#include <AK/Function.h>
#include <LibHTML/CSS/StyleResolver.h>
#include <LibHTML/CSS/StyledNode.h>
#include <LibHTML/DOM/Element.h>
#include <LibHTML/Dump.h>
#include <LibHTML/Frame.h>
#include <LibHTML/Layout/LayoutBlock.h>
#include <LibHTML/Layout/LayoutDocument.h>
#include <LibHTML/Layout/LayoutInline.h>
#include <stdio.h>
Frame::Frame()
: m_size(800, 600)
{
}
Frame::~Frame()
{
}
void Frame::set_document(Document* document)
{
m_document = document;
}
RefPtr<StyledNode> Frame::generate_style_tree()
{
if (!m_document)
return nullptr;
auto& resolver = m_document->style_resolver();
Function<RefPtr<StyledNode>(const Node&, StyledNode*)> resolve_style = [&](const Node& node, StyledNode* parent_styled_node) -> RefPtr<StyledNode> {
RefPtr<StyledNode> styled_node;
if (node.is_element())
styled_node = resolver.create_styled_node(static_cast<const Element&>(node));
else if (node.is_document())
styled_node = resolver.create_styled_node(static_cast<const Document&>(node));
if (!styled_node)
return nullptr;
if (parent_styled_node)
parent_styled_node->append_child(*styled_node);
static_cast<const ParentNode&>(node).for_each_child([&](const Node& child) {
if (!child.is_element())
return;
auto styled_child_node = resolve_style(static_cast<const Element&>(child), styled_node.ptr());
printf("Created StyledNode{%p} for Element{%p}\n", styled_child_node.ptr(), &node);
});
return styled_node;
};
auto styled_root = resolve_style(*m_document, nullptr);
dump_tree(*styled_root);
return styled_root;
}
RefPtr<LayoutNode> Frame::generate_layout_tree(const StyledNode& styled_root)
{
auto create_layout_node = [](const StyledNode& styled_node) -> RefPtr<LayoutNode> {
if (styled_node.node() && styled_node.node()->is_document())
return adopt(*new LayoutDocument(static_cast<const Document&>(*styled_node.node()), styled_node));
switch (styled_node.display()) {
case Display::None:
return nullptr;
case Display::Block:
return adopt(*new LayoutBlock(styled_node.node(), &styled_node));
case Display::Inline:
return adopt(*new LayoutInline(*styled_node.node(), styled_node));
default:
ASSERT_NOT_REACHED();
}
};
Function<RefPtr<LayoutNode>(const StyledNode&)> build_layout_tree;
build_layout_tree = [&](const StyledNode& styled_node) -> RefPtr<LayoutNode> {
auto layout_node = create_layout_node(styled_node);
if (!layout_node)
return nullptr;
if (!styled_node.has_children())
return layout_node;
for (auto* styled_child = styled_node.first_child(); styled_child; styled_child = styled_child->next_sibling()) {
auto layout_child = build_layout_tree(*styled_child);
if (!layout_child)
continue;
if (layout_child->is_inline())
layout_node->inline_wrapper().append_child(*layout_child);
else
layout_node->append_child(*layout_child);
}
return layout_node;
};
return build_layout_tree(styled_root);
}
void Frame::layout()
{
if (!m_document)
return;
auto styled_root = generate_style_tree();
auto layout_root = generate_layout_tree(*styled_root);
layout_root->style().size().set_width(m_size.width());
printf("\033[33;1mLayout tree before layout:\033[0m\n");
dump_tree(*layout_root);
layout_root->layout();
printf("\033[33;1mLayout tree after layout:\033[0m\n");
dump_tree(*layout_root);
}