node, TableRowFragment);
let flow = box TableRowFlow::from_node_and_fragment(node, fragment) as Box<Flow>;
self.build_flow_for_block(FlowRef::new(flow), node)
}
/// Builds a flow for a node with `display: table-cell`. This yields a `TableCellFlow` with
/// possibly other `BlockFlow`s or `InlineFlow`s underneath it.
fn build_flow_for_table_cell(&mut self, node: &ThreadSafeLayoutNode) -> ConstructionResult {
let fragment = Fragment::new_from_specific_info(node, TableCellFragment);
let flow = box TableCellFlow::from_node_and_fragment(node, fragment) as Box<Flow>;
self.build_flow_for_block(FlowRef::new(flow), node)
}
/// Creates a fragment for a node with `display: table-column`.
fn build_fragments_for_table_column(&mut self, node: &ThreadSafeLayoutNode)
-> ConstructionResult {
// CSS 2.1 § 17.2.1. Treat all child fragments of a `table-column` as `display: none`.
for kid in node.children() {
kid.set_flow_construction_result(NoConstructionResult)
}
let specific = TableColumnFragment(TableColumnFragmentInfo::new(node));
let construction_item = TableColumnFragmentConstructionItem(
Fragment::new_from_specific_info(node, specific)
);
ConstructionItemConstructionResult(construction_item)
}
/// Builds a flow for a node with `display: table-column-group`.
/// This yields a `TableColGroupFlow`.
fn build_flow_for_table_colgroup(&mut self, node: &ThreadSafeLayoutNode)
-> ConstructionResult {
let fragment = Fragment::new_from_specific_info(
node,
TableColumnFragment(TableColumnFragmentInfo::new(node)));
let mut col_fragments = vec!();
for kid in node.children() {
// CSS 2.1 § 17.2.1. Treat all non-column child fragments of `table-column-group`
// as `display: none`.
match kid.swap_out_construction_result() {
ConstructionItemConstructionResult(TableColumnFragmentConstructionItem(
fragment)) => {
col_fragments.push(fragment);
}
_ => {}
}
}
if col_fragments.is_empty() {
debug!("add TableColumnFragment for empty colgroup");
let specific = TableColumnFragment(TableColumnFragmentInfo::new(node));
col_fragments.push(Fragment::new_from_specific_info(node, specific));
}
let flow = box TableColGroupFlow::from_node_and_fragments(node, fragment, col_fragments);
let mut flow = FlowRef::new(flow as Box<Flow>);
flow.finish(self.layout_context);
FlowConstructionResult(flow, Descendants::new())
}
}
impl<'a> PostorderNodeMutTraversal for FlowConstructor<'a> {
// Construct Flow based on 'display', 'position', and 'float' values.
//
// CSS 2.1 Section 9.7
//
// TODO: This should actually consult the table in that section to get the
// final computed value for 'display'.
fn process(&mut self, node: &ThreadSafeLayoutNode) -> bool {
// Get the `display` property for this node, and determine whether this node is floated.
let (display, float, positioning) = match node.type_id() {
None => {
// Pseudo-element.
let style = node.style();
let display = match node.get_pseudo_element_type() {
Normal => display::inline,
Before(display) => display,
After(display) => display,
};
(display, style.get_box().float, style.get_box().position)
}
Some(ElementNodeTypeId(_)) => {
let style = node.style();
(style.get_box().display, style.get_box().float, style.get_box().position)
}
Some(TextNodeTypeId) => (display::inline, float::none, position::static_),
Some(CommentNodeTypeId) |
Some(DoctypeNodeTypeId) |
Some(DocumentFragmentNodeTypeId) |
Some(DocumentNodeTypeId) |
Some(ProcessingInstructionNodeTypeId) => {
(display::none, float::none, position::static_)
}
};
debug!("building flow for node: {:?} {:?}", display, float);
// Switch on display and floatedness.
match (display, float, positioning) {
// `display: none` contributes no flow construction result. Nuke the flow construction
// results of children.
(display::none, _, _) => {
for child in node.children() {
drop(child.swap_out_construction_result())
}
}
// Table items contribute table flow construction results.
(display::table, float_value, _) => {
let construction_result = self.build_flow_for_table_wrapper(node, float_value);
node.set_flow_construction_result(construction_result)
}
// Absolutely positioned elements will have computed value of
// `float` as 'none' and `display` as per the table.
// Only match here for block items. If an item is absolutely
// positioned, but inline we shouldn't try to construct a block
// flow here - instead, let it match the inline case
// below.
(display::block, _, position::absolute) | (_, _, position::fixed) => {
node.set_flow_construction_result(self.build_flow_for_nonfloated_block(node))
}
// Inline items contribute inline fragment construction results.
//
// FIXME(pcwalton, #3307): This is not sufficient to handle floated generated content.
(display::inline, _, _) => {
let construction_result = self.build_fragments_for_inline(node);
node.set_flow_construction_result(construction_result)
}
// Inline-block items contribute inline fragment construction results.
(display::inline_block, float::none, _) => {
let construction_result = self.build_fragment_for_inline_block(node);
node.set_flow_construction_result(construction_result)
}
// Table items contribute table flow construction results.
(display::table_caption, _, _) => {
let construction_result = self.build_flow_for_table_caption(node);
node.set_flow_construction_result(construction_result)
}
// Table items contribute table flow construction results.
(display::table_column_group, _, _) => {
let construction_result = self.build_flow_for_table_colgroup(node);
node.set_flow_construction_result(construction_result)
}
// Table items contribute table flow construction results.
(display::table_column, _, _) => {
let construction_result = self.build_fragments_for_table_column(node);
node.set_flow_construction_result(construction_result)
}
// Table items contribute table flow construction results.
(display::table_row_group, _, _) | (display::table_header_group, _, _) |
(display::table_footer_group, _, _) => {
let construction_result = self.build_flow_for_table_rowgroup(node);
node.set_flow_construction_result(construction_result)
}
// Table items contribute table flow construction results.
(display::table_row, _, _) => {
let construction_result = self.build_flow_for_table_row(node);
node.set_flow_construction_result(construction_result)
}
// Table items contribute table flow construction results.
(display::table_cell, _, _) => {
let construction_result = self.build_flow_for_table_cell(node);
node.set_flow_construction_result(construction_result)
}
// Block flows that are not floated contribute block flow construction results.
//
// TODO(pcwalton): Make this only trigger for blocks and handle the other `display`
// properties separately.
(_, float::none, _) => {
node.set_flow_construction_result(self.build_flow_for_nonfloated_block(node))
}
// Floated flows contribute float flow construction results.
(_, float_value, _) => {
let float_kind = FloatKind::from_property(float_value);
node.set_flow_construction_result(
self.build_flow_for_floated_block(node, float_kind))
}
}
true
}
}
/// A utility trait with some useful methods for node queries.
trait NodeUtils {
/// Returns true if this node doesn't render its kids and false otherwise.
fn is_replaced_content(&self) -> bool;
/// Sets the construction result of a flow.
fn set_flow_construction_result(&self, result: ConstructionResult);
/// Replaces the flow construction result in a node with `NoConstructionResult` and returns the
/// old value.
fn swap_out_construction_result(&self) -> ConstructionResult;
}
impl<'ln> NodeUtils for ThreadSafeLayoutNode<'ln> {
fn is_replaced_content(&self) -> bool {
match self.type_id() {
Some(TextNodeTypeId) |
Some(ProcessingInstructionNodeTypeId) |
Some(CommentNodeTypeId) |
Some(DoctypeNodeTypeId) |
Some(DocumentFragmentNodeTypeId) |
Some(DocumentNodeTypeId) |
None |
Some(ElementNodeTypeId(HTMLImageElementTypeId)) => true,
Some(ElementNodeTypeId(HTMLObjectElementTypeId)) => self.has_object_data(),
Some(ElementNodeTypeId(_)) => false,
}
}
#[inline(always)]
fn set_flow_construction_result(&self, result: ConstructionResult) {
let mut layout_data_ref = self.mutate_layout_data();
match &mut *layout_data_ref {
&Some(ref mut layout_data) =>{
match self.get_pseudo_element_type() {
Before(_) => layout_data.data.before_flow_construction_result = result,
After(_) => layout_data.data.after_flow_construction_result = result,
Normal => layout_data.data.flow_construction_result = result,
}
},
&None => fail!("no layout data"),
}
}
#[inline(always)]
fn swap_out_construction_result(&self) -> ConstructionResult {
let mut layout_data_ref = self.mutate_layout_data();
match &mut *layout_data_ref {
&Some(ref mut layout_data) => {
match self.get_pseudo_element_type() {
Before(_) => {
mem::replace(&mut layout_data.data.before_flow_construction_result,
NoConstructionResult)
}
After(_) => {
mem::replace(&mut layout_data.data.after_flow_construction_result,
NoConstructionResult)
}
Normal => {
mem::replace(&mut layout_data.data.flow_construction_result,
NoConstructionResult)
}
}
}
&None => fail!("no layout data"),
}
}
}
/// Methods for interacting with HTMLObjectElement nodes
trait ObjectElement<'a> {
/// Returns None if this node is not matching attributes.
fn get_type_and_data(&self) -> (Option<&'a str>, Option<&'a str>);
/// Returns true if this node has object data that is correct uri.
fn has_object_data(&self) -> bool;
/// Returns the "data" attribute value parsed as a URL
fn get_object_data(&self) -> Option<Url>;
}
impl<'ln> ObjectElement<'ln> for ThreadSafeLayoutNode<'ln> {
fn get_type_and_data(&self) -> (Option<&'ln str>, Option<&'ln str>) {
let elem = self.as_element();
(elem.get_attr(&namespace::Null, "type"), elem.get_attr(&namespace::Null, "data"))
}
fn has_object_data(&self) -> bool {
match self.get_type_and_data() {
(None, Some(uri)) => is_image_data(uri),
_ => false
}
}
fn get_object_data(&self) -> Option<Url> {
match self.get_type_and_data() {
(None, Some(uri)) if is_image_data(uri) => Url::parse(uri).ok(),
_ => None
}
}
}
pub trait FlowConstructionUtils {
/// Adds a new flow as a child of this flow. Removes the flow from the given leaf set if
/// it's present.
fn add_new_child(&mut self, new_child: FlowRef);
/// Finishes a flow. Once a flow is finished, no more child flows or boxes may be added to it.
/// This will normally run the bubble-inline-sizes (minimum and preferred -- i.e. intrinsic -- inline-size)
/// calculation, unless the global `bubble_inline-sizes_separately` flag is on.
///
/// All flows must be finished at some point, or they will not have their intrinsic inline-sizes
/// properly computed. (This is not, however, a memory safety problem.)
fn finish(&mut self, context: &LayoutContext);
}
impl FlowConstructionUtils for FlowRef {
/// Adds a new flow as a child of this flow. Fails if this flow is marked as a leaf.
///
/// This must not be public because only the layout constructor can do this.
fn add_new_child(&mut self, mut new_child: FlowRef) {
{
let kid_base = flow::mut_base(new_child.get_mut());
kid_base.parallel.parent = parallel::mut_owned_flow_to_unsafe_flow(self);
}
let base = flow::mut_base(self.get_mut());
base.children.push_back(new_child);
let _ = base.parallel.children_count.fetch_add(1, Relaxed);
let _ = base.parallel.children_and_absolute_descendant_count.fetch_add(1, Relaxed);
}
/// Finishes a flow. Once a flow is finished, no more child flows or fragments may be added to
/// it. This will normally run the bubble-inline-sizes (minimum and preferred -- i.e. intrinsic --
/// inline-size) calculation, unless the global `bubble_inline-sizes_separately` flag is on.
///
/// All flows must be finished at some point, or they will not have their intrinsic inline-sizes
/// properly computed. (This is not, however, a memory safety problem.)
///
/// This must not be public because only the layout constructor can do this.
fn finish(&mut self, context: &LayoutContext) {
if !context.shared.opts.bubble_inline_sizes_separately {
self.get_mut().bubble_inline_sizes(context)
}
}
}
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