gtsam: Point2.cpp Source File

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 /* ----------------------------------------------------------------------------
  
  * GTSAM Copyright 2010, Georgia Tech Research Corporation,
  * Atlanta, Georgia 30332-0415
  * All Rights Reserved
  * Authors: Frank Dellaert, et al. (see THANKS for the full author list)
  
  * See LICENSE for the license information
  
  * -------------------------------------------------------------------------- */
  
 #include <gtsam/geometry/Point2.h>
 #include <cmath>
 #include <iostream>
  
 using namespace std;
  
 namespace gtsam {
  
 /* ************************************************************************* */
 double norm2(const Point2& p, OptionalJacobian<1,2> H) {
   double r = std::sqrt(p.x() * p.x() + p.y() * p.y());
   if (H) {
     if (std::abs(r) > 1e-10)
       *H << p.x() / r, p.y() / r;
     else
       *H << 1, 1;  // really infinity, why 1 ?
   }
   return r;
 }
  
 /* ************************************************************************* */
 double distance2(const Point2& p, const Point2& q, OptionalJacobian<1, 2> H1,
                  OptionalJacobian<1, 2> H2) {
   Point2 d = q - p;
   if (H1 || H2) {
     Matrix12 H;
     double r = norm2(d, H);
     if (H1) *H1 = -H;
     if (H2) *H2 =  H;
     return r;
   } else {
     return d.norm();
   }
 }
  
 /* ************************************************************************* */
 // Math inspired by http://paulbourke.net/geometry/circlesphere/
 std::optional<Point2> circleCircleIntersection(double R_d, double r_d,
     double tol) {
  
   double R2_d2 = R_d*R_d; // Yes, RD-D2 !
   double f = 0.5 + 0.5*(R2_d2 - r_d*r_d);
   double h2 = R2_d2 - f*f; // just right triangle rule
  
   // h^2<0 is equivalent to (d > (R + r) || d < (R - r))
   // Hence, there are only solutions if >=0
   if (h2<-tol) return {}; // allow *slightly* negative
   else if (h2<tol) return Point2(f,0.0); // one solution
   else return Point2(f,std::sqrt(h2)); // two solutions
 }
  
 /* ************************************************************************* */
 list<Point2> circleCircleIntersection(Point2 c1, Point2 c2,
     std::optional<Point2> fh) {
  
   list<Point2> solutions;
   // If fh==std::nullopt, there are no solutions, i.e., d > (R + r) || d < (R - r)
   if (fh) {
     // vector between circle centers
     Point2 c12 = c2-c1;
  
     // Determine p2, the point where the line through the circle
     // intersection points crosses the line between the circle centers.
     Point2 p2 = c1 + fh->x() * c12;
  
     // If h == 0, the circles are touching, so just return one point
     if (fh->y()==0.0)
       solutions.push_back(p2);
     else {
       // determine the offsets of the intersection points from p
       Point2 offset = fh->y() * Point2(-c12.y(), c12.x());
  
       // Determine the absolute intersection points.
       solutions.push_back(p2 + offset);
       solutions.push_back(p2 - offset);
     }
   }
   return solutions;
 }
  
 /* ************************************************************************* */
 list<Point2> circleCircleIntersection(Point2 c1, double r1, Point2 c2,
     double r2, double tol) {
  
   // distance between circle centers.
   double d = distance2(c1, c2);
  
   // centers coincide, either no solution or infinite number of solutions.
   if (d<1e-9) return list<Point2>();
  
   // Calculate f and h given normalized radii
   double _d = 1.0/d, R_d = r1*_d, r_d=r2*_d;
   std::optional<Point2> fh = circleCircleIntersection(R_d,r_d);
  
   // Call version that takes fh
   return circleCircleIntersection(c1, c2, fh);
 }
  
 Point2Pair means(const std::vector<Point2Pair> &abPointPairs) {
   const size_t n = abPointPairs.size();
   if (n == 0) throw std::invalid_argument("Point2::mean input Point2Pair vector is empty");
   Point2 aSum(0, 0), bSum(0, 0);
   for (const Point2Pair &abPair : abPointPairs) {
     aSum += abPair.first;
     bSum += abPair.second;
   }
   const double f = 1.0 / n;
   return {aSum * f, bSum * f};
 }
   
 /* ************************************************************************* */
 ostream &operator<<(ostream &os, const gtsam::Point2Pair &p) {
   os << p.first << " <-> " << p.second;
   return os;
 }
  
 } // namespace gtsam

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Definition: gnuplot_common_settings.hh:74

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Definition: gnuplot_common_settings.hh:64