RGBCube/serenity
1
Fork 0
mirror of https://github.com/RGBCube/serenity synced 2025-07-26 16:57:34 +00:00
Code Issues Activity Actions

LibWeb: Move PaintingBox to its own .cpp and .h files

Browse source
This commit is contained in:
Andreas Kling 2022-03-10 23:13:37 +01:00
parent f017c1c064
commit ba606d9057
27 changed files with 499 additions and 472 deletions
Download patch file Download diff file Expand all files Collapse all files

297
Userland/Libraries/LibWeb/Painting/Paintable.cpp
View file

@ -5,288 +5,11 @@
*/
#include <LibWeb/DOM/Document.h>
#include <LibWeb/HTML/HTMLHtmlElement.h>
#include <LibWeb/Layout/BlockContainer.h>
#include <LibWeb/Painting/BackgroundPainting.h>
#include <LibWeb/Painting/Paintable.h>
#include <LibWeb/Painting/ShadowPainting.h>
namespace Web::Painting {
NonnullRefPtr<PaintableBox> PaintableBox::create(Layout::Box const& layout_box)
{
return adopt_ref(*new PaintableBox(layout_box));
}
PaintableBox::PaintableBox(Layout::Box const& layout_box)
: Paintable(layout_box)
{
}
PaintableBox::~PaintableBox()
{
}
PaintableWithLines::PaintableWithLines(Layout::BlockContainer const& layout_box)
: PaintableBox(layout_box)
{
}
PaintableWithLines::~PaintableWithLines()
{
}
void PaintableBox::set_offset(const Gfx::FloatPoint& offset)
{
if (m_offset == offset)
return;
m_offset = offset;
// FIXME: This const_cast is gross.
const_cast<Layout::Box&>(layout_box()).did_set_rect();
}
void PaintableBox::set_content_size(Gfx::FloatSize const& size)
{
if (m_content_size == size)
return;
m_content_size = size;
// FIXME: This const_cast is gross.
const_cast<Layout::Box&>(layout_box()).did_set_rect();
}
Gfx::FloatPoint PaintableBox::effective_offset() const
{
if (m_containing_line_box_fragment.has_value()) {
auto const& fragment = layout_box().containing_block()->paint_box()->line_boxes()[m_containing_line_box_fragment->line_box_index].fragments()[m_containing_line_box_fragment->fragment_index];
return fragment.offset();
}
return m_offset;
}
Gfx::FloatRect PaintableBox::absolute_rect() const
{
Gfx::FloatRect rect { effective_offset(), content_size() };
for (auto* block = layout_box().containing_block(); block; block = block->containing_block())
rect.translate_by(block->paint_box()->effective_offset());
return rect;
}
void PaintableBox::set_containing_line_box_fragment(Optional<Layout::LineBoxFragmentCoordinate> fragment_coordinate)
{
m_containing_line_box_fragment = fragment_coordinate;
}
Painting::StackingContext* PaintableBox::enclosing_stacking_context()
{
for (auto* ancestor = layout_box().parent(); ancestor; ancestor = ancestor->parent()) {
if (!is<Layout::Box>(ancestor))
continue;
auto& ancestor_box = static_cast<Layout::Box&>(const_cast<Layout::NodeWithStyle&>(*ancestor));
if (!ancestor_box.establishes_stacking_context())
continue;
VERIFY(ancestor_box.paint_box()->stacking_context());
return const_cast<StackingContext*>(ancestor_box.paint_box()->stacking_context());
}
// We should always reach the Layout::InitialContainingBlock stacking context.
VERIFY_NOT_REACHED();
}
void PaintableBox::paint(PaintContext& context, PaintPhase phase) const
{
if (!is_visible())
return;
if (phase == PaintPhase::Background) {
paint_background(context);
paint_box_shadow(context);
}
if (phase == PaintPhase::Border) {
paint_border(context);
}
if (phase == PaintPhase::Overlay && layout_box().dom_node() && layout_box().document().inspected_node() == layout_box().dom_node()) {
auto content_rect = absolute_rect();
auto margin_box = box_model().margin_box();
Gfx::FloatRect margin_rect;
margin_rect.set_x(absolute_x() - margin_box.left);
margin_rect.set_width(content_width() + margin_box.left + margin_box.right);
margin_rect.set_y(absolute_y() - margin_box.top);
margin_rect.set_height(content_height() + margin_box.top + margin_box.bottom);
auto border_rect = absolute_border_box_rect();
auto padding_rect = absolute_padding_box_rect();
auto paint_inspector_rect = [&](Gfx::FloatRect const& rect, Color color) {
context.painter().fill_rect(enclosing_int_rect(rect), Color(color).with_alpha(100));
context.painter().draw_rect(enclosing_int_rect(rect), Color(color));
};
paint_inspector_rect(margin_rect, Color::Yellow);
paint_inspector_rect(padding_rect, Color::Cyan);
paint_inspector_rect(border_rect, Color::Green);
paint_inspector_rect(content_rect, Color::Magenta);
StringBuilder builder;
if (layout_box().dom_node())
builder.append(layout_box().dom_node()->debug_description());
else
builder.append(layout_box().debug_description());
builder.appendff(" {}x{} @ {},{}", border_rect.width(), border_rect.height(), border_rect.x(), border_rect.y());
auto size_text = builder.to_string();
auto size_text_rect = border_rect;
size_text_rect.set_y(border_rect.y() + border_rect.height());
size_text_rect.set_top(size_text_rect.top());
size_text_rect.set_width((float)context.painter().font().width(size_text) + 4);
size_text_rect.set_height(context.painter().font().glyph_height() + 4);
context.painter().fill_rect(enclosing_int_rect(size_text_rect), context.palette().color(Gfx::ColorRole::Tooltip));
context.painter().draw_rect(enclosing_int_rect(size_text_rect), context.palette().threed_shadow1());
context.painter().draw_text(enclosing_int_rect(size_text_rect), size_text, Gfx::TextAlignment::Center, context.palette().color(Gfx::ColorRole::TooltipText));
}
if (phase == PaintPhase::FocusOutline && layout_box().dom_node() && layout_box().dom_node()->is_element() && verify_cast<DOM::Element>(*layout_box().dom_node()).is_focused()) {
context.painter().draw_rect(enclosing_int_rect(absolute_rect()), context.palette().focus_outline());
}
}
void PaintableBox::paint_border(PaintContext& context) const
{
auto borders_data = BordersData {
.top = computed_values().border_top(),
.right = computed_values().border_right(),
.bottom = computed_values().border_bottom(),
.left = computed_values().border_left(),
};
paint_all_borders(context, absolute_border_box_rect(), normalized_border_radius_data(), borders_data);
}
void PaintableBox::paint_background(PaintContext& context) const
{
// If the body's background properties were propagated to the root element, do no re-paint the body's background.
if (layout_box().is_body() && document().html_element()->should_use_body_background_properties())
return;
Gfx::IntRect background_rect;
Color background_color = computed_values().background_color();
auto* background_layers = &computed_values().background_layers();
if (layout_box().is_root_element()) {
// CSS 2.1 Appendix E.2: If the element is a root element, paint the background over the entire canvas.
background_rect = context.viewport_rect();
// Section 2.11.2: If the computed value of background-image on the root element is none and its background-color is transparent,
// user agents must instead propagate the computed values of the background properties from that elements first HTML BODY child element.
if (document().html_element()->should_use_body_background_properties()) {
background_layers = document().background_layers();
background_color = document().background_color(context.palette());
}
} else {
background_rect = enclosing_int_rect(absolute_padding_box_rect());
}
// HACK: If the Box has a border, use the bordered_rect to paint the background.
// This way if we have a border-radius there will be no gap between the filling and actual border.
if (computed_values().border_top().width || computed_values().border_right().width || computed_values().border_bottom().width || computed_values().border_left().width)
background_rect = enclosing_int_rect(absolute_border_box_rect());
Painting::paint_background(context, layout_box(), background_rect, background_color, background_layers, normalized_border_radius_data());
}
void PaintableBox::paint_box_shadow(PaintContext& context) const
{
auto box_shadow_data = computed_values().box_shadow();
if (box_shadow_data.is_empty())
return;
Vector<BoxShadowData> resolved_box_shadow_data;
resolved_box_shadow_data.ensure_capacity(box_shadow_data.size());
for (auto const& layer : box_shadow_data) {
resolved_box_shadow_data.empend(
layer.color,
static_cast<int>(layer.offset_x.to_px(layout_box())),
static_cast<int>(layer.offset_y.to_px(layout_box())),
static_cast<int>(layer.blur_radius.to_px(layout_box())),
static_cast<int>(layer.spread_distance.to_px(layout_box())),
layer.placement == CSS::BoxShadowPlacement::Outer ? BoxShadowPlacement::Outer : BoxShadowPlacement::Inner);
}
Painting::paint_box_shadow(context, enclosing_int_rect(absolute_border_box_rect()), resolved_box_shadow_data);
}
BorderRadiusData PaintableBox::normalized_border_radius_data() const
{
return Painting::normalized_border_radius_data(layout_box(), absolute_border_box_rect(),
computed_values().border_top_left_radius(),
computed_values().border_top_right_radius(),
computed_values().border_bottom_right_radius(),
computed_values().border_bottom_left_radius());
}
void PaintableBox::before_children_paint(PaintContext& context, PaintPhase) const
{
// FIXME: Support more overflow variations.
if (computed_values().overflow_x() == CSS::Overflow::Hidden && computed_values().overflow_y() == CSS::Overflow::Hidden) {
context.painter().save();
context.painter().add_clip_rect(enclosing_int_rect(absolute_border_box_rect()));
}
}
void PaintableBox::after_children_paint(PaintContext& context, PaintPhase) const
{
// FIXME: Support more overflow variations.
if (computed_values().overflow_x() == CSS::Overflow::Hidden && computed_values().overflow_y() == CSS::Overflow::Hidden)
context.painter().restore();
}
void PaintableWithLines::paint(PaintContext& context, PaintPhase phase) const
{
if (!is_visible())
return;
PaintableBox::paint(context, phase);
if (m_line_boxes.is_empty())
return;
bool should_clip_overflow = computed_values().overflow_x() != CSS::Overflow::Visible && computed_values().overflow_y() != CSS::Overflow::Visible;
if (should_clip_overflow) {
context.painter().save();
// FIXME: Handle overflow-x and overflow-y being different values.
context.painter().add_clip_rect(enclosing_int_rect(absolute_padding_box_rect()));
auto scroll_offset = static_cast<Layout::BlockContainer const&>(layout_box()).scroll_offset();
context.painter().translate(-scroll_offset.to_type<int>());
}
for (auto& line_box : m_line_boxes) {
for (auto& fragment : line_box.fragments()) {
if (context.should_show_line_box_borders())
context.painter().draw_rect(enclosing_int_rect(fragment.absolute_rect()), Color::Green);
const_cast<Layout::LineBoxFragment&>(fragment).paint(context, phase);
}
}
if (should_clip_overflow) {
context.painter().restore();
}
// FIXME: Merge this loop with the above somehow..
if (phase == PaintPhase::FocusOutline) {
for (auto& line_box : m_line_boxes) {
for (auto& fragment : line_box.fragments()) {
auto* node = fragment.layout_node().dom_node();
if (!node)
continue;
auto* parent = node->parent_element();
if (!parent)
continue;
if (parent->is_focused())
context.painter().draw_rect(enclosing_int_rect(fragment.absolute_rect()), context.palette().focus_outline());
}
}
}
}
void Paintable::handle_mousedown(Badge<EventHandler>, Gfx::IntPoint const&, unsigned, unsigned)
{
}
@ -315,24 +38,4 @@ bool Paintable::handle_mousewheel(Badge<EventHandler>, Gfx::IntPoint const&, uns
return false;
}
bool PaintableWithLines::handle_mousewheel(Badge<EventHandler>, Gfx::IntPoint const&, unsigned, unsigned, int wheel_delta_x, int wheel_delta_y)
{
if (!layout_box().is_scrollable())
return false;
auto new_offset = layout_box().scroll_offset();
new_offset.translate_by(wheel_delta_x, wheel_delta_y);
const_cast<Layout::BlockContainer&>(layout_box()).set_scroll_offset(new_offset);
return true;
}
Layout::BlockContainer const& PaintableWithLines::layout_box() const
{
return static_cast<Layout::BlockContainer const&>(PaintableBox::layout_box());
}
Layout::BlockContainer& PaintableWithLines::layout_box()
{
return static_cast<Layout::BlockContainer&>(PaintableBox::layout_box());
}
}