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ladybird/Userland/Libraries/LibWeb/Layout/TreeBuilder.cpp
Daniel Bertalan d7b6cc6421 Everywhere: Prevent risky implicit casts of (Nonnull)RefPtr 
Our existing implementation did not check the element type of the other
pointer in the constructors and move assignment operators. This meant
that some operations that would require explicit casting on raw pointers
were done implicitly, such as:
- downcasting a base class to a derived class (e.g. `Kernel::Inode` =>
  `Kernel::ProcFSDirectoryInode` in Kernel/ProcFS.cpp),
- casting to an unrelated type (e.g. `Promise<bool>` => `Promise<Empty>`
  in LibIMAP/Client.cpp)

This, of course, allows gross violations of the type system, and makes
the need to type-check less obvious before downcasting. Luckily, while
adding the `static_ptr_cast`s, only two truly incorrect usages were
found; in the other instances, our casts just needed to be made
explicit.
2021-09-03 23:20:23 +02:00

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/*
* Copyright (c) 2018-2021, Andreas Kling <kling@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Optional.h>
#include <AK/TemporaryChange.h>
#include <LibWeb/DOM/Document.h>
#include <LibWeb/DOM/Element.h>
#include <LibWeb/DOM/ParentNode.h>
#include <LibWeb/DOM/ShadowRoot.h>
#include <LibWeb/Dump.h>
#include <LibWeb/Layout/InitialContainingBlockBox.h>
#include <LibWeb/Layout/Node.h>
#include <LibWeb/Layout/TableBox.h>
#include <LibWeb/Layout/TableCellBox.h>
#include <LibWeb/Layout/TableRowBox.h>
#include <LibWeb/Layout/TextNode.h>
#include <LibWeb/Layout/TreeBuilder.h>
namespace Web::Layout {
TreeBuilder::TreeBuilder()
{
}
// The insertion_parent_for_*() functions maintain the invariant that block-level boxes must have either
// only block-level children or only inline-level children.
static Layout::Node& insertion_parent_for_inline_node(Layout::NodeWithStyle& layout_parent)
{
if (layout_parent.is_inline() && !layout_parent.is_inline_block())
return layout_parent;
if (!layout_parent.has_children() || layout_parent.children_are_inline())
return layout_parent;
// Parent has block-level children, insert into an anonymous wrapper block (and create it first if needed)
if (!layout_parent.last_child()->is_anonymous() || !layout_parent.last_child()->children_are_inline()) {
layout_parent.append_child(layout_parent.create_anonymous_wrapper());
}
return *layout_parent.last_child();
}
static Layout::Node& insertion_parent_for_block_node(Layout::Node& layout_parent, Layout::Node& layout_node)
{
if (!layout_parent.has_children()) {
// Parent block has no children, insert this block into parent.
return layout_parent;
}
if (!layout_parent.children_are_inline()) {
// Parent block has block-level children, insert this block into parent.
return layout_parent;
}
// Parent block has inline-level children (our siblings).
// First move these siblings into an anonymous wrapper block.
NonnullRefPtrVector<Layout::Node> children;
while (RefPtr<Layout::Node> child = layout_parent.first_child()) {
layout_parent.remove_child(*child);
children.append(child.release_nonnull());
}
layout_parent.append_child(adopt_ref(*new BlockBox(layout_node.document(), nullptr, layout_parent.computed_values().clone_inherited_values())));
layout_parent.set_children_are_inline(false);
for (auto& child : children) {
layout_parent.last_child()->append_child(child);
}
layout_parent.last_child()->set_children_are_inline(true);
// Then it's safe to insert this block into parent.
return layout_parent;
}
void TreeBuilder::create_layout_tree(DOM::Node& dom_node, TreeBuilder::Context& context)
{
// If the parent doesn't have a layout node, we don't need one either.
if (dom_node.parent_or_shadow_host() && !dom_node.parent_or_shadow_host()->layout_node())
return;
Optional<TemporaryChange<bool>> has_svg_root_change;
if (dom_node.is_svg_container()) {
has_svg_root_change.emplace(context.has_svg_root, true);
} else if (dom_node.requires_svg_container() && !context.has_svg_root) {
return;
}
auto layout_node = dom_node.create_layout_node();
if (!layout_node)
return;
if (!dom_node.parent_or_shadow_host()) {
m_layout_root = layout_node;
} else {
if (layout_node->is_inline()) {
// Inlines can be inserted into the nearest ancestor.
auto& insertion_point = insertion_parent_for_inline_node(*m_parent_stack.last());
insertion_point.append_child(*layout_node);
insertion_point.set_children_are_inline(true);
} else {
// Non-inlines can't be inserted into an inline parent, so find the nearest non-inline ancestor.
auto& nearest_non_inline_ancestor = [&]() -> Layout::Node& {
for (ssize_t i = m_parent_stack.size() - 1; i >= 0; --i) {
if (!m_parent_stack[i]->is_inline() || m_parent_stack[i]->is_inline_block())
return *m_parent_stack[i];
}
VERIFY_NOT_REACHED();
}();
auto& insertion_point = insertion_parent_for_block_node(nearest_non_inline_ancestor, *layout_node);
insertion_point.append_child(*layout_node);
insertion_point.set_children_are_inline(false);
}
}
auto* shadow_root = is<DOM::Element>(dom_node) ? verify_cast<DOM::Element>(dom_node).shadow_root() : nullptr;
if ((dom_node.has_children() || shadow_root) && layout_node->can_have_children()) {
push_parent(verify_cast<NodeWithStyle>(*layout_node));
if (shadow_root)
create_layout_tree(*shadow_root, context);
verify_cast<DOM::ParentNode>(dom_node).for_each_child([&](auto& dom_child) {
create_layout_tree(dom_child, context);
});
pop_parent();
}
}
RefPtr<Node> TreeBuilder::build(DOM::Node& dom_node)
{
if (dom_node.parent()) {
// We're building a partial layout tree, so start by building up the stack of parent layout nodes.
for (auto* ancestor = dom_node.parent()->layout_node(); ancestor; ancestor = ancestor->parent())
m_parent_stack.prepend(verify_cast<NodeWithStyle>(ancestor));
}
Context context;
create_layout_tree(dom_node, context);
if (auto* root = dom_node.document().layout_node())
fixup_tables(*root);
return move(m_layout_root);
}
template<CSS::Display display, typename Callback>
void TreeBuilder::for_each_in_tree_with_display(NodeWithStyle& root, Callback callback)
{
root.for_each_in_inclusive_subtree_of_type<Box>([&](auto& box) {
if (box.computed_values().display() == display)
callback(box);
return IterationDecision::Continue;
});
}
void TreeBuilder::fixup_tables(NodeWithStyle& root)
{
// NOTE: Even if we only do a partial build, we always do fixup from the root.
remove_irrelevant_boxes(root);
generate_missing_child_wrappers(root);
generate_missing_parents(root);
}
void TreeBuilder::remove_irrelevant_boxes(NodeWithStyle& root)
{
// The following boxes are discarded as if they were display:none:
NonnullRefPtrVector<Node> to_remove;
// Children of a table-column.
for_each_in_tree_with_display<CSS::Display::TableColumn>(root, [&](Box& table_column) {
table_column.for_each_child([&](auto& child) {
to_remove.append(child);
});
});
// Children of a table-column-group which are not a table-column.
for_each_in_tree_with_display<CSS::Display::TableColumnGroup>(root, [&](Box& table_column_group) {
table_column_group.for_each_child([&](auto& child) {
if (child.computed_values().display() != CSS::Display::TableColumn)
to_remove.append(child);
});
});
// FIXME:
// Anonymous inline boxes which contain only white space and are between two immediate siblings each of which is a table-non-root box.
// Anonymous inline boxes which meet all of the following criteria:
// - they contain only white space
// - they are the first and/or last child of a tabular container
// - whose immediate sibling, if any, is a table-non-root box
for (auto& box : to_remove)
box.parent()->remove_child(box);
}
static bool is_table_track(CSS::Display display)
{
return display == CSS::Display::TableRow || display == CSS::Display::TableColumn;
}
static bool is_table_track_group(CSS::Display display)
{
// Unless explicitly mentioned otherwise, mentions of table-row-groups in this spec also encompass the specialized
// table-header-groups and table-footer-groups.
return display == CSS::Display::TableRowGroup || display == CSS::Display::TableHeaderGroup || display == CSS::Display::TableFooterGroup
|| display == CSS::Display::TableColumnGroup;
}
static bool is_not_proper_table_child(const Node& node)
{
if (!node.has_style())
return true;
auto display = node.computed_values().display();
return !is_table_track_group(display) && !is_table_track(display) && display != CSS::Display::TableCaption;
}
static bool is_not_table_row(const Node& node)
{
if (!node.has_style())
return true;
auto display = node.computed_values().display();
return display != CSS::Display::TableRow;
}
static bool is_not_table_cell(const Node& node)
{
if (!node.has_style())
return true;
auto display = node.computed_values().display();
return display != CSS::Display::TableCell;
}
template<typename Matcher, typename Callback>
static void for_each_sequence_of_consecutive_children_matching(NodeWithStyle& parent, Matcher matcher, Callback callback)
{
NonnullRefPtrVector<Node> sequence;
Node* next_sibling = nullptr;
for (auto* child = parent.first_child(); child; child = next_sibling) {
next_sibling = child->next_sibling();
if (matcher(*child)) {
sequence.append(*child);
} else {
if (!sequence.is_empty()) {
callback(sequence, next_sibling);
sequence.clear();
}
}
}
if (!sequence.is_empty())
callback(sequence, nullptr);
}
template<typename WrapperBoxType>
static void wrap_in_anonymous(NonnullRefPtrVector<Node>& sequence, Node* nearest_sibling)
{
VERIFY(!sequence.is_empty());
auto& parent = *sequence.first().parent();
auto computed_values = parent.computed_values().clone_inherited_values();
static_cast<CSS::MutableComputedValues&>(computed_values).set_display(WrapperBoxType::static_display());
auto wrapper = adopt_ref(*new WrapperBoxType(parent.document(), nullptr, move(computed_values)));
for (auto& child : sequence) {
parent.remove_child(child);
wrapper->append_child(child);
}
if (nearest_sibling)
parent.insert_before(move(wrapper), *nearest_sibling);
else
parent.append_child(move(wrapper));
}
void TreeBuilder::generate_missing_child_wrappers(NodeWithStyle& root)
{
// An anonymous table-row box must be generated around each sequence of consecutive children of a table-root box which are not proper table child boxes.
for_each_in_tree_with_display<CSS::Display::Table>(root, [&](auto& parent) {
for_each_sequence_of_consecutive_children_matching(parent, is_not_proper_table_child, [&](auto sequence, auto nearest_sibling) {
wrap_in_anonymous<TableRowBox>(sequence, nearest_sibling);
});
});
// An anonymous table-row box must be generated around each sequence of consecutive children of a table-row-group box which are not table-row boxes.
for_each_in_tree_with_display<CSS::Display::TableRowGroup>(root, [&](auto& parent) {
for_each_sequence_of_consecutive_children_matching(parent, is_not_table_row, [&](auto& sequence, auto nearest_sibling) {
wrap_in_anonymous<TableRowBox>(sequence, nearest_sibling);
});
});
// Unless explicitly mentioned otherwise, mentions of table-row-groups in this spec also encompass the specialized
// table-header-groups and table-footer-groups.
for_each_in_tree_with_display<CSS::Display::TableHeaderGroup>(root, [&](auto& parent) {
for_each_sequence_of_consecutive_children_matching(parent, is_not_table_row, [&](auto& sequence, auto nearest_sibling) {
wrap_in_anonymous<TableRowBox>(sequence, nearest_sibling);
});
});
for_each_in_tree_with_display<CSS::Display::TableFooterGroup>(root, [&](auto& parent) {
for_each_sequence_of_consecutive_children_matching(parent, is_not_table_row, [&](auto& sequence, auto nearest_sibling) {
wrap_in_anonymous<TableRowBox>(sequence, nearest_sibling);
});
});
// An anonymous table-cell box must be generated around each sequence of consecutive children of a table-row box which are not table-cell boxes. !Testcase
for_each_in_tree_with_display<CSS::Display::TableRow>(root, [&](auto& parent) {
for_each_sequence_of_consecutive_children_matching(parent, is_not_table_cell, [&](auto& sequence, auto nearest_sibling) {
wrap_in_anonymous<TableCellBox>(sequence, nearest_sibling);
});
});
}
void TreeBuilder::generate_missing_parents(NodeWithStyle&)
{
// FIXME: Implement.
}
}
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