src/third_party/skia/experimental/Intersection/CurveIntersection.h - cobalt - Git at Google

 /*
  * Copyright 2012 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */
 #ifndef CurveIntersection_DEFINE
 #define CurveIntersection_DEFINE

 #include "DataTypes.h"

 class Intersections;

 // unit-testable utilities
 double axialIntersect(const Quadratic& q1, const _Point& p, bool vert);
 bool bezier_clip(const Cubic& cubic1, const Cubic& cubic2, double& minT, double& maxT);
 bool bezier_clip(const Quadratic& q1, const Quadratic& q2, double& minT, double& maxT);
 int convex_hull(const Cubic& cubic, char order[4]);
 bool convex_x_hull(const Cubic& cubic, char connectTo0[2], char connectTo3[2]);
 bool implicit_matches(const Cubic& cubic1, const Cubic& cubic2);
 bool implicit_matches(const _Line& line1, const _Line& line2);
 bool implicit_matches_ulps(const _Line& one, const _Line& two, int ulps);
 bool implicit_matches(const Quadratic& quad1, const Quadratic& quad2);
 void tangent(const Cubic& cubic, double t, _Point& result);
 void tangent(const _Line& line, _Point& result);
 void tangent(const Quadratic& quad, double t, _Point& result);

 // main functions
 enum ReduceOrder_Quadratics {
     kReduceOrder_NoQuadraticsAllowed,
     kReduceOrder_QuadraticsAllowed
 };
 enum ReduceOrder_Styles {
     kReduceOrder_TreatAsStroke,
     kReduceOrder_TreatAsFill
 };
 int reduceOrder(const Cubic& cubic, Cubic& reduction, ReduceOrder_Quadratics ,
         ReduceOrder_Styles );
 int reduceOrder(const _Line& line, _Line& reduction);
 int reduceOrder(const Quadratic& quad, Quadratic& reduction, ReduceOrder_Styles );
 int horizontalIntersect(const Cubic& cubic, double y, double tRange[3]);
 int horizontalIntersect(const Cubic& cubic, double left, double right, double y,
         double tRange[3]);
 int horizontalIntersect(const Cubic& cubic, double left, double right, double y,
         bool flipped, Intersections&);
 int horizontalIntersect(const _Line& line, double left, double right,
         double y, bool flipped, Intersections& );
 int horizontalIntersect(const Quadratic& quad, double left, double right,
         double y, double tRange[2]);
 int horizontalIntersect(const Quadratic& quad, double left, double right,
         double y, bool flipped, Intersections& );
 bool intersect(const Cubic& cubic1, const Cubic& cubic2, Intersections& );
 // the following flavor uses quadratic approximation instead of convex hulls
 //bool intersect2(const Cubic& cubic1, const Cubic& cubic2, Intersections& );
 // like '2', but iterates on centers instead of possible edges
 bool intersect3(const Cubic& cubic1, const Cubic& cubic2, Intersections& );
 int intersect(const Cubic& cubic, Intersections& i); // return true if cubic self-intersects
 int intersect(const Cubic& cubic, const Quadratic& quad, Intersections& );
 int intersect(const Cubic& cubic, const _Line& line, Intersections& );
 int intersectRay(const Cubic& quad, const _Line& line, Intersections& i);
 bool intersect(const Quadratic& q1, const Quadratic& q2, Intersections& );
 int intersect(const Quadratic& quad, const _Line& line, Intersections& );
 // the following flavor uses the implicit form instead of convex hulls
 bool intersect2(const Quadratic& q1, const Quadratic& q2, Intersections& i);
 int intersectRay(const Quadratic& quad, const _Line& line, Intersections& i);


 bool isLinear(const Quadratic& quad, int startIndex, int endIndex);
 bool isLinear(const Cubic& cubic, int startIndex, int endIndex);
 double leftMostT(const Cubic& , double startT, double endT);
 double leftMostT(const _Line& , double startT, double endT);
 double leftMostT(const Quadratic& , double startT, double endT);
 int verticalIntersect(const Cubic& cubic, double top, double bottom, double x,
         bool flipped, Intersections& );
 int verticalIntersect(const _Line& line, double top, double bottom, double x,
         bool flipped, Intersections& );
 int verticalIntersect(const Quadratic& quad, double top, double bottom,
         double x, bool flipped, Intersections& );

 #endif
	/*
	* Copyright 2012 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/
	#ifndef CurveIntersection_DEFINE
	#define CurveIntersection_DEFINE

	#include "DataTypes.h"

	class Intersections;

	// unit-testable utilities
	double axialIntersect(const Quadratic& q1, const _Point& p, bool vert);
	bool bezier_clip(const Cubic& cubic1, const Cubic& cubic2, double& minT, double& maxT);
	bool bezier_clip(const Quadratic& q1, const Quadratic& q2, double& minT, double& maxT);
	int convex_hull(const Cubic& cubic, char order[4]);
	bool convex_x_hull(const Cubic& cubic, char connectTo0[2], char connectTo3[2]);
	bool implicit_matches(const Cubic& cubic1, const Cubic& cubic2);
	bool implicit_matches(const _Line& line1, const _Line& line2);
	bool implicit_matches_ulps(const _Line& one, const _Line& two, int ulps);
	bool implicit_matches(const Quadratic& quad1, const Quadratic& quad2);
	void tangent(const Cubic& cubic, double t, _Point& result);
	void tangent(const _Line& line, _Point& result);
	void tangent(const Quadratic& quad, double t, _Point& result);

	// main functions
	enum ReduceOrder_Quadratics {
	kReduceOrder_NoQuadraticsAllowed,
	kReduceOrder_QuadraticsAllowed
	};
	enum ReduceOrder_Styles {
	kReduceOrder_TreatAsStroke,
	kReduceOrder_TreatAsFill
	};
	int reduceOrder(const Cubic& cubic, Cubic& reduction, ReduceOrder_Quadratics ,
	ReduceOrder_Styles );
	int reduceOrder(const _Line& line, _Line& reduction);
	int reduceOrder(const Quadratic& quad, Quadratic& reduction, ReduceOrder_Styles );
	int horizontalIntersect(const Cubic& cubic, double y, double tRange[3]);
	int horizontalIntersect(const Cubic& cubic, double left, double right, double y,
	double tRange[3]);
	int horizontalIntersect(const Cubic& cubic, double left, double right, double y,
	bool flipped, Intersections&);
	int horizontalIntersect(const _Line& line, double left, double right,
	double y, bool flipped, Intersections& );
	int horizontalIntersect(const Quadratic& quad, double left, double right,
	double y, double tRange[2]);
	int horizontalIntersect(const Quadratic& quad, double left, double right,
	double y, bool flipped, Intersections& );
	bool intersect(const Cubic& cubic1, const Cubic& cubic2, Intersections& );
	// the following flavor uses quadratic approximation instead of convex hulls
	//bool intersect2(const Cubic& cubic1, const Cubic& cubic2, Intersections& );
	// like '2', but iterates on centers instead of possible edges
	bool intersect3(const Cubic& cubic1, const Cubic& cubic2, Intersections& );
	int intersect(const Cubic& cubic, Intersections& i); // return true if cubic self-intersects
	int intersect(const Cubic& cubic, const Quadratic& quad, Intersections& );
	int intersect(const Cubic& cubic, const _Line& line, Intersections& );
	int intersectRay(const Cubic& quad, const _Line& line, Intersections& i);
	bool intersect(const Quadratic& q1, const Quadratic& q2, Intersections& );
	int intersect(const Quadratic& quad, const _Line& line, Intersections& );
	// the following flavor uses the implicit form instead of convex hulls
	bool intersect2(const Quadratic& q1, const Quadratic& q2, Intersections& i);
	int intersectRay(const Quadratic& quad, const _Line& line, Intersections& i);


	bool isLinear(const Quadratic& quad, int startIndex, int endIndex);
	bool isLinear(const Cubic& cubic, int startIndex, int endIndex);
	double leftMostT(const Cubic& , double startT, double endT);
	double leftMostT(const _Line& , double startT, double endT);
	double leftMostT(const Quadratic& , double startT, double endT);
	int verticalIntersect(const Cubic& cubic, double top, double bottom, double x,
	bool flipped, Intersections& );
	int verticalIntersect(const _Line& line, double top, double bottom, double x,
	bool flipped, Intersections& );
	int verticalIntersect(const Quadratic& quad, double top, double bottom,
	double x, bool flipped, Intersections& );

	#endif