experimental/Intersection/LineParameterization.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 "CurveIntersection.h"

 /* This rejects coincidence with two muls, two adds, and one cmp.
    Coincident candidates will take another four muls and two adds, but may still
    fail if they don't overlap. (The overlap test isn't performed here.)
  */
 bool implicit_matches(const _Line& one, const _Line& two) {
     _Point oneD, twoD;
     tangent(one, oneD);
     tangent(two, twoD);
     /* See if the slopes match, i.e.
                         dx1 / dy1 ==               dx2 / dy2
           (dy1 * dy2) * dx1 / dy1 == (dy1 * dy2) * dx2 / dy2
                  dy2  * dx1       ==  dy1        * dx2
      */
     if (!AlmostEqualUlps(oneD.x * twoD.y, twoD.x * oneD.y)) {
         return false;
     }
     /* See if the axis intercepts match, i.e.
                y0 - x0 * dy / dx  ==       y1 - x1 * dy / dx
          dx * (y0 - x0 * dy / dx) == dx * (y1 - x1 * dy / dx)
          dx *  y0 - x0 * dy       == dx *  y1 - x1 * dy
      */
     if (!AlmostEqualUlps(oneD.x * one[0].y - oneD.y * one[0].x,
             oneD.x * two[0].y - oneD.y * two[0].x)) {
         return false;
     }
     return true;
 }

 bool implicit_matches_ulps(const _Line& one, const _Line& two, int ulps) {
     _Point oneD, twoD;
     tangent(one, oneD);
     tangent(two, twoD);
     /* See if the slopes match, i.e.
                         dx1 / dy1 ==               dx2 / dy2
           (dy1 * dy2) * dx1 / dy1 == (dy1 * dy2) * dx2 / dy2
                  dy2  * dx1       ==  dy1        * dx2
      */
     int diff = UlpsDiff((float) (oneD.x * twoD.y), (float) (twoD.x * oneD.y));
     if (diff < 0 || diff > ulps) {
         return false;
     }
     /* See if the axis intercepts match, i.e.
                y0 - x0 * dy / dx  ==       y1 - x1 * dy / dx
          dx * (y0 - x0 * dy / dx) == dx * (y1 - x1 * dy / dx)
          dx *  y0 - x0 * dy       == dx *  y1 - x1 * dy
      */
     diff = UlpsDiff((float) (oneD.x * one[0].y - oneD.y * one[0].x),
             (float) (oneD.x * two[0].y - oneD.y * two[0].x));
     return diff >= 0 && diff <= ulps;
 }

 void tangent(const _Line& line,  _Point& result) {
     result.x = line[0].x - line[1].x;
     result.y = line[0].y - line[1].y;
 }
	/*
	* 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 "CurveIntersection.h"

	/* This rejects coincidence with two muls, two adds, and one cmp.
	Coincident candidates will take another four muls and two adds, but may still
	fail if they don't overlap. (The overlap test isn't performed here.)
	*/
	bool implicit_matches(const _Line& one, const _Line& two) {
	_Point oneD, twoD;
	tangent(one, oneD);
	tangent(two, twoD);
	/* See if the slopes match, i.e.
	dx1 / dy1 == dx2 / dy2
	(dy1 * dy2) * dx1 / dy1 == (dy1 * dy2) * dx2 / dy2
	dy2 * dx1 == dy1 * dx2
	*/
	if (!AlmostEqualUlps(oneD.x * twoD.y, twoD.x * oneD.y)) {
	return false;
	}
	/* See if the axis intercepts match, i.e.
	y0 - x0 * dy / dx == y1 - x1 * dy / dx
	dx * (y0 - x0 * dy / dx) == dx * (y1 - x1 * dy / dx)
	dx * y0 - x0 * dy == dx * y1 - x1 * dy
	*/
	if (!AlmostEqualUlps(oneD.x * one[0].y - oneD.y * one[0].x,
	oneD.x * two[0].y - oneD.y * two[0].x)) {
	return false;
	}
	return true;
	}

	bool implicit_matches_ulps(const _Line& one, const _Line& two, int ulps) {
	_Point oneD, twoD;
	tangent(one, oneD);
	tangent(two, twoD);
	/* See if the slopes match, i.e.
	dx1 / dy1 == dx2 / dy2
	(dy1 * dy2) * dx1 / dy1 == (dy1 * dy2) * dx2 / dy2
	dy2 * dx1 == dy1 * dx2
	*/
	int diff = UlpsDiff((float) (oneD.x * twoD.y), (float) (twoD.x * oneD.y));
	if (diff < 0 \|\| diff > ulps) {
	return false;
	}
	/* See if the axis intercepts match, i.e.
	y0 - x0 * dy / dx == y1 - x1 * dy / dx
	dx * (y0 - x0 * dy / dx) == dx * (y1 - x1 * dy / dx)
	dx * y0 - x0 * dy == dx * y1 - x1 * dy
	*/
	diff = UlpsDiff((float) (oneD.x * one[0].y - oneD.y * one[0].x),
	(float) (oneD.x * two[0].y - oneD.y * two[0].x));
	return diff >= 0 && diff <= ulps;
	}

	void tangent(const _Line& line, _Point& result) {
	result.x = line[0].x - line[1].x;
	result.y = line[0].y - line[1].y;
	}