libtulip-dev 3.1.2-2.3ubuntu3 / usr / include / tulip / cxx / Circle.cxx

//-*-c++-*-
/**
 Authors: David Auber, Patrick Mary, Morgan Mathiaut
 from the LaBRI Visualization Team
 Email : auber@tulip-software.org
 Last modification : 13/03/2009 
 This program is free software; you can redistribute it and/or modify
 it under the terms of the GNU General Public License as published by  
 the Free Software Foundation; either version 2 of the License, or     
 (at your option) any later version.
*/
#include <stdlib.h>

template<typename Obj>
tlp::Circle<Obj> & tlp::Circle<Obj>::merge(const tlp::Circle<Obj> &c) {
  Vector<Obj,2> p1(*this);
  Vector<Obj,2> p2(c);
  Vector<Obj,2> c12=p2-p1;
  double norm=c12.norm();
  if (norm < 0.0000001) {
    if (radius<c.radius)
      return (*this)=c;
    else
      return *this;
  }
  double dx=c12[0]/norm;
  double dy=c12[1]/norm;
  p1[0]-=dx*radius;
  p1[1]-=dy*radius;
  p2[0]+=dx*c.radius;
  p2[1]+=dy*c.radius;
  Obj tmpDist=p1.dist(p2)/2.;
  if ( (tmpDist<radius) || (tmpDist<c.radius)) {
    if (radius>c.radius) 
      return *this; 
    else
      return (*this)=c; 
  }
  else {
    p1+=p2;
    p1/=2.;
    (*this)[0]=p1[0];
    (*this)[1]=p1[1];
    radius=tmpDist;
    return *this;
  }
}

template<typename Obj>
bool tlp::Circle<Obj>::isIncludeIn(const tlp::Circle<Obj> &c) const {
  Vector<Obj,2> dir=c-*this;
  return (dir.norm()+radius)<=c.radius;
}

template<typename Obj>
tlp::Circle<Obj> tlp::enclosingCircle(const tlp::Circle<Obj> &c1,const tlp::Circle<Obj> &c2) {
  Vector<Obj,2> dir=c2-c1;
  Obj n=dir.norm();
  if (n==0)
    return Circle<Obj>(c1, std::max(c1.radius,  c2.radius));
  dir/=n;
  Vector<Obj,2> ext1=c1-dir*c1.radius;
  Vector<Obj,2> ext2=c2+dir*c2.radius;
  return Circle<Obj>((ext1+ext2)/Obj(2),(ext2-ext1).norm()/Obj(2));
}

template<typename Obj>
tlp::Circle<Obj> tlp::lazyEnclosingCircle(const std::vector<tlp::Circle<Obj> > & circles) {
  //compute bounding box of a
  tlp::Vector<Obj,4> boundingBox;
  //  for (int i=0;i<4;++i) boundingBox[i]=0;
  typename std::vector< tlp::Circle<Obj> >::const_iterator it=circles.begin();
  boundingBox[0]=(*it)[0]-(*it).radius;
  boundingBox[1]=(*it)[1]-(*it).radius;
  boundingBox[2]=(*it)[0]+(*it).radius;
  boundingBox[3]=(*it)[1]+(*it).radius;
  ++it;
  for (;it!=circles.end();++it) {
    boundingBox[0] = std::min(boundingBox[0] , ((*it)[0]-(*it).radius));
    boundingBox[1] = std::min(boundingBox[1] , ((*it)[1]-(*it).radius));
    boundingBox[2] = std::max(boundingBox[2] , ((*it)[0]+(*it).radius));
    boundingBox[3] = std::max(boundingBox[3] , ((*it)[1]+(*it).radius));
  }

  tlp::Vector<Obj,2> center;
  center[0]=(boundingBox[0]+boundingBox[2])/2.;
  center[1]=(boundingBox[1]+boundingBox[3])/2.;
  Obj radius = std::max( (boundingBox[2]-boundingBox[0])/2., (boundingBox[3]-boundingBox[1])/2. );
  tlp::Circle<Obj> result(center,radius);
  //compute circle hull
  for (typename std::vector< tlp::Circle<Obj> >::const_iterator it=circles.begin();it!=circles.end();++it) 
    result.merge(*it);
 
  return result;
}

template<typename Obj>
tlp::Circle<Obj> tlp::enclosingCircle(const std::vector<tlp::Circle<Obj> > & circles) {
  class OptimumCircleHull {
    const std::vector<tlp::Circle<Obj> > *circles;
    std::vector<unsigned> enclosedCircles;
    unsigned first,last;
    unsigned b1,b2;
    tlp::Circle<Obj> result;
    
    static tlp::Circle<Obj> enclosingCircle(const tlp::Circle<Obj> &c1,const tlp::Circle<Obj> &c2,const tlp::Circle<Obj> &c3) {
      Obj a1 = c1[0];
      Obj b1 = c1[1];
      Obj r1 = c1.radius;
      Obj a2 = c2[0];
      Obj b2 = c2[1];
      Obj r2 = c2.radius;
      Obj a3 = c3[0];
      Obj b3 = c3[1];
      Obj r3 = c3.radius;
      Obj b = -b1*r2*a1*a1*b3+a3*a3*r2*r2*r2+b2*b2*r3*r3*r3+b1*b1*r3*r3*r3+b1*b1*r2*r2*r2+r1*r1*r1*b3*b3+r1*r1*r1*b2*b2+r2*r2*r2*b3*b3
	+a1*a1*r3*r3*r3+a2*a2*r1*r1*r1+a2*a2*r3*r3*r3+a1*a1*r2*r2*r2+a3*a3*r1*r1*r1-b2*b2*r3*a3*a3-b2*b2*r3*b3*b3-2*b2*r3*r3*r3*b1
	-b1*b1*r3*a3*a3-b1*b1*r3*b3*b3-b1*b1*r2*a2*a2+2*b1*b1*r2*b3*b3-b1*b1*r2*r3*r3-r1*b3*b3*b3*b2+r1*b3*b3*b3*b1
	+2*r1*b2*b2*b3*b3-r1*b2*b2*r3*r3+r2*b3*b3*b3*b2-r2*b3*b3*b3*b1-b2*b2*b2*r3*b1+2*b2*b2*r3*b1*b1+b2*b2*b2*r3*b3
	-b2*b2*r3*r1*r1+b1*b1*b1*r3*b3-b1*b1*b1*r3*b2-b1*b1*r3*r2*r2-b1*b1*r2*b2*b2-b1*b1*b1*r2*b3+b1*b1*b1*r2*b2
	-2*b1*r2*r2*r2*b3-r1*b3*b3*b1*b1-2*r1*r1*r1*b3*b2-r1*b3*b3*r2*r2-r1*b3*b3*a1*a1+r1*b2*b2*b2*b1
	-r1*b2*b2*b1*b1-r1*b2*b2*b2*b3-r1*b2*b2*a1*a1-r2*b3*b3*a2*a2-r2*b3*b3*b2*b2-r2*b3*b3*r1*r1
	-b2*r3*b1*b1*b3+b2*r3*a2*a2*b3+b2*r3*r1*r1*b3-b2*r3*r2*r2*b3+b2*r3*a1*a1*b3-2*b2*r3*a1*a2*b3+a1*a3*b2*b2*r3
	-2*a1*a3*b2*b1*r3-2*a1*a3*b2*b1*r2-2*a1*a3*b2*r1*b3+a1*a3*b2*b2*r1-2*a1*a3*b2*r2*b3-b2*r3*b1*a2*a2
	+2*b2*r3*b1*a3*a3+2*b2*r3*b1*b3*b3+b1*r2*b2*a3*a3-b1*r2*b2*b3*b3+b1*r2*b2*r3*r3+r1*b3*b1*a2*a2
	-r1*b3*b2*a3*a3+r1*b3*b2*r3*r3+r1*b3*b1*a3*a3-r1*b3*b1*r3*r3+r1*b2*b1*a2*a2+r1*b2*b1*a3*a3
	-r1*b2*b1*b3*b3+r1*b2*b1*r3*r3+2*r2*b3*b1*a2*a2+r2*b3*b2*a3*a3-r2*b3*b2*r3*r3-r2*b3*b1*a3*a3
	+r2*b3*b1*r3*r3+b2*r3*b1*r2*r2+4*b2*r3*a1*a2*b1+b1*r3*a2*a2*b3-b1*r3*b2*b2*b3
	-b1*r3*r1*r1*b3+b1*r3*r1*r1*b2+b1*r3*r2*r2*b3+b1*r3*a1*a1*b3-b1*r3*a1*a1*b2-2*b1*r3*a1*a2*b3-b1*b1*r3*a1*a2
	+b1*b1*r3*a1*a3+2*b1*r2*b2*b2*b3+b1*r2*r1*r1*b3-b1*r2*r1*r1*b2+b1*r2*a1*a1*b2
	-2*b1*r2*a1*a2*b3+b1*b1*r2*a1*a2-b1*b1*r2*a1*a3-r1*b3*b1*b2*b2+2*r1*b3*b1*b1*b2+2*r1*b3*a1*a1*b2+r1*b3*b1*r2*r2
	+r1*b3*b3*a1*a2-r1*b2*a2*a2*b3+r1*b2*r2*r2*b3-r1*b2*b1*r2*r2-2*r1*b2*a1*a2*b3-r2*b3*b1*b1*b2
	+r2*b3*r1*r1*b2+r2*b3*a1*a1*b2+r2*b3*b3*a1*a2+4*r2*b3*a1*a3*b1-a1*a1*a3*a3*r3+2*a1*a1*a3*a3*r2+a1*a3*a3*a3*r1
	-a1*a1*b3*b3*r3-a1*b3*b3*a3*r2+a1*r3*r3*a3*r2-a2*a1*a1*a3*r2+a2*b1*b1*a3*r2+a2*b3*b3*a3*r2
	-a1*a3*a3*a2*r1+2*a1*a3*a3*a2*r3+2*a1*b3*b3*a2*r3+a1*b3*b3*a3*r1-2*a1*r3*r3*r3*a2-a1*a1*r3*r3*r2
	-a2*a1*a1*a1*r3-a2*a2*a1*a1*r1+2*a2*a2*a1*a1*r3+a2*a1*a1*a1*r2-a2*a2*b1*b1*r1+2*a2*a2*a3*a3*r1-a2*a2*a3*a3*r3
	-a2*a3*a3*a3*r1-a2*a2*b3*b3*r3-a2*a2*r1*r1*r3-2*a2*r1*r1*r1*a3+a1*r3*r3*a2*r1-a1*r3*r3*a3*r1
	+2*a2*a1*a1*a3*r1+2*a2*b1*b1*a3*r1-a2*a3*a3*a1*r2-a2*b3*b3*a3*r1+a2*r1*r1*a1*r3-a2*r1*r1*a1*r2-a2*a2*r3*r3*r1
	-a1*a3*a3*a3*r2+a2*a3*a3*a3*r2-a1*a1*r3*r2*r2+a1*a1*a1*r3*a3+a2*a2*a2*r1*a1-a2*a2*a2*r1*a3-a2*a2*a2*r3*a1+a2*a2*a2*r3*a3
	-a1*a1*r2*a2*a2-a1*a1*r2*b2*b2-a1*a1*a1*r2*a3-2*a1*r2*r2*r2*a3-a3*a3*r1*a1*a1-a3*a3*r1*b1*b1-a3*a3*r1*r2*r2
	-a3*a3*r2*a2*a2-a3*a3*r2*b2*b2-a3*a3*r2*r1*r1+a2*r3*r3*a1*r2+a2*r3*r3*a3*r1-2*a3*r2*b1*a2*b3
	+a2*r1*r1*a3*r2-a2*r3*r3*a3*r2-a1*r3*a3*a2*a2-a1*r3*a3*r1*r1+a1*r3*a3*r2*r2+a2*r1*a1*b2*b2
	-a2*r1*a1*r2*r2-a2*r1*a3*b2*b2+a2*r1*a3*r2*r2-2*a2*r1*b1*a3*b2-a2*r3*a1*b2*b2+a2*r3*a1*r2*r2
	-a2*r3*a3*a1*a1+a2*r3*a3*b1*b1+a2*r3*a3*b2*b2+a2*r3*a3*r1*r1-a2*r3*a3*r2*r2-2*a2*r3*b1*a3*b2+2*a1*r2*a3*a2*a2
	+2*a1*r2*a3*b2*b2+a1*r2*a3*r1*r1-a3*r1*a1*a2*a2+a3*r1*a1*r2*r2-2*a3*r1*b1*a2*b3
	+4*r1*a3*b2*a2*b3;
      Obj tmp=a2*b3-a3*b2-a2*b1-a1*b3+a1*b2+a3*b1;
      Obj d = sqrt((a2*a2+b2*b2-r2*r2-2*a2*a3+a3*a3-r3*r3-2*b3*b2+b3*b3+2*r3*r2)*
		    (b3*b3+b1*b1-r1*r1-r3*r3-2*b1*b3+2*r3*r1+a3*a3-2*a1*a3+a1*a1)*
		    (a1*a1-2*a1*a2-r1*r1+b1*b1+b2*b2-r2*r2-2*b2*b1+2*r2*r1+a2*a2)*
		    tmp*tmp);
      Obj v = d-b;
      if (v<0) return tlp::Circle<Obj>(0,0,0);
      Obj aa = -2*a3*b2*b2*a1-2*a2*b3*b3*a1
	-2*a1*a1*b3*b2+a3*a3*b2*b2+a2*a2*b3*b3-r1*r1*b3*b3-r1*r1*b2*b2+a2*a2*b1*b1+a3*a3*b1*b1-a2*a2*r1*r1
	-a2*a2*r3*r3-a3*a3*r2*r2-2*a3*b2*a2*b3+2*a3*b2*a2*b1+2*a2*b3*a3*b1-2*b1*a2*a2*b3-a3*a3*r1*r1
	-2*a3*a3*b2*b1+2*b1*r3*r3*b2+2*r1*r1*b3*b2+2*b3*b1*r2*r2-2*a2*b1*b1*a3+2*a2*a3*r1*r1-b2*b2*r3*r3-b1*b1*r3*r3
	-b1*b1*r2*r2-r2*r2*b3*b3-a1*a1*r3*r3-a1*a1*r2*r2+a1*a1*b3*b3+a1*a1*b2*b2+2*b2*b2*r3*r1+2*b1*b1*r3*r2
	+2*r1*b3*b3*r2-2*b2*r3*b1*r2-2*b2*r3*r1*b3+2*b2*r3*r2*b3+2*b1*r3*r1*b3-2*b1*r3*r1*b2
	-2*b1*r3*r2*b3-2*b1*r2*r1*b3+2*b1*r2*r1*b2-2*r1*b2*r2*b3+2*a1*r3*r3*a2+2*a1*a1*r3*r2+2*a2*a2*r1*r3
	+2*a1*r2*r2*a3+2*a3*a3*r1*r2-2*a1*r3*a2*r1+2*a1*r3*a3*r1+2*a2*r1*a1*r2-2*a2*r3*a1*r2
	-2*a2*r3*a3*r1-2*a1*r2*a3*r1-2*a1*r3*a3*r2-2*a2*r1*a3*r2+2*a2*r3*a3*r2+2*a2*b3*a1*b2
	+2*a3*b2*a1*b3+2*a2*b1*a1*b3-2*a2*b1*a1*b2-2*a1*b3*a3*b1+2*a1*b2*a3*b1;
      Obj R = 0.5*v/aa;
      Obj y = -0.5*(-2*a1*R*r2-2*a3*R*r1+2*a2*R*r1+2*a3*R*r2-2*a2*R*r3+a1*a3*a3+a1*b3*b3-a1*r3*r3
		       +a2*a1*a1+a2*b1*b1+a1*r2*r2+2*a1*R*r3-a3*b1*b1+a3*a2*a2+a3*b2*b2+a3*r1*r1-a3*r2*r2-a2*a3*a3-a2*b3*b3
		       -a2*r1*r1+a2*r3*r3-a1*a2*a2-a1*b2*b2-a3*a1*a1)/(a2*b3+a3*b1-a2*b1-a1*b3+a1*b2-a3*b2);
      Obj x = 0.5*(-a1*a1*b3+a1*a1*b2+2*R*r2*b3+b1*a3*a3+b1*b3*b3+2*b1*R*r3-2*R*r1*b3+2*R*r1*b2+b1*r2*r2
		      -b2*a3*a3-b2*b3*b3+b2*r3*r3-2*b2*R*r3-b1*r3*r3-r2*r2*b3+a2*a2*b3-r1*r1*b2-b1*b2*b2+b1*b1*b2-b1*b1*b3
		      -b1*a2*a2+b2*b2*b3+r1*r1*b3-2*b1*R*r2)/(a2*b3+a3*b1-a2*b1-a1*b3+a1*b2-a3*b2);
      return  tlp::Circle<Obj>(x,y,R);
    }

    void process2() {
      if (isEmpty()) {
	result=tlp::enclosingCircle((*circles)[b1],(*circles)[b2]);
      } else {
	unsigned selectedCircle=popBack();
	process2();
	if (!(*circles)[selectedCircle].isIncludeIn(result)) {
	  result=enclosingCircle((*circles)[b1],(*circles)[b2],(*circles)[selectedCircle]);
	  pushFront(selectedCircle);
	} else {
	  pushBack(selectedCircle);
	}
      }
    }
    
    void process1() {
      if (isEmpty()) {
	result=(*circles)[b1];
      } else {
	unsigned selectedCircle=popBack();
	process1();
	if (!(*circles)[selectedCircle].isIncludeIn(result)) {
	  b2=selectedCircle;
	  process2();
	  pushFront(selectedCircle);
	} else {
	  pushBack(selectedCircle);
	}
      }
    }
    void process0() {
      if (isEmpty()) {
	result=Circle<Obj>(0,0,0);
      } else {
	unsigned selectedCircle=popBack();
	process0();
	if (!(*circles)[selectedCircle].isIncludeIn(result)) {
	  b1=selectedCircle;
	  process1();
	  pushFront(selectedCircle);
	} else {
	  pushBack(selectedCircle);
	}
      }
    }
    bool isEmpty() const {
      return first==(last+1)%enclosedCircles.size();
    }
    void pushFront(unsigned c) {
      first=(first+enclosedCircles.size()-1)%enclosedCircles.size();
      enclosedCircles[first]=c;
    }
    unsigned popBack() {
      unsigned result=enclosedCircles[last];
      last=(last+enclosedCircles.size()-1)%enclosedCircles.size();
      return result;
    }
    void pushBack(unsigned c) {
      last=(last+1)%enclosedCircles.size();
      enclosedCircles[last]=c;
    }
  public:
    tlp::Circle<Obj> operator()(const std::vector<tlp::Circle<Obj> > &circlesSet) {
      circles=&circlesSet;
      enclosedCircles.resize(circlesSet.size()+1);
      first=0;
      last=circlesSet.size()-1;
      for (unsigned i=0;i<circlesSet.size();++i) 
	enclosedCircles[i]=i;
      for (unsigned i=circlesSet.size();i>0;) {
	unsigned idx=(unsigned)(1.0*rand()*i/RAND_MAX);
	--i;
	std::swap(enclosedCircles[idx],enclosedCircles[i]);
      }
      process0();
      return result;
    }
  };
  return OptimumCircleHull()(circles);
}

template <typename Obj>
std::ostream& tlp::operator<<(std::ostream &os,const tlp::Circle<Obj> &a) {
  os << "((" << a[0] << "," <<  a[1] << ")," << a.radius << ")";
  return os;
}