impeller/geometry/path_builder.h - mirrors/engine - Git at Google

 // Copyright 2013 The Flutter Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #pragma once

 #include "impeller/geometry/path.h"
 #include "impeller/geometry/rect.h"
 #include "impeller/geometry/scalar.h"

 namespace impeller {

 class PathBuilder {
  public:
   /// Used for approximating quarter circle arcs with cubic curves. This is the
   /// control point distance which results in the smallest possible unit circle
   /// integration for a right angle arc. It can be used to approximate arcs less
   /// than 90 degrees to great effect by simply reducing it proportionally to
   /// the angle. However, accuracy rapidly diminishes if magnified for obtuse
   /// angle arcs, and so multiple cubic curves should be used when approximating
   /// arcs greater than 90 degrees.
   constexpr static const Scalar kArcApproximationMagic = 0.551915024494f;

   PathBuilder();

   ~PathBuilder();

   Path CopyPath(FillType fill = FillType::kNonZero) const;

   Path TakePath(FillType fill = FillType::kNonZero);

   const Path& GetCurrentPath() const;

   PathBuilder& SetConvexity(Convexity value);

   PathBuilder& MoveTo(Point point, bool relative = false);

   PathBuilder& Close();

   PathBuilder& LineTo(Point point, bool relative = false);

   PathBuilder& HorizontalLineTo(Scalar x, bool relative = false);

   PathBuilder& VerticalLineTo(Scalar y, bool relative = false);

   PathBuilder& QuadraticCurveTo(Point controlPoint,
                                 Point point,
                                 bool relative = false);

   PathBuilder& SmoothQuadraticCurveTo(Point point, bool relative = false);

   PathBuilder& CubicCurveTo(Point controlPoint1,
                             Point controlPoint2,
                             Point point,
                             bool relative = false);

   PathBuilder& SmoothCubicCurveTo(Point controlPoint2,
                                   Point point,
                                   bool relative = false);

   PathBuilder& AddRect(Rect rect);

   PathBuilder& AddCircle(const Point& center, Scalar radius);

   PathBuilder& AddArc(const Rect& oval_bounds,
                       Radians start,
                       Radians sweep,
                       bool use_center = false);

   PathBuilder& AddOval(const Rect& rect);

   PathBuilder& AddLine(const Point& p1, const Point& p2);

   PathBuilder& AddQuadraticCurve(Point p1, Point cp, Point p2);

   PathBuilder& AddCubicCurve(Point p1, Point cp1, Point cp2, Point p2);

   struct RoundingRadii {
     Point top_left;
     Point bottom_left;
     Point top_right;
     Point bottom_right;

     RoundingRadii() = default;

     RoundingRadii(Scalar p_top_left,
                   Scalar p_bottom_left,
                   Scalar p_top_right,
                   Scalar p_bottom_right)
         : top_left(p_top_left, p_top_left),
           bottom_left(p_bottom_left, p_bottom_left),
           top_right(p_top_right, p_top_right),
           bottom_right(p_bottom_right, p_bottom_right) {}

     bool AreAllZero() const {
       return top_left.IsZero() &&     //
              bottom_left.IsZero() &&  //
              top_right.IsZero() &&    //
              bottom_right.IsZero();
     }
   };

   PathBuilder& AddRoundedRect(Rect rect, RoundingRadii radii);

   PathBuilder& AddRoundedRect(Rect rect, Scalar radius);

   PathBuilder& AddPath(const Path& path);

  private:
   Point subpath_start_;
   Point current_;
   Path prototype_;
   Convexity convexity_;

   PathBuilder& AddRoundedRectTopLeft(Rect rect, RoundingRadii radii);

   PathBuilder& AddRoundedRectTopRight(Rect rect, RoundingRadii radii);

   PathBuilder& AddRoundedRectBottomRight(Rect rect, RoundingRadii radii);

   PathBuilder& AddRoundedRectBottomLeft(Rect rect, RoundingRadii radii);

   Point ReflectedQuadraticControlPoint1() const;

   Point ReflectedCubicControlPoint1() const;

   PathBuilder(const PathBuilder&) = delete;
   PathBuilder& operator=(const PathBuilder&&) = delete;
 };

 }  // namespace impeller
	// Copyright 2013 The Flutter Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#pragma once

	#include "impeller/geometry/path.h"
	#include "impeller/geometry/rect.h"
	#include "impeller/geometry/scalar.h"

	namespace impeller {

	class PathBuilder {
	public:
	/// Used for approximating quarter circle arcs with cubic curves. This is the
	/// control point distance which results in the smallest possible unit circle
	/// integration for a right angle arc. It can be used to approximate arcs less
	/// than 90 degrees to great effect by simply reducing it proportionally to
	/// the angle. However, accuracy rapidly diminishes if magnified for obtuse
	/// angle arcs, and so multiple cubic curves should be used when approximating
	/// arcs greater than 90 degrees.
	constexpr static const Scalar kArcApproximationMagic = 0.551915024494f;

	PathBuilder();

	~PathBuilder();

	Path CopyPath(FillType fill = FillType::kNonZero) const;

	Path TakePath(FillType fill = FillType::kNonZero);

	const Path& GetCurrentPath() const;

	PathBuilder& SetConvexity(Convexity value);

	PathBuilder& MoveTo(Point point, bool relative = false);

	PathBuilder& Close();

	PathBuilder& LineTo(Point point, bool relative = false);

	PathBuilder& HorizontalLineTo(Scalar x, bool relative = false);

	PathBuilder& VerticalLineTo(Scalar y, bool relative = false);

	PathBuilder& QuadraticCurveTo(Point controlPoint,
	Point point,
	bool relative = false);

	PathBuilder& SmoothQuadraticCurveTo(Point point, bool relative = false);

	PathBuilder& CubicCurveTo(Point controlPoint1,
	Point controlPoint2,
	Point point,
	bool relative = false);

	PathBuilder& SmoothCubicCurveTo(Point controlPoint2,
	Point point,
	bool relative = false);

	PathBuilder& AddRect(Rect rect);

	PathBuilder& AddCircle(const Point& center, Scalar radius);

	PathBuilder& AddArc(const Rect& oval_bounds,
	Radians start,
	Radians sweep,
	bool use_center = false);

	PathBuilder& AddOval(const Rect& rect);

	PathBuilder& AddLine(const Point& p1, const Point& p2);

	PathBuilder& AddQuadraticCurve(Point p1, Point cp, Point p2);

	PathBuilder& AddCubicCurve(Point p1, Point cp1, Point cp2, Point p2);

	struct RoundingRadii {
	Point top_left;
	Point bottom_left;
	Point top_right;
	Point bottom_right;

	RoundingRadii() = default;

	RoundingRadii(Scalar p_top_left,
	Scalar p_bottom_left,
	Scalar p_top_right,
	Scalar p_bottom_right)
	: top_left(p_top_left, p_top_left),
	bottom_left(p_bottom_left, p_bottom_left),
	top_right(p_top_right, p_top_right),
	bottom_right(p_bottom_right, p_bottom_right) {}

	bool AreAllZero() const {
	return top_left.IsZero() && //
	bottom_left.IsZero() && //
	top_right.IsZero() && //
	bottom_right.IsZero();
	}
	};

	PathBuilder& AddRoundedRect(Rect rect, RoundingRadii radii);

	PathBuilder& AddRoundedRect(Rect rect, Scalar radius);

	PathBuilder& AddPath(const Path& path);

	private:
	Point subpath_start_;
	Point current_;
	Path prototype_;
	Convexity convexity_;

	PathBuilder& AddRoundedRectTopLeft(Rect rect, RoundingRadii radii);

	PathBuilder& AddRoundedRectTopRight(Rect rect, RoundingRadii radii);

	PathBuilder& AddRoundedRectBottomRight(Rect rect, RoundingRadii radii);

	PathBuilder& AddRoundedRectBottomLeft(Rect rect, RoundingRadii radii);

	Point ReflectedQuadraticControlPoint1() const;

	Point ReflectedCubicControlPoint1() const;

	PathBuilder(const PathBuilder&) = delete;
	PathBuilder& operator=(const PathBuilder&&) = delete;
	};

	} // namespace impeller