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ladybird/Libraries/LibWeb/Painting/SVGPathPaintable.cpp
Aliaksandr Kalenik d49809cba3 LibWeb: Remove paint-only properties resolution phase 
With per-paintable display list command caching now in place, the
separate paint-only properties resolution phase is no longer needed.
Resolution now happens inline during painting and its cost is amortized
since it only runs on cache miss.

Move all property resolution to point of consumption:
- is_visible() and visible_for_hit_testing() compute on the fly
- Filter resolution moved to assign_accumulated_visual_contexts()
- Border radii, outlines computed on access
- Box shadows, backdrop filter resolved inline during painting
- Background resolution moved into paint_background()
- Mask resolution moved to StackingContext::paint()
- Text fragment and SVG stroke properties resolved during painting
2026-03-04 19:35:45 +01:00

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/*
* Copyright (c) 2018-2022, Andreas Kling <andreas@ladybird.org>
* Copyright (c) 2023, MacDue <macdue@dueutil.tech>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <LibGfx/Quad.h>
#include <LibWeb/Painting/DisplayListRecorder.h>
#include <LibWeb/Painting/SVGPathPaintable.h>
#include <LibWeb/Painting/SVGSVGPaintable.h>
namespace Web::Painting {
GC_DEFINE_ALLOCATOR(SVGPathPaintable);
GC::Ref<SVGPathPaintable> SVGPathPaintable::create(Layout::SVGGraphicsBox const& layout_box)
{
return layout_box.heap().allocate<SVGPathPaintable>(layout_box);
}
SVGPathPaintable::SVGPathPaintable(Layout::SVGGraphicsBox const& layout_box)
: SVGGraphicsPaintable(layout_box)
{
}
void SVGPathPaintable::reset_for_relayout()
{
SVGGraphicsPaintable::reset_for_relayout();
m_computed_path.clear();
}
TraversalDecision SVGPathPaintable::hit_test(CSSPixelPoint position, HitTestType type, Function<TraversalDecision(HitTestResult)> const& callback) const
{
if (!computed_path().has_value())
return TraversalDecision::Continue;
auto transformed_bounding_box = computed_transforms().svg_to_css_pixels_transform().map_to_quad(computed_path()->bounding_box());
if (!transformed_bounding_box.contains(position.to_type<float>()))
return TraversalDecision::Continue;
return SVGGraphicsPaintable::hit_test(position, type, callback);
}
static Gfx::WindingRule to_gfx_winding_rule(SVG::FillRule fill_rule)
{
switch (fill_rule) {
case SVG::FillRule::Nonzero:
return Gfx::WindingRule::Nonzero;
case SVG::FillRule::Evenodd:
return Gfx::WindingRule::EvenOdd;
default:
VERIFY_NOT_REACHED();
}
}
void SVGPathPaintable::paint(DisplayListRecordingContext& context, PaintPhase phase) const
{
if (!is_visible() || !computed_path().has_value())
return;
SVGGraphicsPaintable::paint(context, phase);
if (phase != PaintPhase::Foreground)
return;
auto& graphics_element = dom_node();
auto const* svg_node = layout_box().first_ancestor_of_type<Layout::SVGSVGBox>();
auto svg_element_rect = svg_node->paintable_box()->absolute_rect();
auto offset = context.rounded_device_point(svg_element_rect.location()).to_type<int>().to_type<float>();
auto maybe_view_box = svg_node->dom_node().view_box();
auto paint_transform = computed_transforms().svg_to_device_pixels_transform(context);
auto path = computed_path()->copy_transformed(paint_transform);
path.offset(offset);
auto svg_viewport = [&] {
if (maybe_view_box.has_value())
return Gfx::FloatRect { maybe_view_box->min_x, maybe_view_box->min_y, maybe_view_box->width, maybe_view_box->height };
return Gfx::FloatRect { {}, svg_element_rect.size().to_type<float>() };
}();
if (context.draw_svg_geometry_for_clip_path()) {
// https://drafts.fxtf.org/css-masking/#ClipPathElement:
// The raw geometry of each child element exclusive of rendering properties such as fill, stroke, stroke-width
// within a clipPath conceptually defines a 1-bit mask (with the possible exception of anti-aliasing along
// the edge of the geometry) which represents the silhouette of the graphics associated with that element.
context.display_list_recorder().fill_path({
.path = path,
.paint_style_or_color = Gfx::Color(Color::Black),
.winding_rule = to_gfx_winding_rule(graphics_element.clip_rule().value_or(SVG::ClipRule::Nonzero)),
.should_anti_alias = should_anti_alias(),
});
return;
}
SVG::SVGPaintContext paint_context {
.viewport = svg_viewport,
.path_bounding_box = computed_path()->bounding_box(),
.paint_transform = paint_transform,
};
auto paint_fill = [&] {
auto fill_opacity = graphics_element.fill_opacity().value_or(1);
auto winding_rule = to_gfx_winding_rule(graphics_element.fill_rule().value_or(SVG::FillRule::Nonzero));
if (auto paint_style = graphics_element.fill_paint_style(paint_context, &context); paint_style.has_value()) {
context.display_list_recorder().fill_path({
.path = path,
.opacity = fill_opacity,
.paint_style_or_color = *paint_style,
.winding_rule = winding_rule,
.should_anti_alias = should_anti_alias(),
});
} else if (auto fill_color = graphics_element.fill_color(); fill_color.has_value()) {
context.display_list_recorder().fill_path({
.path = path,
.paint_style_or_color = fill_color->with_opacity(fill_opacity),
.winding_rule = winding_rule,
.should_anti_alias = should_anti_alias(),
});
}
};
auto paint_stroke = [&] {
Gfx::Path::CapStyle cap_style;
switch (graphics_element.stroke_linecap().value_or(CSS::InitialValues::stroke_linecap())) {
case CSS::StrokeLinecap::Butt:
cap_style = Gfx::Path::CapStyle::Butt;
break;
case CSS::StrokeLinecap::Round:
cap_style = Gfx::Path::CapStyle::Round;
break;
case CSS::StrokeLinecap::Square:
cap_style = Gfx::Path::CapStyle::Square;
break;
}
Gfx::Path::JoinStyle join_style;
switch (graphics_element.stroke_linejoin().value_or(CSS::InitialValues::stroke_linejoin())) {
case CSS::StrokeLinejoin::Miter:
join_style = Gfx::Path::JoinStyle::Miter;
break;
case CSS::StrokeLinejoin::Round:
join_style = Gfx::Path::JoinStyle::Round;
break;
case CSS::StrokeLinejoin::Bevel:
join_style = Gfx::Path::JoinStyle::Bevel;
break;
}
auto miter_limit = graphics_element.stroke_miterlimit().value_or(0);
auto stroke_opacity = graphics_element.stroke_opacity().value_or(1);
// Note: This is assuming .x_scale() == .y_scale() (which it does currently).
auto viewbox_scale = paint_transform.x_scale();
float stroke_thickness = graphics_element.stroke_width().value_or(1) * viewbox_scale;
auto stroke_dasharray = graphics_element.stroke_dasharray();
for (auto& value : stroke_dasharray)
value *= viewbox_scale;
float stroke_dashoffset = graphics_element.stroke_dashoffset().value_or(0) * viewbox_scale;
if (auto paint_style = graphics_element.stroke_paint_style(paint_context, &context); paint_style.has_value()) {
context.display_list_recorder().stroke_path({
.cap_style = cap_style,
.join_style = join_style,
.miter_limit = static_cast<float>(miter_limit),
.dash_array = stroke_dasharray,
.dash_offset = stroke_dashoffset,
.path = path,
.opacity = stroke_opacity,
.paint_style_or_color = *paint_style,
.thickness = stroke_thickness,
.should_anti_alias = should_anti_alias(),
});
} else if (auto stroke_color = graphics_element.stroke_color(); stroke_color.has_value()) {
context.display_list_recorder().stroke_path({
.cap_style = cap_style,
.join_style = join_style,
.miter_limit = static_cast<float>(miter_limit),
.dash_array = stroke_dasharray,
.dash_offset = stroke_dashoffset,
.path = path,
.paint_style_or_color = stroke_color->with_opacity(stroke_opacity),
.thickness = stroke_thickness,
.should_anti_alias = should_anti_alias(),
});
}
};
for (auto paint_order : graphics_element.paint_order()) {
switch (paint_order) {
case CSS::PaintOrder::Fill:
paint_fill();
break;
case CSS::PaintOrder::Stroke:
paint_stroke();
break;
case CSS::PaintOrder::Markers:
// FIXME: Implement marker painting
break;
}
}
}
}
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