changes

2018-07-10 17:04:59 +02:00 · 2018-07-10 17:04:59 +02:00 · cf79e67631
commit cf79e67631
parent 73eb2c16da
5 changed files with 424 additions and 280 deletions
--- a/src/util/geo/Box.h
+++ b/src/util/geo/Box.h
@ -0,0 +1,39 @@
 // Copyright 2016, University of Freiburg,
 // Chair of Algorithms and Data Structures.
 // Author: Patrick Brosi <brosi@informatik.uni-freiburg.de>
 #ifndef UTIL_GEO_BOX_H_
 #define UTIL_GEO_BOX_H_
 #include "./Point.h"
 namespace util {
 namespace geon {
 template <typename T>
 class Box {
 public:
  // maximum inverse box as default value of box
  Box() : _ll(std::numeric_limits<T>::max), _ur(std::numeric_limits<T>::min) {}
  Box(const Point<T>& ll, const Point<T>& ur) : _ll(ll), _ur(ur) {}
  const Point<T>& getLowerLeft() const { return _ll; }
  const Point<T>& getUpperRight() const { return _ur; }
  void setLowerLeft(const Point<T>& ll) { _ll = ll; }
  void setUpperRight(const Point<T>& ur) { _ur = ur; }
  bool operator==(const Box<T>& b) const {
    return getLowerLeft() == b.getLowerLeft() &&
           getUpperRight == b.getUpperRight();
  }
  bool operator!=(const Box<T>& p) const { return !(*this == p); }
 private:
  Point<T> _ll, _ur;
 };
 }  // namespace geon
 }  // namespace util
 #endif  // UTIL_GEO_BOX_H_
--- a/src/util/geo/GeoNew.h
+++ b/src/util/geo/GeoNew.h
@ -8,6 +8,8 @@
 #include <math.h>
 #include "util/Misc.h"
 #include "util/geo/Box.h"
 #include "util/geo/Line.h"
 #include "util/geo/Point.h"
 // -------------------
@ -23,13 +25,13 @@ typedef Point<double> DPoint;
 typedef Point<float> FPoint;
 typedef Point<int> IPoint;
-// typedef Line<double> DLine;
+typedef Line<double> DLine;
-// typedef Line<float> FLine;
+typedef Line<float> FLine;
-// typedef Line<int> ILine;
+typedef Line<int> ILine;
-// typedef Box<double> DBox;
+typedef Box<double> DBox;
-// typedef Box<float> FBox;
+typedef Box<float> FBox;
-// typedef Box<int> IBox;
+typedef Box<int> IBox;
 // typedef Polygon<double> DPolygon;
 // typedef Polygon<float> FPolygon;
@ -37,57 +39,58 @@ typedef Point<int> IPoint;
 // _____________________________________________________________________________
 // template <typename T>
-// inline Line<T> rotate(const Line<T>& geo, double deg, const Point<T>& center) {
+// inline Line<T> rotate(const Line<T>& geo, double deg, const Point<T>& center)
-  // Line<T> ret;
+// {
 // Line<T> ret;
-  // bgeo::strategy::transform::translate_transformer<T, 2, 2> translate(
+// bgeo::strategy::transform::translate_transformer<T, 2, 2> translate(
-      // -center.getX(), -center.getY());
+// -center.getX(), -center.getY());
-  // bgeo::strategy::transform::rotate_transformer<bgeo::degree, T, 2, 2> rotate(
+// bgeo::strategy::transform::rotate_transformer<bgeo::degree, T, 2, 2> rotate(
-      // deg);
+// deg);
-  // bgeo::strategy::transform::translate_transformer<T, 2, 2> translateBack(
+// bgeo::strategy::transform::translate_transformer<T, 2, 2> translateBack(
-      // center.getX(), center.getY());
+// center.getX(), center.getY());
-  // bgeo::strategy::transform::ublas_transformer<T, 2, 2> translateRotate(
+// bgeo::strategy::transform::ublas_transformer<T, 2, 2> translateRotate(
-      // prod(rotate.matrix(), translate.matrix()));
+// prod(rotate.matrix(), translate.matrix()));
-  // bgeo::strategy::transform::ublas_transformer<T, 2, 2> all(
+// bgeo::strategy::transform::ublas_transformer<T, 2, 2> all(
-      // prod(translateBack.matrix(), translateRotate.matrix()));
+// prod(translateBack.matrix(), translateRotate.matrix()));
-  // bgeo::transform(geo, ret, all);
+// bgeo::transform(geo, ret, all);
-  // return ret;
+// return ret;
 // }
 // _____________________________________________________________________________
 // template <typename T>
 // inline MultiLine<T> rotate(const MultiLine<T>& geo, double deg,
-                           // const Point<T>& center) {
+// const Point<T>& center) {
-  // MultiLine<T> ret;
+// MultiLine<T> ret;
-  // bgeo::strategy::transform::translate_transformer<T, 2, 2> translate(
+// bgeo::strategy::transform::translate_transformer<T, 2, 2> translate(
-      // -center.getX(), -center.getY());
+// -center.getX(), -center.getY());
-  // bgeo::strategy::transform::rotate_transformer<bgeo::degree, T, 2, 2> rotate(
+// bgeo::strategy::transform::rotate_transformer<bgeo::degree, T, 2, 2> rotate(
-      // deg);
+// deg);
-  // bgeo::strategy::transform::translate_transformer<T, 2, 2> translateBack(
+// bgeo::strategy::transform::translate_transformer<T, 2, 2> translateBack(
-      // center.getX(), center.getY());
+// center.getX(), center.getY());
-  // bgeo::strategy::transform::ublas_transformer<T, 2, 2> translateRotate(
+// bgeo::strategy::transform::ublas_transformer<T, 2, 2> translateRotate(
-      // prod(rotate.matrix(), translate.matrix()));
+// prod(rotate.matrix(), translate.matrix()));
-  // bgeo::strategy::transform::ublas_transformer<T, 2, 2> all(
+// bgeo::strategy::transform::ublas_transformer<T, 2, 2> all(
-      // prod(translateBack.matrix(), translateRotate.matrix()));
+// prod(translateBack.matrix(), translateRotate.matrix()));
-  // bgeo::transform(geo, ret, all);
+// bgeo::transform(geo, ret, all);
-  // return ret;
+// return ret;
 // }
 // _____________________________________________________________________________
-// template <typename T>
+template <typename T>
-// inline Box<T> pad(const Box<T>& box, double padding) {
+inline Box<T> pad(const Box<T>& box, double padding) {
-  // return Box<T>(Point<T>(box.min_corner().getX() - padding,
+  return Box<T>(Point<T>(box.getLowerLeft().getX() - padding,
-                         // box.min_corner().getY() - padding),
+                         box.getLowerLeft().getY() - padding),
-                // Point<T>(box.max_corner().getX() + padding,
+                Point<T>(box.getUpperRight().getX() + padding,
-                         // box.max_corner().getY() + padding));
+                         box.getUpperRight().getY() + padding));
-// }
+}
 // _____________________________________________________________________________
 template <typename T>
@ -98,17 +101,17 @@ inline Point<T> rotate(const Point<T>& p, double deg) {
 // _____________________________________________________________________________
 // template <typename T>
 // inline Line<T> rotate(const Line<T>& geo, double deg) {
-  // Point<T> center;
+// Point<T> center;
-  // bgeo::centroid(geo, center);
+// bgeo::centroid(geo, center);
-  // return rotate(geo, deg, center);
+// return rotate(geo, deg, center);
 // }
 // _____________________________________________________________________________
 // template <typename T>
 // inline MultiLine<T> rotate(const MultiLine<T>& geo, double deg) {
-  // Point<T> center;
+// Point<T> center;
-  // bgeo::centroid(geo, center);
+// bgeo::centroid(geo, center);
-  // return rotate(geo, deg, center);
+// return rotate(geo, deg, center);
 // }
 // _____________________________________________________________________________
@ -121,110 +124,124 @@ inline Point<T> move(const Point<T>& geo, T x, T y) {
 // template <typename T>
 // struct RotatedBox {
-  // RotatedBox(const Box<T>& b, double rot, const Point<T>& center)
+// RotatedBox(const Box<T>& b, double rot, const Point<T>& center)
-      // : b(b), rotateDeg(rot), center(center) {}
+// : b(b), rotateDeg(rot), center(center) {}
-  // RotatedBox(const Box<T>& b, double rot) : b(b), rotateDeg(rot) {
+// RotatedBox(const Box<T>& b, double rot) : b(b), rotateDeg(rot) {
-    // bgeo::centroid(b, center);
+// bgeo::centroid(b, center);
-  // }
+// }
-  // Box<T> b;
+// Box<T> b;
-  // double rotateDeg;
+// double rotateDeg;
-  // Point<T> center;
+// Point<T> center;
-  // Polygon<T> getPolygon() {
+// Polygon<T> getPolygon() {
-    // Polygon<T> hull;
+// Polygon<T> hull;
-    // bgeo::convex_hull(b, hull);
+// bgeo::convex_hull(b, hull);
-    // return rotate(hull, rotateDeg, center);
+// return rotate(hull, rotateDeg, center);
-  // }
+// }
 // };
 // _____________________________________________________________________________
 template <typename T>
 inline Box<T> minbox() {
-  //return bgeo::make_inverse<Box<T>>();
+  return Box<T>();
 }
 // _____________________________________________________________________________
 // template <typename T>
 // inline RotatedBox<T> shrink(const RotatedBox<T>& b, double d) {
-  // double xd =
+// double xd =
-      // b.b.max_corner().getX() - b.b.min_corner().getX();
+// b.b.getUpperRight().getX() - b.b.getLowerLeft().getX();
-  // double yd =
+// double yd =
-      // b.b.max_corner().getY() - b.b.min_corner().getY();
+// b.b.getUpperRight().getY() - b.b.getLowerLeft().getY();
-  // if (xd <= 2 * d) d = xd / 2 - 1;
+// if (xd <= 2 * d) d = xd / 2 - 1;
-  // if (yd <= 2 * d) d = yd / 2 - 1;
+// if (yd <= 2 * d) d = yd / 2 - 1;
-  // Box<T> r(Point<T>(b.b.min_corner().getX() + d,
+// Box<T> r(Point<T>(b.b.getLowerLeft().getX() + d,
-                    // b.b.min_corner().getY() + d),
+// b.b.getLowerLeft().getY() + d),
-           // Point<T>(b.b.max_corner().getX() - d,
+// Point<T>(b.b.getUpperRight().getX() - d,
-                    // b.b.max_corner().getY() - d));
+// b.b.getUpperRight().getY() - d));
-  // return RotatedBox<T>(r, b.rotateDeg, b.center);
+// return RotatedBox<T>(r, b.rotateDeg, b.center);
 // }
 // _____________________________________________________________________________
 inline bool doubleEq(double a, double b) { return fabs(a - b) < 0.000001; }
 // _____________________________________________________________________________
-// template <typename Geometry, typename Box>
+template <typename T>
-// inline bool contains(const Geometry& geom, const Box& box) {
+inline bool contains(const Point<T>& p, const Box<T>& box) {
-  // return bgeo::within(geom, box);
+  return p.getX() >= box.getLowerLeft().getX() &&
         p.getX() <= box.getUpperRight().getX() &&
         p.getY() >= box.getLowerLeft().getY() &&
         p.getY() <= box.getUpperRight().getY();
 }
 // _____________________________________________________________________________
 template <typename T>
 inline bool contains(const Line<T>& l, const Box<T>& box) {
  for (const auto& p : l)
    if (!contains(p, box)) return false;
  return true;
 }
 // _____________________________________________________________________________
 // template <typename T>
 // inline bool contains(const Point<T>& p1, const Point<T>& q1, const Point<T>&
 // p2,
 // const Point<T>& q2) {
 // Line<T> a, b;
 // a.push_back(p1);
 // a.push_back(q1);
 // b.push_back(p2);
 // b.push_back(q2);
 // return bgeo::covered_by(a, b);
 // }
 // _____________________________________________________________________________
 // template <typename T>
-// inline bool contains(const Point<T>& p1, const Point<T>& q1, const Point<T>& p2,
+// inline bool contains(T p1x, T p1y, T q1x, T q1y, T p2x, T p2y, T q2x, T q2y)
-                     // const Point<T>& q2) {
+// {
-  // Line<T> a, b;
+// Point<T> p1(p1x, p1y);
-  // a.push_back(p1);
+// Point<T> q1(q1x, q1y);
-  // a.push_back(q1);
+// Point<T> p2(p2x, p2y);
-  // b.push_back(p2);
+// Point<T> q2(q2x, q2y);
  // b.push_back(q2);
-  // return bgeo::covered_by(a, b);
+// return contains(p1, q1, p2, q2);
 // }
 // _____________________________________________________________________________
 // template <typename T>
 // inline bool contains(T p1x, T p1y, T q1x, T q1y, T p2x, T p2y, T q2x, T q2y) {
  // Point<T> p1(p1x, p1y);
  // Point<T> q1(q1x, q1y);
  // Point<T> p2(p2x, p2y);
  // Point<T> q2(q2x, q2y);
  // return contains(p1, q1, p2, q2);
 // }
 // _____________________________________________________________________________
 // template <typename T>
 // inline bool intersects(const Point<T>& p1, const Point<T>& q1,
-                       // const Point<T>& p2, const Point<T>& q2) {
+// const Point<T>& p2, const Point<T>& q2) {
-  /*
+/*
-   * checks whether two line segments intersect
+ * checks whether two line segments intersect
-   */
+ */
-  // Line<T> a, b;
+// Line<T> a, b;
-  // a.push_back(p1);
+// a.push_back(p1);
-  // a.push_back(q1);
+// a.push_back(q1);
-  // b.push_back(p2);
+// b.push_back(p2);
-  // b.push_back(q2);
+// b.push_back(q2);
-  // return !(contains(p1, q1, p2, q2) || contains(p2, q2, p1, q1)) &&
+// return !(contains(p1, q1, p2, q2) || contains(p2, q2, p1, q1)) &&
-         // bgeo::intersects(a, b);
+// bgeo::intersects(a, b);
 // }
 // _____________________________________________________________________________
 // template <typename T>
-// inline bool intersects(T p1x, T p1y, T q1x, T q1y, T p2x, T p2y, T q2x, T q2y) {
+// inline bool intersects(T p1x, T p1y, T q1x, T q1y, T p2x, T p2y, T q2x, T
-  /*
+// q2y) {
-   * checks whether two line segments intersect
+/*
-   */
+ * checks whether two line segments intersect
-  // Point<T> p1(p1x, p1y);
+ */
-  // Point<T> q1(q1x, q1y);
+// Point<T> p1(p1x, p1y);
-  // Point<T> p2(p2x, p2y);
+// Point<T> q1(q1x, q1y);
-  // Point<T> q2(q2x, q2y);
+// Point<T> p2(p2x, p2y);
 // Point<T> q2(q2x, q2y);
-  // return intersects(p1, q1, p2, q2);
+// return intersects(p1, q1, p2, q2);
 // }
 // _____________________________________________________________________________
@ -254,10 +271,8 @@ inline Point<T> intersection(const Point<T>& p1, const Point<T>& q1,
  /*
   * calculates the intersection between two line segments
   */
-  return intersection(p1.getX(), p1.getY(),
+  return intersection(p1.getX(), p1.getY(), q1.getX(), q1.getY(), p2.getX(),
-                      q1.getX(), q1.getY(),
+                      p2.getY(), q2.getX(), q2.getY());
                      p2.getX(), p2.getY(),
                      q2.getX(), q2.getY());
 }
 // _____________________________________________________________________________
@ -280,10 +295,8 @@ inline bool lineIntersects(const Point<T>& p1, const Point<T>& q1,
  /*
   * checks whether two lines intersect
   */
-  return lineIntersects(p1.getX(), p1.getY(),
+  return lineIntersects(p1.getX(), p1.getY(), q1.getX(), q1.getY(), p2.getX(),
-                        q1.getX(), q1.getY(),
+                        p2.getY(), q2.getX(), q2.getY());
                        p2.getX(), p2.getY(),
                        q2.getX(), q2.getY());
 }
 // _____________________________________________________________________________
@ -296,8 +309,7 @@ inline double angBetween(double p1x, double p1y, double q1x, double q1y) {
 // _____________________________________________________________________________
 template <typename T>
 inline double angBetween(const Point<T>& p1, const Point<T>& q1) {
-  return angBetween(p1.getX(), p1.getY(),
+  return angBetween(p1.getX(), p1.getY(), q1.getX(), q1.getY());
                    q1.getX(), q1.getY());
 }
 // _____________________________________________________________________________
@ -321,23 +333,36 @@ inline double innerProd(double x1, double y1, double x2, double y2, double x3,
 // _____________________________________________________________________________
 template <typename T>
-inline double innerProd(const Point<T>& a, const Point<T>& b, const Point<T>& c) {
+inline double innerProd(const Point<T>& a, const Point<T>& b,
-  return innerProd(a.template getX(), a.template getY(),
+                        const Point<T>& c) {
-                   b.template getX(), b.template getY(),
+  return innerProd(a.template getX(), a.template getY(), b.template getX(),
-                   c.template getX(), c.template getY());
+                   b.template getY(), c.template getX(), c.template getY());
 }
 // _____________________________________________________________________________
 template <typename T>
 inline double dist(const Point<T>& p1, const Point<T>& p2) {
-  return 0;  // TODo
+  return sqrt((p1.getX() - p2.getX()) * (p1.getX() - p2.getX()) +
              (p1.getY() - p2.getY()) * (p1.getY() - p2.getY()));
 }
 // _____________________________________________________________________________
 template <typename T>
-inline std::string getWKT(const Point<T>* p) {
+inline std::string getWKT(const Point<T>& p) {
  std::stringstream ss;
-  // TODO
+  ss << "POINT (" << p.getX() << " " << p.getY() << ")";
  return ss.str();
 }
 // _____________________________________________________________________________
 template <typename T>
 inline std::string getWKT(const Line<T>& l) {
  std::stringstream ss;
  ss << "LINESTRING (";
  for (size_t i = 0; i < l.size(); i++) {
    if (i) ss << ", ";
    ss << l[i].getX() << " " << l[i].getY();
  }
  return ss.str();
 }
@ -347,12 +372,26 @@ inline double len(const Point<T>& g) {
  return 0;
 }
 // _____________________________________________________________________________
 template <typename T>
 inline double len(const Line<T>& g) {
  double ret = 0;
  for (size_t i = 1; i < g.size(); i++) ret += dist(g[i - 1], g[i]);
  return ret;
 }
 // _____________________________________________________________________________
 template <typename T>
 inline Point<T> simplify(const Point<T>& g, double d) {
  return g;
 }
 // _____________________________________________________________________________
 template <typename T>
 inline Line<T> simplify(const Line<T>& g, double d) {
  return g;
 }
 // _____________________________________________________________________________
 inline double distToSegment(double lax, double lay, double lbx, double lby,
                            double px, double py) {
@ -374,24 +413,17 @@ inline double distToSegment(double lax, double lay, double lbx, double lby,
 template <typename T>
 inline double distToSegment(const Point<T>& la, const Point<T>& lb,
                            const Point<T>& p) {
-  return distToSegment(la.getX(), la.getY(),
+  return distToSegment(la.getX(), la.getY(), lb.getX(), lb.getY(), p.getX(),
-                       lb.getX(), lb.getY(),
+                       p.getY());
                       p.getX(), p.getY());
 }
 // _____________________________________________________________________________
 template <typename T>
 inline Point<T> projectOn(const Point<T>& a, const Point<T>& b,
                          const Point<T>& c) {
-  if (doubleEq(a.getX(), b.getX()) &&
+  if (doubleEq(a.getX(), b.getX()) && doubleEq(a.getY(), b.getY())) return a;
-      doubleEq(a.getY(), b.getY()))
+  if (doubleEq(a.getX(), c.getX()) && doubleEq(a.getY(), c.getY())) return a;
-    return a;
+  if (doubleEq(b.getX(), c.getX()) && doubleEq(b.getY(), c.getY())) return b;
  if (doubleEq(a.getX(), c.getX()) &&
      doubleEq(a.getY(), c.getY()))
    return a;
  if (doubleEq(b.getX(), c.getX()) &&
      doubleEq(b.getY(), c.getY()))
    return b;
  double x, y;
@ -400,13 +432,11 @@ inline Point<T> projectOn(const Point<T>& a, const Point<T>& b,
    x = a.getX();
    y = b.getY();
  } else {
-    double m = (double)(c.getY() - a.getY()) /
+    double m = (double)(c.getY() - a.getY()) / (c.getX() - a.getX());
               (c.getX() - a.getX());
    double bb = (double)a.getY() - (m * a.getX());
    x = (m * b.getY() + b.getX() - m * bb) / (m * m + 1);
-    y = (m * m * b.getY() + m * b.getX() + bb) /
+    y = (m * m * b.getY() + m * b.getX() + bb) / (m * m + 1);
        (m * m + 1);
  }
  Point<T> ret = Point<T>(x, y);
@ -424,18 +454,18 @@ template <typename T>
 inline double parallelity(const Box<T>& box, const Line<T>& line) {
  double ret = M_PI;
-  double a = angBetween(box.min_corner(),
+  double a = angBetween(
-                        Point<T>(box.min_corner().getX(),
+      box.getLowerLeft(),
-                                 box.max_corner().getY()));
+      Point<T>(box.getLowerLeft().getX(), box.getUpperRight().getY()));
-  double b = angBetween(box.min_corner(),
+  double b = angBetween(
-                        Point<T>(box.max_corner().getX(),
+      box.getLowerLeft(),
-                                 box.min_corner().getY()));
+      Point<T>(box.getUpperRight().getX(), box.getLowerLeft().getY()));
-  double c = angBetween(box.max_corner(),
+  double c = angBetween(
-                        Point<T>(box.min_corner().getX(),
+      box.getUpperRight(),
-                                 box.max_corner().getY()));
+      Point<T>(box.getLowerLeft().getX(), box.getUpperRight().getY()));
-  double d = angBetween(box.max_corner(),
+  double d = angBetween(
-                        Point<T>(box.max_corner().getX(),
+      box.getUpperRight(),
-                                 box.min_corner().getY()));
+      Point<T>(box.getUpperRight().getX(), box.getLowerLeft().getY()));
  double e = angBetween(line.front(), line.back());
@ -454,159 +484,170 @@ inline double parallelity(const Box<T>& box, const Line<T>& line) {
 // _____________________________________________________________________________
 // template <typename T>
 // inline double parallelity(const Box<T>& box, const MultiLine<T>& multiline) {
-  // double ret = 0;
+// double ret = 0;
-  // for (const Line<T>& l : multiline) {
+// for (const Line<T>& l : multiline) {
-    // ret += parallelity(box, l);
+// ret += parallelity(box, l);
-  // }
+// }
-  // return ret / multiline.size();
+// return ret / multiline.size();
 // }
 // _____________________________________________________________________________
 // template <typename GeomA, typename GeomB>
 // inline bool intersects(const GeomA& a, const GeomB& b) {
-  // return bgeo::intersects(a, b);
+// return bgeo::intersects(a, b);
 // }
 // _____________________________________________________________________________
 // template <typename T, template <typename> typename Geometry>
 // inline RotatedBox<T> getOrientedEnvelope(Geometry<T> pol) {
-  // // TODO: implement this nicer, works for now, but inefficient
+// // TODO: implement this nicer, works for now, but inefficient
-  // // see
+// // see
-  // // https://geidav.wordpress.com/tag/gift-wrapping/#fn-1057-FreemanShapira1975
+// // https://geidav.wordpress.com/tag/gift-wrapping/#fn-1057-FreemanShapira1975
-  // // for a nicer algorithm
+// // for a nicer algorithm
-  // Point<T> center;
+// Point<T> center;
-  // bgeo::centroid(pol, center);
+// bgeo::centroid(pol, center);
-  // Box<T> tmpBox = getBoundingBox(pol);
+// Box<T> tmpBox = getBoundingBox(pol);
-  // double rotateDeg = 0;
+// double rotateDeg = 0;
-  // // rotate in 5 deg steps
+// // rotate in 5 deg steps
-  // for (int i = 1; i < 360; i += 1) {
+// for (int i = 1; i < 360; i += 1) {
-    // pol = rotate(pol, 1, center);
+// pol = rotate(pol, 1, center);
-    // Box<T> e;
+// Box<T> e;
-    // bgeo::envelope(pol, e);
+// bgeo::envelope(pol, e);
-    // if (bgeo::area(tmpBox) > bgeo::area(e)) {
+// if (bgeo::area(tmpBox) > bgeo::area(e)) {
-      // tmpBox = e;
+// tmpBox = e;
-      // rotateDeg = i;
+// rotateDeg = i;
-    // }
+// }
-  // }
+// }
-  // return RotatedBox<T>(tmpBox, -rotateDeg, center);
+// return RotatedBox<T>(tmpBox, -rotateDeg, center);
 // }
 // _____________________________________________________________________________
 template <typename T>
-// inline Box<T> getBoundingBox(Point<T> pol) {
+inline Box<T> getBoundingBox(const Point<T>& p) {
-  // Box<T> tmpBox;
+  return Box<T>(p, p);
-  // bgeo::envelope(pol, tmpBox);
+}
  // return tmpBox;
 // }
 // _____________________________________________________________________________
-// template <typename T>
+template <typename T>
-// inline Box<T> extendBox(const Box<T>& a, Box<T> b) {
+inline Box<T> getBoundingBox(const Line<T>& l) {
-  // bgeo::expand(b, a);
+  Box<T> ret;
-  // return b;
+  for (const auto& p : l) extendBox(p, ret);
-// }
+  return ret;
 }
 // _____________________________________________________________________________
-template <typename G, typename T>
+template <typename T>
-inline Box<T> extendBox(G pol, Box<T> b) {
+inline Box<T> extendBox(const Box<T>& a, Box<T> b) {
-  Box<T> tmp;
+  b = extendBox(a.getLowerLeft(), b);
-  bgeo::envelope(pol, tmp);
+  b = extendBox(a.getUpperRight(), b);
  bgeo::expand(b, tmp);
  return b;
 }
 // _____________________________________________________________________________
-// template <typename T>
+template <typename T>
-// inline double commonArea(const Box<T>& ba, const Box<T>& bb) {
+inline Box<T> extendBox(const Point<T>& p, Box<T> b) {
-  // T l = std::max(ba.min_corner().getX(),
+  if (p.getX() < b.getLowerLeft().getX()) b.getLowerLeft().setX(p.getX());
-                 // bb.min_corner().getX());
+  if (p.getY() < b.getLowerLeft().getY()) b.getLowerLeft().setY(p.getY());
  // T r = std::min(ba.max_corner().getX(),
                 // bb.max_corner().getX());
  // T b = std::max(ba.min_corner().getY(),
                 // bb.min_corner().getY());
  // T t = std::min(ba.max_corner().getY(),
                 // bb.max_corner().getY());
-  // if (l > r || b > t) return 0;
+  if (p.getX() > b.getUpperRight().getX()) b.getUpperRight().setX(p.getX());
  if (p.getY() > b.getUpperRight().getY()) b.getUpperRight().setY(p.getY());
  return b;
 }
-  // return (r - l) * (t - b);
+// _____________________________________________________________________________
-// }
+template <typename T>
 inline Box<T> extendBox(const Line<T>& l, Box<T> b) {
  for (const auto& p : l) b = extendBox(p, b);
  return b;
 }
 // _____________________________________________________________________________
 template <typename T>
 inline double commonArea(const Box<T>& ba, const Box<T>& bb) {
  T l = std::max(ba.getLowerLeft().getX(), bb.getLowerLeft().getX());
  T r = std::min(ba.getUpperRight().getX(), bb.getUpperRight().getX());
  T b = std::max(ba.getLowerLeft().getY(), bb.getLowerLeft().getY());
  T t = std::min(ba.getUpperRight().getY(), bb.getUpperRight().getY());
  if (l > r || b > t) return 0;
  return (r - l) * (t - b);
 }
 // _____________________________________________________________________________
 // template <typename T, template <typename> typename Geometry>
 // inline RotatedBox<T> getFullEnvelope(Geometry<T> pol) {
-  // Point<T> center;
+// Point<T> center;
-  // bgeo::centroid(pol, center);
+// bgeo::centroid(pol, center);
-  // Box<T> tmpBox;
+// Box<T> tmpBox;
-  // bgeo::envelope(pol, tmpBox);
+// bgeo::envelope(pol, tmpBox);
-  // double rotateDeg = 0;
+// double rotateDeg = 0;
-  // MultiPolygon<T> ml;
+// MultiPolygon<T> ml;
-  // // rotate in 5 deg steps
+// // rotate in 5 deg steps
-  // for (int i = 1; i < 360; i += 1) {
+// for (int i = 1; i < 360; i += 1) {
-    // pol = rotate(pol, 1, center);
+// pol = rotate(pol, 1, center);
-    // Polygon<T> hull;
+// Polygon<T> hull;
-    // bgeo::convex_hull(pol, hull);
+// bgeo::convex_hull(pol, hull);
-    // ml.push_back(hull);
+// ml.push_back(hull);
-    // Box<T> e;
+// Box<T> e;
-    // bgeo::envelope(pol, e);
+// bgeo::envelope(pol, e);
-    // if (bgeo::area(tmpBox) > bgeo::area(e)) {
+// if (bgeo::area(tmpBox) > bgeo::area(e)) {
-      // tmpBox = e;
+// tmpBox = e;
-      // rotateDeg = i;
+// rotateDeg = i;
-    // }
+// }
-  // }
+// }
-  // bgeo::envelope(ml, tmpBox);
+// bgeo::envelope(ml, tmpBox);
-  // return RotatedBox<T>(tmpBox, rotateDeg, center);
+// return RotatedBox<T>(tmpBox, rotateDeg, center);
 // }
 // _____________________________________________________________________________
 // template <typename T>
 // inline RotatedBox<T> getOrientedEnvelopeAvg(MultiLine<T> ml) {
-  // MultiLine<T> orig = ml;
+// MultiLine<T> orig = ml;
-  // // get oriented envelope for hull
+// // get oriented envelope for hull
-  // RotatedBox<T> rbox = getFullEnvelope<T>(ml);
+// RotatedBox<T> rbox = getFullEnvelope<T>(ml);
-  // Point<T> center;
+// Point<T> center;
-  // bgeo::centroid(rbox.b, center);
+// bgeo::centroid(rbox.b, center);
-  // ml = rotate(ml, -rbox.rotateDeg - 45, center);
+// ml = rotate(ml, -rbox.rotateDeg - 45, center);
-  // double bestDeg = -45;
+// double bestDeg = -45;
-  // double score = parallelity(rbox.b, ml);
+// double score = parallelity(rbox.b, ml);
-  // for (double i = -45; i <= 45; i += .5) {
+// for (double i = -45; i <= 45; i += .5) {
-    // ml = rotate(ml, -.5, center);
+// ml = rotate(ml, -.5, center);
-    // double p = parallelity(rbox.b, ml);
+// double p = parallelity(rbox.b, ml);
-    // if (parallelity(rbox.b, ml) > score) {
+// if (parallelity(rbox.b, ml) > score) {
-      // bestDeg = i;
+// bestDeg = i;
-      // score = p;
+// score = p;
-    // }
+// }
-  // }
+// }
-  // rbox.rotateDeg += bestDeg;
+// rbox.rotateDeg += bestDeg;
-  // // move the box along 45deg angles from its origin until it fits the ml
+// // move the box along 45deg angles from its origin until it fits the ml
-  // // = until the intersection of its hull and the box is largest
+// // = until the intersection of its hull and the box is largest
-  // Polygon<T> p = rbox.getPolygon();
+// Polygon<T> p = rbox.getPolygon();
-  // p = rotate(p, -rbox.rotateDeg, rbox.center);
+// p = rotate(p, -rbox.rotateDeg, rbox.center);
-  // Polygon<T> hull;
+// Polygon<T> hull;
-  // bgeo::convex_hull(orig, hull);
+// bgeo::convex_hull(orig, hull);
-  // hull = rotate(hull, -rbox.rotateDeg, rbox.center);
+// hull = rotate(hull, -rbox.rotateDeg, rbox.center);
-  // Box<T> box;
+// Box<T> box;
-  // bgeo::envelope(hull, box);
+// bgeo::envelope(hull, box);
-  // rbox = RotatedBox<T>(box, rbox.rotateDeg, rbox.center);
+// rbox = RotatedBox<T>(box, rbox.rotateDeg, rbox.center);
-  // return rbox;
+// return rbox;
 // }
 // _____________________________________________________________________________
@ -619,15 +660,13 @@ inline Line<T> densify(const Line<T>& l, double d) {
  ret.push_back(l.front());
  for (size_t i = 1; i < l.size(); i++) {
-    double segd = dist(l[i-1], l[i]);
+    double segd = dist(l[i - 1], l[i]);
-    double dx =
+    double dx = (l[i].getX() - l[i - 1].getX()) / segd;
-        (l[i].getX() - l[i-1].getX()) / segd;
+    double dy = (l[i].getY() - l[i - 1].getY()) / segd;
    double dy =
        (l[i].getY() - l[i-1].getY()) / segd;
    double curd = d;
    while (curd < segd) {
-      ret.push_back(Point<T>(l[i-1].getX() + dx * curd,
+      ret.push_back(
-                             l[i-1].getY() + dy * curd));
+          Point<T>(l[i - 1].getX() + dx * curd, l[i - 1].getY() + dy * curd));
      curd += d;
    }
@ -683,29 +722,29 @@ inline double frechetDist(const Line<T>& a, const Line<T>& b, double d) {
 // _____________________________________________________________________________
 template <typename T>
 inline double accFrechetDistC(const Line<T>& a, const Line<T>& b, double d) {
  auto p = densify(a, d);
  auto q = densify(b, d);
  std::vector<std::vector<double>> ca(p.size(),
-                                        std::vector<double>(q.size(), 0));
+                                      std::vector<double>(q.size(), 0));
-  for (size_t i = 0; i < p.size(); i++) ca[i][0] = std::numeric_limits<double>::infinity();
+  for (size_t i = 0; i < p.size(); i++)
-  for (size_t j = 0; j < q.size(); j++) ca[0][j] = std::numeric_limits<double>::infinity();
+    ca[i][0] = std::numeric_limits<double>::infinity();
  for (size_t j = 0; j < q.size(); j++)
    ca[0][j] = std::numeric_limits<double>::infinity();
  ca[0][0] = 0;
  for (size_t i = 1; i < p.size(); i++) {
    for (size_t j = 1; j < q.size(); j++) {
-      double d = util::geo::dist(p[i], q[j]) * util::geo::dist(p[i], p[i-1]);
+      double d = util::geo::dist(p[i], q[j]) * util::geo::dist(p[i], p[i - 1]);
-      ca[i][j] = d + std::min(ca[i-1][j], std::min(ca[i][j-1], ca[i-1][j-1]));
+      ca[i][j] =
          d + std::min(ca[i - 1][j], std::min(ca[i][j - 1], ca[i - 1][j - 1]));
    }
  }
  return ca[p.size() - 1][q.size() - 1];
 }
 // _____________________________________________________________________________
 template <typename T>
 inline Point<T> latLngToWebMerc(double lat, double lng) {
--- a/src/util/geo/Line.h
+++ b/src/util/geo/Line.h
@ -0,0 +1,21 @@
 // Copyright 2016, University of Freiburg,
 // Chair of Algorithms and Data Structures.
 // Author: Patrick Brosi <brosi@informatik.uni-freiburg.de>
 #ifndef UTIL_GEO_LINE_H_
 #define UTIL_GEO_LINE_H_
 #include <vector>
 #include "./Point.h"
 namespace util {
 namespace geon {
 template<typename T>
 using Line = std::vector<Point<T>>;
 }  // namespace geon
 }  // namespace util
 #endif  // UTIL_GEO_LINE_H_
--- a/src/util/geo/Point.h
+++ b/src/util/geo/Point.h
@ -5,9 +5,6 @@
 #ifndef UTIL_GEO_POINT_H_
 #define UTIL_GEO_POINT_H_
 #include <set>
 #include <vector>
 namespace util {
 namespace geon {
@ -21,9 +18,20 @@ class Point {
  void setX(T x) { _x = x; }
  void setY(T y) { _y = y; }
  Point<T> operator+(const Point<T>& p) const {
    return Point<T>(_x + p.getX(), _y + p.getY());
  }
  bool operator==(const Point<T>& p) const {
    return p.getX() == _x && p.getY() == _y;
  }
  bool operator!=(const Point<T>& p) const {
    return !(*this == p);
  }
 private:
  T _x, _y;
 };
 }  // namespace geon
--- a/src/util/tests/TestMain.cpp
+++ b/src/util/tests/TestMain.cpp
@ -846,6 +846,43 @@ CASE("nullable") {
 // ___________________________________________________________________________
 CASE("geometry") {
  geon::Point<double> a(1, 2);
  geon::Point<double> b(2, 3);
  geon::Point<double> c(4, 5);
  EXPECT(a.getX() == approx(1));
  EXPECT(a.getY() == approx(2));
  a.setX(3);
  EXPECT(a.getX() == approx(3));
  EXPECT(a.getY() == approx(2));
  a.setY(4);
  EXPECT(a.getX() == approx(3));
  EXPECT(a.getY() == approx(4));
  auto d = a + b;
  EXPECT(d.getX() == approx(5));
  EXPECT(d.getY() == approx(7));
  a.setX(1);
  a.setY(2);
  EXPECT(geon::dist(a, a) == approx(0));
  EXPECT(geon::dist(a, b) == approx(sqrt(2)));
  d = d + d;
  geon::Box<double> box(a, c);
  EXPECT(geon::contains(a, box));
  EXPECT(geon::contains(b, box));
  EXPECT(geon::contains(c, box));
  EXPECT(!geon::contains(d, box));
  geon::Line<double> line{a, b, c};
  EXPECT(geon::contains(line, box));
  line.push_back(d);
  EXPECT(!geon::contains(line, box));
 }
 };