experimental/Intersection/CubicLineSegments.cpp - 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.
  */
 #include "CubicLineSegments.h"
 #include "QuadraticLineSegments.h"

 // http://cagd.cs.byu.edu/~557/text/cagd.pdf 2.7
 // A hodograph is the first derivative curve
 void hodograph(const Cubic& cubic, Quadratic& hodo) {
     hodo[0].x = 3 * (cubic[1].x - cubic[0].x);
     hodo[0].y = 3 * (cubic[1].y - cubic[0].y);
     hodo[1].x = 3 * (cubic[2].x - cubic[1].x);
     hodo[1].y = 3 * (cubic[2].y - cubic[1].y);
     hodo[2].x = 3 * (cubic[3].x - cubic[2].x);
     hodo[2].y = 3 * (cubic[3].y - cubic[2].y);
 }

 // A 2nd hodograph is the second derivative curve
 void secondHodograph(const Cubic& cubic, _Line& hodo2) {
     Quadratic hodo;
     hodograph(cubic, hodo);
     hodograph(hodo, hodo2);
 }

 // The number of line segments required to approximate the cubic
 // see  http://cagd.cs.byu.edu/~557/text/cagd.pdf 10.6
 double subDivisions(const Cubic& cubic) {
     _Line hodo2;
     secondHodograph(cubic, hodo2);
     double maxX = SkTMax(hodo2[1].x, hodo2[1].x);
     double maxY = SkTMax(hodo2[1].y, hodo2[1].y);
     double dist = sqrt(maxX * maxX + maxY * maxY);
     double segments = sqrt(dist / (8 * FLT_EPSILON));
     return segments;
 }
	/*
	* Copyright 2012 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/
	#include "CubicLineSegments.h"
	#include "QuadraticLineSegments.h"

	// http://cagd.cs.byu.edu/~557/text/cagd.pdf 2.7
	// A hodograph is the first derivative curve
	void hodograph(const Cubic& cubic, Quadratic& hodo) {
	hodo[0].x = 3 * (cubic[1].x - cubic[0].x);
	hodo[0].y = 3 * (cubic[1].y - cubic[0].y);
	hodo[1].x = 3 * (cubic[2].x - cubic[1].x);
	hodo[1].y = 3 * (cubic[2].y - cubic[1].y);
	hodo[2].x = 3 * (cubic[3].x - cubic[2].x);
	hodo[2].y = 3 * (cubic[3].y - cubic[2].y);
	}

	// A 2nd hodograph is the second derivative curve
	void secondHodograph(const Cubic& cubic, _Line& hodo2) {
	Quadratic hodo;
	hodograph(cubic, hodo);
	hodograph(hodo, hodo2);
	}

	// The number of line segments required to approximate the cubic
	// see http://cagd.cs.byu.edu/~557/text/cagd.pdf 10.6
	double subDivisions(const Cubic& cubic) {
	_Line hodo2;
	secondHodograph(cubic, hodo2);
	double maxX = SkTMax(hodo2[1].x, hodo2[1].x);
	double maxY = SkTMax(hodo2[1].y, hodo2[1].y);
	double dist = sqrt(maxX * maxX + maxY * maxY);
	double segments = sqrt(dist / (8 * FLT_EPSILON));
	return segments;
	}