LibWeb: More correctly paint joins between borders

The refactor of the border painting mainly to handle:
1. Single border with minor border radius.
2. Different border widths and border colors joined situations.
This refactor only apply to solid border.

The main differece is to use Path.fill to paint each border,
not fill_rect anymore. There's a special case need to consider.
The Path.fill will leave shared edge blank between two borders.
To handle this, we decide to combine the borders with same color
to paint together.
This commit is contained in:
zhiyuang 2023-07-10 16:56:22 +08:00 committed by Sam Atkins
parent 06a44ac2ff
commit 97130a4e66
Notes: sideshowbarker 2024-07-17 08:37:36 +09:00
3 changed files with 403 additions and 154 deletions

View file

@ -57,6 +57,19 @@
border-radius: 10px;
}
.box-1-11 {
border-top: 20px solid black;
border-radius: 10px;
}
.box-1-12 {
border-radius: 20px;
border-top: 5px solid red;
border-right: 10px solid yellow;
border-bottom: 15px solid lime;
border-left: 20px solid blue;
}
.box-3 {
border: 1px solid black;
border-top-right-radius: 10px;
@ -399,6 +412,12 @@
<em>All round 10px 20px thick outset</em>
<div class="box box-1-10"></div>
<br>
<em>Single border with minor radius</em>
<div class="box box-1-11"></div>
<br>
<em>Four border with different colors</em>
<div class="box box-1-12"></div>
<br>
<em>top-left 10px</em>
<div class="box box-2"></div>
<br>

View file

@ -6,6 +6,7 @@
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/CircularQueue.h>
#include <LibGfx/AntiAliasingPainter.h>
#include <LibGfx/Painter.h>
#include <LibGfx/Path.h>
@ -54,7 +55,37 @@ BorderRadiiData normalized_border_radii_data(Layout::Node const& node, CSSPixelR
return BorderRadiiData { top_left_radius_px, top_right_radius_px, bottom_right_radius_px, bottom_left_radius_px };
}
void paint_border(PaintContext& context, BorderEdge edge, DevicePixelRect const& rect, BorderRadiiData const& border_radii_data, BordersData const& borders_data)
Gfx::Color border_color(BorderEdge edge, BordersData const& borders_data)
{
auto const& border_data = [&] {
switch (edge) {
case BorderEdge::Top:
return borders_data.top;
case BorderEdge::Right:
return borders_data.right;
case BorderEdge::Bottom:
return borders_data.bottom;
case BorderEdge::Left:
return borders_data.left;
default:
VERIFY_NOT_REACHED();
}
}();
if (border_data.line_style == CSS::LineStyle::Inset) {
auto top_left_color = Color::from_rgb(0x5a5a5a);
auto bottom_right_color = Color::from_rgb(0x888888);
return (edge == BorderEdge::Left || edge == BorderEdge::Top) ? top_left_color : bottom_right_color;
} else if (border_data.line_style == CSS::LineStyle::Outset) {
auto top_left_color = Color::from_rgb(0x888888);
auto bottom_right_color = Color::from_rgb(0x5a5a5a);
return (edge == BorderEdge::Left || edge == BorderEdge::Top) ? top_left_color : bottom_right_color;
}
return border_data.color;
}
void paint_border(PaintContext& context, BorderEdge edge, DevicePixelRect const& rect, Gfx::AntiAliasingPainter::CornerRadius const& radius, Gfx::AntiAliasingPainter::CornerRadius const& opposite_radius, BordersData const& borders_data, Gfx::Path& path, bool last)
{
auto const& border_data = [&] {
switch (edge) {
@ -73,7 +104,7 @@ void paint_border(PaintContext& context, BorderEdge edge, DevicePixelRect const&
if (width <= 0)
return;
auto color = border_data.color;
auto color = border_color(edge, borders_data);
auto border_style = border_data.line_style;
auto device_pixel_width = context.enclosing_device_pixels(width);
@ -95,16 +126,6 @@ void paint_border(PaintContext& context, BorderEdge edge, DevicePixelRect const&
}
};
if (border_style == CSS::LineStyle::Inset) {
auto top_left_color = Color::from_rgb(0x5a5a5a);
auto bottom_right_color = Color::from_rgb(0x888888);
color = (edge == BorderEdge::Left || edge == BorderEdge::Top) ? top_left_color : bottom_right_color;
} else if (border_style == CSS::LineStyle::Outset) {
auto top_left_color = Color::from_rgb(0x888888);
auto bottom_right_color = Color::from_rgb(0x5a5a5a);
color = (edge == BorderEdge::Left || edge == BorderEdge::Top) ? top_left_color : bottom_right_color;
}
auto gfx_line_style = Gfx::Painter::LineStyle::Solid;
if (border_style == CSS::LineStyle::Dotted)
gfx_line_style = Gfx::Painter::LineStyle::Dotted;
@ -140,69 +161,335 @@ void paint_border(PaintContext& context, BorderEdge edge, DevicePixelRect const&
return;
}
auto draw_horizontal_or_vertical_line = [&](auto p1, auto p2) {
// Note: Using fill_rect() here since draw_line() produces some overlapping pixels
// at the end of a line, which cause issues on borders with transparency.
p2.translate_by(1, 1);
context.painter().fill_rect(Gfx::IntRect::from_two_points(p1.template to_type<int>(), p2.template to_type<int>()), color);
};
auto draw_border = [&](Vector<Gfx::FloatPoint> const& points, bool joined_corner_has_inner_corner, bool opposite_joined_corner_has_inner_corner, Gfx::FloatSize joined_inner_corner_offset, Gfx::FloatSize opposite_joined_inner_corner_offset, bool ready_to_draw) {
int current = 0;
path.move_to(points[current++]);
path.elliptical_arc_to(
points[current++],
Gfx::FloatSize(radius.horizontal_radius, radius.vertical_radius),
0,
false,
false);
path.line_to(points[current++]);
if (joined_corner_has_inner_corner) {
path.elliptical_arc_to(
points[current++],
Gfx::FloatSize(radius.horizontal_radius - joined_inner_corner_offset.width(), radius.vertical_radius - joined_inner_corner_offset.height()),
0,
false,
true);
}
path.line_to(points[current++]);
if (opposite_joined_corner_has_inner_corner) {
path.elliptical_arc_to(
points[current++],
Gfx::FloatSize(opposite_radius.horizontal_radius - opposite_joined_inner_corner_offset.width(), opposite_radius.vertical_radius - opposite_joined_inner_corner_offset.height()),
0,
false,
true);
}
path.line_to(points[current++]);
path.elliptical_arc_to(
points[current++],
Gfx::FloatSize(opposite_radius.horizontal_radius, opposite_radius.vertical_radius),
0,
false,
false);
auto draw_border = [&](auto const& border, auto const& radius, auto const& opposite_border, auto const& opposite_radius, auto p1_step_translate, auto p2_step_translate) {
auto [p1, p2] = points_for_edge(edge, rect);
auto p1_step = radius ? 0 : context.enclosing_device_pixels(border.width).value() / device_pixel_width.value();
auto p2_step = opposite_radius ? 0 : context.enclosing_device_pixels(opposite_border.width).value() / device_pixel_width.value();
for (DevicePixels i = 0; i < device_pixel_width; ++i) {
draw_horizontal_or_vertical_line(p1, p2);
p1_step_translate(p1, p1_step);
p2_step_translate(p2, p2_step);
// If joined borders have the same color, combine them to draw together.
if (ready_to_draw) {
Gfx::AntiAliasingPainter aa_painter { context.painter() };
path.close_all_subpaths();
aa_painter.fill_path(path, color, Gfx::Painter::WindingRule::EvenOdd);
path.clear();
}
};
// FIXME: There is some overlap where two borders (without border radii meet),
// which produces artifacts if the border color has some transparency.
// (this only happens if the angle between the two borders is not 45 degrees)
auto compute_midpoint = [](int horizontal_radius, int vertical_radius) {
if (horizontal_radius == 0 && vertical_radius == 0) {
return Gfx::FloatPoint(0, 0);
}
// FIXME: this middle point rule seems not exacly the same as main browsers
// compute the midpoint based on point whose tangent slope of 1
// https://math.stackexchange.com/questions/3325134/find-the-points-on-the-ellipse-where-the-slope-of-the-tangent-line-is-1
return Gfx::FloatPoint(
(horizontal_radius * horizontal_radius) / AK::sqrt(1.0f * horizontal_radius * horizontal_radius + vertical_radius * vertical_radius),
(vertical_radius * vertical_radius) / AK::sqrt(1.0f * horizontal_radius * horizontal_radius + vertical_radius * vertical_radius));
};
/**
* 0 /-------------\ 7
* / /-----------\ \
* /-/ 3 4 \-\
* 1 2 5 6
* For each border edge, need to compute 8 points at most, then paint them as closed path.
* 8 points are the most complicated case, it happens when the joined border width is not 0 and border radius larger than border width on both side.
* If border radius is smaller than the border width, then the inner corner of the border corner is a right angle.
*/
switch (edge) {
case BorderEdge::Top:
case BorderEdge::Top: {
auto joined_border_width = context.enclosing_device_pixels(borders_data.left.width);
auto opposite_joined_border_width = context.enclosing_device_pixels(borders_data.right.width);
bool joined_corner_has_inner_corner = device_pixel_width < radius.vertical_radius && joined_border_width < radius.horizontal_radius;
bool opposite_joined_corner_has_inner_corner = device_pixel_width < opposite_radius.vertical_radius && opposite_joined_border_width < opposite_radius.horizontal_radius;
Gfx::FloatPoint joined_corner_endpoint_offset;
Gfx::FloatPoint opposite_joined_border_corner_offset;
if (borders_data.left.width == 0) {
joined_corner_endpoint_offset = Gfx::FloatPoint(-radius.horizontal_radius, radius.vertical_radius);
} else {
auto midpoint = compute_midpoint(radius.horizontal_radius, radius.vertical_radius);
joined_corner_endpoint_offset = Gfx::FloatPoint(-midpoint.x(), radius.vertical_radius - midpoint.y());
}
if (borders_data.right.width == 0) {
opposite_joined_border_corner_offset = Gfx::FloatPoint(opposite_radius.horizontal_radius, opposite_radius.vertical_radius);
} else {
auto midpoint = compute_midpoint(opposite_radius.horizontal_radius, opposite_radius.vertical_radius);
opposite_joined_border_corner_offset = Gfx::FloatPoint(midpoint.x(), opposite_radius.vertical_radius - midpoint.y());
}
Vector<Gfx::FloatPoint, 8> points;
points.append(Gfx::FloatPoint(rect.top_left().to_type<int>()));
points.append(Gfx::FloatPoint(rect.top_left().to_type<int>()) + joined_corner_endpoint_offset);
if (joined_corner_has_inner_corner) {
Gfx::FloatPoint midpoint = compute_midpoint(
radius.horizontal_radius - joined_border_width.value(),
radius.vertical_radius - device_pixel_width.value());
Gfx::FloatPoint inner_corner_endpoint_offset = Gfx::FloatPoint(
-midpoint.x(),
radius.vertical_radius - device_pixel_width.value() - midpoint.y());
points.append(Gfx::FloatPoint(rect.bottom_left().to_type<int>()) + inner_corner_endpoint_offset);
points.append(Gfx::FloatPoint(rect.bottom_left().to_type<int>()));
} else {
Gfx::FloatPoint inner_right_angle_offset = Gfx::FloatPoint(
joined_border_width.value() - radius.horizontal_radius,
0);
points.append(Gfx::FloatPoint(rect.bottom_left().to_type<int>()) + inner_right_angle_offset);
}
if (opposite_joined_corner_has_inner_corner) {
Gfx::FloatPoint midpoint = compute_midpoint(
opposite_radius.horizontal_radius - opposite_joined_border_width.value(),
opposite_radius.vertical_radius - device_pixel_width.value());
Gfx::FloatPoint inner_corner_endpoint_offset = Gfx::FloatPoint(
midpoint.x(),
opposite_radius.vertical_radius - device_pixel_width.value() - midpoint.y());
points.append(Gfx::FloatPoint(rect.bottom_right().to_type<int>()));
points.append(Gfx::FloatPoint(rect.bottom_right().to_type<int>()) + inner_corner_endpoint_offset);
} else {
Gfx::FloatPoint inner_right_angle_offset = Gfx::FloatPoint(
opposite_joined_border_width.value() - opposite_radius.horizontal_radius,
0);
points.append(Gfx::FloatPoint(rect.bottom_right().to_type<int>()) - inner_right_angle_offset);
}
points.append(Gfx::FloatPoint(rect.top_right().to_type<int>()) + opposite_joined_border_corner_offset);
points.append(Gfx::FloatPoint(rect.top_right().to_type<int>()));
draw_border(
borders_data.left, border_radii_data.top_left, borders_data.right, border_radii_data.top_right,
[](auto& current_p1, auto step) {
current_p1.translate_by(step, 1);
},
[](auto& current_p2, auto step) {
current_p2.translate_by(-step, 1);
});
points,
joined_corner_has_inner_corner,
opposite_joined_corner_has_inner_corner,
Gfx::FloatSize(joined_border_width.value(), device_pixel_width.value()),
Gfx::FloatSize(opposite_joined_border_width.value(), device_pixel_width.value()),
last || color != border_color(BorderEdge::Right, borders_data));
break;
case BorderEdge::Right:
}
case BorderEdge::Right: {
auto joined_border_width = context.enclosing_device_pixels(borders_data.top.width);
auto opposite_joined_border_width = context.enclosing_device_pixels(borders_data.bottom.width);
bool joined_corner_has_inner_corner = device_pixel_width < radius.horizontal_radius && joined_border_width < radius.vertical_radius;
bool opposite_joined_corner_has_inner_corner = device_pixel_width < opposite_radius.horizontal_radius && opposite_joined_border_width < opposite_radius.vertical_radius;
Gfx::FloatPoint joined_corner_endpoint_offset;
Gfx::FloatPoint opposite_joined_border_corner_offset;
if (borders_data.top.width == 0) {
joined_corner_endpoint_offset = Gfx::FloatPoint(-radius.horizontal_radius, -radius.vertical_radius);
} else {
auto midpoint = compute_midpoint(radius.horizontal_radius, radius.vertical_radius);
joined_corner_endpoint_offset = Gfx::FloatPoint(midpoint.x() - radius.horizontal_radius, -midpoint.y());
}
if (borders_data.bottom.width == 0) {
opposite_joined_border_corner_offset = Gfx::FloatPoint(-opposite_radius.horizontal_radius, opposite_radius.vertical_radius);
} else {
auto midpoint = compute_midpoint(opposite_radius.horizontal_radius, opposite_radius.vertical_radius);
opposite_joined_border_corner_offset = Gfx::FloatPoint(midpoint.x() - opposite_radius.horizontal_radius, midpoint.y());
}
Vector<Gfx::FloatPoint, 8> points;
points.append(Gfx::FloatPoint(rect.top_right().to_type<int>()));
points.append(Gfx::FloatPoint(rect.top_right().to_type<int>()) + joined_corner_endpoint_offset);
if (joined_corner_has_inner_corner) {
auto midpoint = compute_midpoint(
radius.horizontal_radius - device_pixel_width.value(),
radius.vertical_radius - joined_border_width.value());
Gfx::FloatPoint inner_corner = Gfx::FloatPoint(
-(radius.horizontal_radius - midpoint.x() - device_pixel_width.value()),
-midpoint.y());
points.append(Gfx::FloatPoint(rect.top_left().to_type<int>()) + inner_corner);
points.append(Gfx::FloatPoint(rect.top_left().to_type<int>()));
} else {
Gfx::FloatPoint inner_right_angle_offset = Gfx::FloatPoint(0, joined_border_width.value() - radius.horizontal_radius);
points.append(Gfx::FloatPoint(rect.top_left().to_type<int>()) + inner_right_angle_offset);
}
if (opposite_joined_corner_has_inner_corner) {
auto midpoint = compute_midpoint(
opposite_radius.horizontal_radius - device_pixel_width.value(),
opposite_radius.vertical_radius - opposite_joined_border_width.value());
Gfx::FloatPoint inner_corner = Gfx::FloatPoint(
-(opposite_radius.horizontal_radius - midpoint.x() - device_pixel_width.value()),
midpoint.y());
points.append(Gfx::FloatPoint(rect.bottom_left().to_type<int>()));
points.append(Gfx::FloatPoint(rect.bottom_left().to_type<int>()) + inner_corner);
} else {
Gfx::FloatPoint inner_right_angle_offset = Gfx::FloatPoint(0, opposite_joined_border_width.value() - opposite_radius.horizontal_radius);
points.append(Gfx::FloatPoint(rect.bottom_left().to_type<int>()) - inner_right_angle_offset);
}
points.append(Gfx::FloatPoint(rect.bottom_right().to_type<int>()) + opposite_joined_border_corner_offset);
points.append(Gfx::FloatPoint(rect.bottom_right().to_type<int>()));
draw_border(
borders_data.top, border_radii_data.top_right, borders_data.bottom, border_radii_data.bottom_right,
[](auto& current_p1, auto step) {
current_p1.translate_by(-1, step);
},
[](auto& current_p2, auto step) {
current_p2.translate_by(-1, -step);
});
points,
joined_corner_has_inner_corner,
opposite_joined_corner_has_inner_corner,
Gfx::FloatSize(device_pixel_width.value(), joined_border_width.value()),
Gfx::FloatSize(device_pixel_width.value(), opposite_joined_border_width.value()),
last || color != border_color(BorderEdge::Bottom, borders_data));
break;
case BorderEdge::Bottom:
}
case BorderEdge::Bottom: {
auto joined_border_width = context.enclosing_device_pixels(borders_data.right.width);
auto opposite_joined_border_width = context.enclosing_device_pixels(borders_data.left.width);
bool joined_corner_has_inner_corner = device_pixel_width < radius.vertical_radius && joined_border_width < radius.horizontal_radius;
bool opposite_joined_corner_has_inner_corner = device_pixel_width < opposite_radius.vertical_radius && opposite_joined_border_width < opposite_radius.horizontal_radius;
Gfx::FloatPoint joined_corner_endpoint_offset;
Gfx::FloatPoint opposite_joined_border_corner_offset;
if (borders_data.right.width == 0) {
joined_corner_endpoint_offset = Gfx::FloatPoint(radius.horizontal_radius, -radius.vertical_radius);
} else {
auto midpoint = compute_midpoint(radius.horizontal_radius, radius.vertical_radius);
joined_corner_endpoint_offset = Gfx::FloatPoint(midpoint.x(), midpoint.y() - radius.vertical_radius);
}
if (borders_data.left.width == 0) {
opposite_joined_border_corner_offset = Gfx::FloatPoint(-opposite_radius.horizontal_radius, -opposite_radius.vertical_radius);
} else {
auto midpoint = compute_midpoint(opposite_radius.horizontal_radius, opposite_radius.vertical_radius);
opposite_joined_border_corner_offset = Gfx::FloatPoint(-midpoint.x(), midpoint.y() - opposite_radius.vertical_radius);
}
Vector<Gfx::FloatPoint, 8> points;
points.append(Gfx::FloatPoint(rect.bottom_right().to_type<int>()));
points.append(Gfx::FloatPoint(rect.bottom_right().to_type<int>()) + joined_corner_endpoint_offset);
if (joined_corner_has_inner_corner) {
auto midpoint = compute_midpoint(
radius.horizontal_radius - joined_border_width.value(),
radius.vertical_radius - device_pixel_width.value());
Gfx::FloatPoint inner_corner = Gfx::FloatPoint(midpoint.x(), -(radius.vertical_radius - midpoint.y() - device_pixel_width.value()));
points.append(Gfx::FloatPoint(rect.top_right().to_type<int>()) + inner_corner);
points.append(Gfx::FloatPoint(rect.top_right().to_type<int>()));
} else {
Gfx::FloatPoint inner_right_angle_offset = Gfx::FloatPoint(joined_border_width.value() - radius.horizontal_radius, 0);
points.append(Gfx::FloatPoint(rect.top_right().to_type<int>()) - inner_right_angle_offset);
}
if (opposite_joined_corner_has_inner_corner) {
auto midpoint = compute_midpoint(
opposite_radius.horizontal_radius - opposite_joined_border_width.value(),
opposite_radius.vertical_radius - device_pixel_width.value());
Gfx::FloatPoint inner_corner = Gfx::FloatPoint(
-midpoint.x(),
-(opposite_radius.vertical_radius - midpoint.y() - device_pixel_width.value()));
points.append(Gfx::FloatPoint(rect.top_left().to_type<int>()));
points.append(Gfx::FloatPoint(rect.top_left().to_type<int>()) + inner_corner);
} else {
Gfx::FloatPoint inner_right_angle_offset = Gfx::FloatPoint(opposite_joined_border_width.value() - opposite_radius.horizontal_radius, 0);
points.append(Gfx::FloatPoint(rect.top_left().to_type<int>()) + inner_right_angle_offset);
}
points.append(Gfx::FloatPoint(rect.bottom_left().to_type<int>()) + opposite_joined_border_corner_offset);
points.append(Gfx::FloatPoint(rect.bottom_left().to_type<int>()));
draw_border(
borders_data.left, border_radii_data.bottom_left, borders_data.right, border_radii_data.bottom_right,
[](auto& current_p1, auto step) {
current_p1.translate_by(step, -1);
},
[](auto& current_p2, auto step) {
current_p2.translate_by(-step, -1);
});
points,
joined_corner_has_inner_corner,
opposite_joined_corner_has_inner_corner,
Gfx::FloatSize(joined_border_width.value(), device_pixel_width.value()),
Gfx::FloatSize(opposite_joined_border_width.value(), device_pixel_width.value()),
last || color != border_color(BorderEdge::Left, borders_data));
break;
case BorderEdge::Left:
}
case BorderEdge::Left: {
auto joined_border_width = context.enclosing_device_pixels(borders_data.bottom.width);
auto opposite_joined_border_width = context.enclosing_device_pixels(borders_data.top.width);
bool joined_corner_has_inner_corner = device_pixel_width < radius.horizontal_radius && joined_border_width < radius.vertical_radius;
bool opposite_joined_corner_has_inner_corner = device_pixel_width < opposite_radius.horizontal_radius && opposite_joined_border_width < opposite_radius.vertical_radius;
Gfx::FloatPoint joined_corner_endpoint_offset;
Gfx::FloatPoint opposite_joined_border_corner_offset;
if (borders_data.bottom.width == 0) {
joined_corner_endpoint_offset = Gfx::FloatPoint(radius.horizontal_radius, radius.vertical_radius);
} else {
auto midpoint = compute_midpoint(radius.horizontal_radius, radius.vertical_radius);
joined_corner_endpoint_offset = Gfx::FloatPoint(radius.horizontal_radius - midpoint.x(), midpoint.y());
}
if (borders_data.top.width == 0) {
opposite_joined_border_corner_offset = Gfx::FloatPoint(opposite_radius.horizontal_radius, opposite_radius.vertical_radius);
} else {
auto midpoint = compute_midpoint(opposite_radius.horizontal_radius, opposite_radius.vertical_radius);
opposite_joined_border_corner_offset = Gfx::FloatPoint(opposite_radius.horizontal_radius - midpoint.x(), -midpoint.y());
}
Vector<Gfx::FloatPoint, 8> points;
points.append(Gfx::FloatPoint(rect.bottom_left().to_type<int>()));
points.append(Gfx::FloatPoint(rect.bottom_left().to_type<int>()) + joined_corner_endpoint_offset);
if (joined_corner_has_inner_corner) {
auto midpoint = compute_midpoint(
radius.horizontal_radius - device_pixel_width.value(),
radius.vertical_radius - joined_border_width.value());
Gfx::FloatPoint inner_corner = Gfx::FloatPoint(radius.horizontal_radius - device_pixel_width.value() - midpoint.x(), midpoint.y());
points.append(Gfx::FloatPoint(rect.bottom_right().to_type<int>()) + inner_corner);
points.append(Gfx::FloatPoint(rect.bottom_right().to_type<int>()));
} else {
Gfx::FloatPoint inner_right_angle_offset = Gfx::FloatPoint(0, joined_border_width.value() - radius.vertical_radius);
points.append(Gfx::FloatPoint(rect.bottom_right().to_type<int>()) - inner_right_angle_offset);
}
if (opposite_joined_corner_has_inner_corner) {
auto midpoint = compute_midpoint(
opposite_radius.horizontal_radius - device_pixel_width.value(),
opposite_radius.vertical_radius - opposite_joined_border_width.value());
Gfx::FloatPoint inner_corner = Gfx::FloatPoint(
opposite_radius.horizontal_radius - device_pixel_width.value() - midpoint.x(),
-midpoint.y());
points.append(Gfx::FloatPoint(rect.top_right().to_type<int>()));
points.append(Gfx::FloatPoint(rect.top_right().to_type<int>()) + inner_corner);
} else {
Gfx::FloatPoint inner_right_angle_offset = Gfx::FloatPoint(0, opposite_joined_border_width.value() - opposite_radius.vertical_radius);
points.append(Gfx::FloatPoint(rect.top_right().to_type<int>()) + inner_right_angle_offset);
}
points.append(Gfx::FloatPoint(rect.top_left().to_type<int>()) + opposite_joined_border_corner_offset);
points.append(Gfx::FloatPoint(rect.top_left().to_type<int>()));
draw_border(
borders_data.top, border_radii_data.top_left, borders_data.bottom, border_radii_data.bottom_left,
[](auto& current_p1, auto step) {
current_p1.translate_by(1, step);
},
[](auto& current_p2, auto step) {
current_p2.translate_by(1, -step);
});
points,
joined_corner_has_inner_corner,
opposite_joined_corner_has_inner_corner,
Gfx::FloatSize(device_pixel_width.value(), joined_border_width.value()),
Gfx::FloatSize(device_pixel_width.value(), opposite_joined_border_width.value()),
last || color != border_color(BorderEdge::Top, borders_data));
break;
}
}
}
RefPtr<Gfx::Bitmap> get_cached_corner_bitmap(DevicePixelSize corners_size)
@ -277,101 +564,42 @@ void paint_all_borders(PaintContext& context, CSSPixelRect const& bordered_rect,
border_rect.height() - top_left.vertical_radius - bottom_left.vertical_radius
};
// Avoid overlapping pixels on the edges, in the easy 45 degree corners case:
if (!top_left && top_border_rect.height() == left_border_rect.width())
top_border_rect.shrink(0, 0, 0, 1);
if (!top_right && top_border_rect.height() == right_border_rect.width())
top_border_rect.shrink(0, 1, 0, 0);
if (!bottom_left && bottom_border_rect.height() == left_border_rect.width())
bottom_border_rect.shrink(0, 0, 0, 1);
if (!bottom_right && bottom_border_rect.height() == right_border_rect.width())
bottom_border_rect.shrink(0, 1, 0, 0);
AK::CircularQueue<BorderEdge, 4> borders;
borders.enqueue(BorderEdge::Top);
borders.enqueue(BorderEdge::Right);
borders.enqueue(BorderEdge::Bottom);
borders.enqueue(BorderEdge::Left);
auto border_color_no_alpha = borders_data.top.color;
border_color_no_alpha.set_alpha(255);
// Try to find the first border that has a different color than the previous one,
// then start painting from that border.
for (size_t i = 0; i < borders.size(); i++) {
if (border_color(borders.at(0), borders_data) != border_color(borders.at(1), borders_data)) {
borders.enqueue(borders.dequeue());
break;
}
// Paint the strait line part of the border:
paint_border(context, BorderEdge::Top, top_border_rect, border_radii_data, borders_data);
paint_border(context, BorderEdge::Right, right_border_rect, border_radii_data, borders_data);
paint_border(context, BorderEdge::Bottom, bottom_border_rect, border_radii_data, borders_data);
paint_border(context, BorderEdge::Left, left_border_rect, border_radii_data, borders_data);
borders.enqueue(borders.dequeue());
}
if (!top_left && !top_right && !bottom_left && !bottom_right)
return;
// Cache the smallest possible bitmap to render just the corners for the border.
auto expand_width = abs(context.enclosing_device_pixels(borders_data.left.width) - context.enclosing_device_pixels(borders_data.right.width));
auto expand_height = abs(context.enclosing_device_pixels(borders_data.top.width) - context.enclosing_device_pixels(borders_data.bottom.width));
DevicePixelRect corner_mask_rect {
0, 0,
max(
top_left.horizontal_radius + top_right.horizontal_radius + expand_width.value(),
bottom_left.horizontal_radius + bottom_right.horizontal_radius + expand_height.value()),
max(
top_left.vertical_radius + bottom_left.vertical_radius + expand_width.value(),
top_right.vertical_radius + bottom_right.vertical_radius + expand_height.value())
};
auto corner_bitmap = get_cached_corner_bitmap(corner_mask_rect.size());
if (!corner_bitmap)
return;
Gfx::Painter painter { *corner_bitmap };
Gfx::AntiAliasingPainter aa_painter { painter };
// Paint a little tile sheet for the corners
// TODO: Support various line styles on the corners (dotted, dashes, etc)
// Paint the outer (minimal) corner rounded rectangle:
aa_painter.fill_rect_with_rounded_corners(corner_mask_rect.to_type<int>(), border_color_no_alpha, top_left, top_right, bottom_right, bottom_left);
// Subtract the inner corner rectangle:
auto inner_corner_mask_rect = corner_mask_rect.shrunken(
context.enclosing_device_pixels(borders_data.top.width),
context.enclosing_device_pixels(borders_data.right.width),
context.enclosing_device_pixels(borders_data.bottom.width),
context.enclosing_device_pixels(borders_data.left.width));
auto inner_top_left = top_left;
auto inner_top_right = top_right;
auto inner_bottom_right = bottom_right;
auto inner_bottom_left = bottom_left;
inner_top_left.horizontal_radius = max(0, inner_top_left.horizontal_radius - context.enclosing_device_pixels(borders_data.left.width).value());
inner_top_left.vertical_radius = max(0, inner_top_left.vertical_radius - context.enclosing_device_pixels(borders_data.top.width).value());
inner_top_right.horizontal_radius = max(0, inner_top_right.horizontal_radius - context.enclosing_device_pixels(borders_data.right.width).value());
inner_top_right.vertical_radius = max(0, inner_top_right.vertical_radius - context.enclosing_device_pixels(borders_data.top.width).value());
inner_bottom_right.horizontal_radius = max(0, inner_bottom_right.horizontal_radius - context.enclosing_device_pixels(borders_data.right.width).value());
inner_bottom_right.vertical_radius = max(0, inner_bottom_right.vertical_radius - context.enclosing_device_pixels(borders_data.bottom.width).value());
inner_bottom_left.horizontal_radius = max(0, inner_bottom_left.horizontal_radius - context.enclosing_device_pixels(borders_data.left.width).value());
inner_bottom_left.vertical_radius = max(0, inner_bottom_left.vertical_radius - context.enclosing_device_pixels(borders_data.bottom.width).value());
aa_painter.fill_rect_with_rounded_corners(inner_corner_mask_rect.to_type<int>(), border_color_no_alpha, inner_top_left, inner_top_right, inner_bottom_right, inner_bottom_left, Gfx::AntiAliasingPainter::BlendMode::AlphaSubtract);
// TODO: Support dual color corners. Other browsers will render a rounded corner between two borders of
// different colors using both colours, normally split at a 45 degree angle (though the exact angle is interpolated).
auto blit_corner = [&](Gfx::IntPoint position, Gfx::IntRect const& src_rect, Color corner_color) {
context.painter().blit_filtered(position, *corner_bitmap, src_rect, [&](auto const& corner_pixel) {
return corner_color.with_alpha((corner_color.alpha() * corner_pixel.alpha()) / 255);
});
};
// FIXME: Corners should actually split between the two colors, if both are provided (and differ)
auto pick_corner_color = [](auto const& border, auto const& adjacent_border) {
if (border.width > 0)
return border.color;
return adjacent_border.color;
};
// Blit the corners into to their corresponding locations:
if (top_left)
blit_corner(border_rect.top_left().to_type<int>(), top_left.as_rect(), pick_corner_color(borders_data.top, borders_data.left));
if (top_right)
blit_corner(border_rect.top_right().to_type<int>().translated(-top_right.horizontal_radius, 0), top_right.as_rect().translated(corner_mask_rect.width().value() - top_right.horizontal_radius, 0), pick_corner_color(borders_data.top, borders_data.right));
if (bottom_right)
blit_corner(border_rect.bottom_right().to_type<int>().translated(-bottom_right.horizontal_radius, -bottom_right.vertical_radius), bottom_right.as_rect().translated(corner_mask_rect.width().value() - bottom_right.horizontal_radius, corner_mask_rect.height().value() - bottom_right.vertical_radius), pick_corner_color(borders_data.bottom, borders_data.right));
if (bottom_left)
blit_corner(border_rect.bottom_left().to_type<int>().translated(0, -bottom_left.vertical_radius), bottom_left.as_rect().translated(0, corner_mask_rect.height().value() - bottom_left.vertical_radius), pick_corner_color(borders_data.bottom, borders_data.left));
Gfx::Path path;
for (BorderEdge edge : borders) {
switch (edge) {
case BorderEdge::Top:
paint_border(context, BorderEdge::Top, top_border_rect, top_left, top_right, borders_data, path, edge == borders.last());
break;
case BorderEdge::Right:
paint_border(context, BorderEdge::Right, right_border_rect, top_right, bottom_right, borders_data, path, edge == borders.last());
break;
case BorderEdge::Bottom:
paint_border(context, BorderEdge::Bottom, bottom_border_rect, bottom_right, bottom_left, borders_data, path, edge == borders.last());
break;
case BorderEdge::Left:
paint_border(context, BorderEdge::Left, left_border_rect, bottom_left, top_left, borders_data, path, edge == borders.last());
break;
default:
VERIFY_NOT_REACHED();
}
}
}
}

View file

@ -74,7 +74,9 @@ struct BordersData {
RefPtr<Gfx::Bitmap> get_cached_corner_bitmap(DevicePixelSize corners_size);
void paint_border(PaintContext& context, BorderEdge edge, DevicePixelRect const& rect, BorderRadiiData const& border_radii_data, BordersData const& borders_data);
void paint_border(PaintContext& context, BorderEdge edge, DevicePixelRect const& rect, Gfx::AntiAliasingPainter::CornerRadius const& radius, Gfx::AntiAliasingPainter::CornerRadius const& opposite_radius, BordersData const& borders_data, Gfx::Path& path, bool last);
void paint_all_borders(PaintContext& context, CSSPixelRect const& bordered_rect, BorderRadiiData const& border_radii_data, BordersData const&);
Gfx::Color border_color(BorderEdge edge, BordersData const& borders_data);
}