ladybird/Userland/Libraries/LibGfx/DeprecatedPath.h
2024-10-18 18:12:45 +02:00

257 lines
7.1 KiB
C++

/*
* Copyright (c) 2020, Andreas Kling <andreas@ladybird.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
#include <AK/ByteString.h>
#include <AK/Optional.h>
#include <AK/Vector.h>
#include <LibGfx/Forward.h>
#include <LibGfx/Line.h>
#include <LibGfx/Point.h>
#include <LibGfx/Rect.h>
namespace Gfx {
class DeprecatedPath;
class DeprecatedPathSegment {
public:
enum Command : u8 {
MoveTo,
LineTo,
QuadraticBezierCurveTo,
CubicBezierCurveTo,
};
ALWAYS_INLINE Command command() const { return m_command; }
ALWAYS_INLINE FloatPoint point() const { return m_points.last(); }
ALWAYS_INLINE FloatPoint through() const
{
VERIFY(m_command == Command::QuadraticBezierCurveTo);
return m_points[0];
}
ALWAYS_INLINE FloatPoint through_0() const
{
VERIFY(m_command == Command::CubicBezierCurveTo);
return m_points[0];
}
ALWAYS_INLINE FloatPoint through_1() const
{
VERIFY(m_command == Command::CubicBezierCurveTo);
return m_points[1];
}
ALWAYS_INLINE ReadonlySpan<FloatPoint> points() const { return m_points; }
static constexpr int points_per_command(Command command)
{
switch (command) {
case Command::MoveTo:
case Command::LineTo:
return 1; // Single point.
case Command::QuadraticBezierCurveTo:
return 2; // Control point + point.
case Command::CubicBezierCurveTo:
return 3; // Two control points + point.
}
VERIFY_NOT_REACHED();
}
DeprecatedPathSegment(Command command, ReadonlySpan<FloatPoint> points)
: m_command(command)
, m_points(points) {};
private:
Command m_command;
ReadonlySpan<FloatPoint> m_points;
};
class PathSegmentIterator {
public:
int operator<=>(PathSegmentIterator other) const
{
if (m_command_index > other.m_command_index)
return 1;
if (m_command_index < other.m_command_index)
return -1;
return 0;
}
bool operator==(PathSegmentIterator other) const { return m_command_index == other.m_command_index; }
bool operator!=(PathSegmentIterator other) const { return m_command_index != other.m_command_index; }
PathSegmentIterator operator++()
{
if (m_command_index < m_commands.size())
m_point_index += DeprecatedPathSegment::points_per_command(m_commands[m_command_index++]);
return *this;
}
PathSegmentIterator operator++(int)
{
PathSegmentIterator old(*this);
++*this;
return old;
}
PathSegmentIterator operator--()
{
if (m_command_index > 0)
m_point_index -= DeprecatedPathSegment::points_per_command(m_commands[--m_command_index]);
return *this;
}
PathSegmentIterator operator--(int)
{
PathSegmentIterator old(*this);
--*this;
return old;
}
DeprecatedPathSegment operator*() const
{
auto command = m_commands[m_command_index];
return DeprecatedPathSegment { command, m_points.span().slice(m_point_index, DeprecatedPathSegment::points_per_command(command)) };
}
PathSegmentIterator& operator=(PathSegmentIterator const& other)
{
m_point_index = other.m_point_index;
m_command_index = other.m_command_index;
return *this;
}
PathSegmentIterator(PathSegmentIterator const&) = default;
friend DeprecatedPath;
private:
PathSegmentIterator(Vector<FloatPoint> const& points, Vector<DeprecatedPathSegment::Command> const& commands, size_t point_index = 0, size_t command_index = 0)
: m_points(points)
, m_commands(commands)
, m_point_index(point_index)
, m_command_index(command_index)
{
}
// Note: Store reference to vectors from Gfx::DeprecatedPath so appending segments does not invalidate iterators.
Vector<FloatPoint> const& m_points;
Vector<DeprecatedPathSegment::Command> const& m_commands;
size_t m_point_index { 0 };
size_t m_command_index { 0 };
};
class DeprecatedPath {
public:
DeprecatedPath() = default;
void move_to(FloatPoint point)
{
append_segment<DeprecatedPathSegment::MoveTo>(point);
}
void line_to(FloatPoint point)
{
append_segment<DeprecatedPathSegment::LineTo>(point);
invalidate_split_lines();
}
void quadratic_bezier_curve_to(FloatPoint through, FloatPoint point)
{
append_segment<DeprecatedPathSegment::QuadraticBezierCurveTo>(through, point);
invalidate_split_lines();
}
void cubic_bezier_curve_to(FloatPoint c1, FloatPoint c2, FloatPoint p2)
{
append_segment<DeprecatedPathSegment::CubicBezierCurveTo>(c1, c2, p2);
invalidate_split_lines();
}
void elliptical_arc_to(FloatPoint point, FloatSize radii, float x_axis_rotation, bool large_arc, bool sweep);
void arc_to(FloatPoint point, float radius, bool large_arc, bool sweep)
{
elliptical_arc_to(point, { radius, radius }, 0, large_arc, sweep);
}
FloatPoint last_point()
{
if (!m_points.is_empty())
return m_points.last();
return {};
}
void close();
void close_all_subpaths();
DeprecatedPath stroke_to_fill(float thickness) const;
DeprecatedPath copy_transformed(AffineTransform const&) const;
ReadonlySpan<FloatLine> split_lines() const
{
if (!m_split_lines.has_value()) {
const_cast<DeprecatedPath*>(this)->segmentize_path();
VERIFY(m_split_lines.has_value());
}
return m_split_lines->lines;
}
Gfx::FloatRect const& bounding_box() const
{
(void)split_lines();
return m_split_lines->bounding_box;
}
ByteString to_byte_string() const;
PathSegmentIterator begin() const
{
return PathSegmentIterator(m_points, m_commands);
}
PathSegmentIterator end() const
{
return PathSegmentIterator(m_points, m_commands, m_points.size(), m_commands.size());
}
bool is_empty() const
{
return m_commands.is_empty();
}
void clear()
{
*this = DeprecatedPath {};
}
private:
void approximate_elliptical_arc_with_cubic_beziers(FloatPoint center, FloatSize radii, float x_axis_rotation, float theta, float theta_delta);
void invalidate_split_lines()
{
m_split_lines.clear();
}
void segmentize_path();
template<DeprecatedPathSegment::Command command, typename... Args>
void append_segment(Args&&... args)
{
constexpr auto point_count = sizeof...(Args);
static_assert(point_count == DeprecatedPathSegment::points_per_command(command));
FloatPoint points[] { args... };
// Note: This should maintain the invariant that `m_points.last()` is always the last point in the path.
m_points.append(points, point_count);
m_commands.append(command);
}
Vector<FloatPoint> m_points {};
Vector<DeprecatedPathSegment::Command> m_commands {};
struct SplitLines {
Vector<FloatLine> lines;
Gfx::FloatRect bounding_box;
};
Optional<SplitLines> m_split_lines {};
};
}