src/pathops/SkPathOpsCubic.h - platform/external/skia - Gitiles

 /*
  * 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 SkPathOpsCubic_DEFINED
 #define SkPathOpsCubic_DEFINED

 #include "SkPathOpsPoint.h"
 #include "SkTDArray.h"

 struct SkDCubicPair {
     const SkDCubic& first() const { return (const SkDCubic&) pts[0]; }
     const SkDCubic& second() const { return (const SkDCubic&) pts[3]; }
     SkDPoint pts[7];
 };

 struct SkDCubic {
     SkDPoint fPts[4];

     void set(const SkPoint pts[4]) {
         fPts[0] = pts[0];
         fPts[1] = pts[1];
         fPts[2] = pts[2];
         fPts[3] = pts[3];
     }

     static const int gPrecisionUnit;

     const SkDPoint& operator[](int n) const { SkASSERT(n >= 0 && n < 4); return fPts[n]; }
     SkDPoint& operator[](int n) { SkASSERT(n >= 0 && n < 4); return fPts[n]; }

     double calcPrecision() const;
     SkDCubicPair chopAt(double t) const;
     bool clockwise() const;
     static void Coefficients(const double* cubic, double* A, double* B, double* C, double* D);
     bool controlsContainedByEnds() const;
     SkDVector dxdyAtT(double t) const;
     bool endsAreExtremaInXOrY() const;
     static int FindExtrema(double a, double b, double c, double d, double tValue[2]);
     int findInflections(double tValues[]) const;

     static int FindInflections(const SkPoint a[4], double tValues[]) {
         SkDCubic cubic;
         cubic.set(a);
         return cubic.findInflections(tValues);
     }

     int findMaxCurvature(double tValues[]) const;
     bool isLinear(int startIndex, int endIndex) const;
     bool monotonicInY() const;
     static int RootsReal(double A, double B, double C, double D, double t[3]);
     static int RootsValidT(const double A, const double B, const double C, double D, double s[3]);
     bool serpentine() const;
     SkDCubic subDivide(double t1, double t2) const;

     static SkDCubic SubDivide(const SkPoint a[4], double t1, double t2) {
         SkDCubic cubic;
         cubic.set(a);
         return cubic.subDivide(t1, t2);
     }

     void subDivide(const SkDPoint& a, const SkDPoint& d, double t1, double t2, SkDPoint p[2]) const;

     static void SubDivide(const SkPoint pts[4], const SkDPoint& a, const SkDPoint& d, double t1,
                           double t2, SkDPoint p[2]) {
         SkDCubic cubic;
         cubic.set(pts);
         cubic.subDivide(a, d, t1, t2, p);
     }

     SkDPoint top(double startT, double endT) const;
     void toQuadraticTs(double precision, SkTDArray<double>* ts) const;
     SkDQuad toQuad() const;
     SkDPoint xyAtT(double t) const;
 };

 #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 SkPathOpsCubic_DEFINED
	#define SkPathOpsCubic_DEFINED

	#include "SkPathOpsPoint.h"
	#include "SkTDArray.h"

	struct SkDCubicPair {
	const SkDCubic& first() const { return (const SkDCubic&) pts[0]; }
	const SkDCubic& second() const { return (const SkDCubic&) pts[3]; }
	SkDPoint pts[7];
	};

	struct SkDCubic {
	SkDPoint fPts[4];

	void set(const SkPoint pts[4]) {
	fPts[0] = pts[0];
	fPts[1] = pts[1];
	fPts[2] = pts[2];
	fPts[3] = pts[3];
	}

	static const int gPrecisionUnit;

	const SkDPoint& operator[](int n) const { SkASSERT(n >= 0 && n < 4); return fPts[n]; }
	SkDPoint& operator[](int n) { SkASSERT(n >= 0 && n < 4); return fPts[n]; }

	double calcPrecision() const;
	SkDCubicPair chopAt(double t) const;
	bool clockwise() const;
	static void Coefficients(const double* cubic, double* A, double* B, double* C, double* D);
	bool controlsContainedByEnds() const;
	SkDVector dxdyAtT(double t) const;
	bool endsAreExtremaInXOrY() const;
	static int FindExtrema(double a, double b, double c, double d, double tValue[2]);
	int findInflections(double tValues[]) const;

	static int FindInflections(const SkPoint a[4], double tValues[]) {
	SkDCubic cubic;
	cubic.set(a);
	return cubic.findInflections(tValues);
	}

	int findMaxCurvature(double tValues[]) const;
	bool isLinear(int startIndex, int endIndex) const;
	bool monotonicInY() const;
	static int RootsReal(double A, double B, double C, double D, double t[3]);
	static int RootsValidT(const double A, const double B, const double C, double D, double s[3]);
	bool serpentine() const;
	SkDCubic subDivide(double t1, double t2) const;

	static SkDCubic SubDivide(const SkPoint a[4], double t1, double t2) {
	SkDCubic cubic;
	cubic.set(a);
	return cubic.subDivide(t1, t2);
	}

	void subDivide(const SkDPoint& a, const SkDPoint& d, double t1, double t2, SkDPoint p[2]) const;

	static void SubDivide(const SkPoint pts[4], const SkDPoint& a, const SkDPoint& d, double t1,
	double t2, SkDPoint p[2]) {
	SkDCubic cubic;
	cubic.set(pts);
	cubic.subDivide(a, d, t1, t2, p);
	}

	SkDPoint top(double startT, double endT) const;
	void toQuadraticTs(double precision, SkTDArray<double>* ts) const;
	SkDQuad toQuad() const;
	SkDPoint xyAtT(double t) const;
	};

	#endif