vcglib/vcg/simplex/vertex/distance.h

/****************************************************************************
* VCGLib                                                            o o     *
* Visual and Computer Graphics Library                            o     o   *
*                                                                _   O  _   *
* Copyright(C) 2004-2016                                           \/)\/    *
* Visual Computing Lab                                            /\/|      *
* ISTI - Italian National Research Council                           |      *
*                                                                    \      *
* All rights reserved.                                                      *
*                                                                           *
* 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.                                       *
*                                                                           *
* This program is distributed in the hope that it will be useful,           *
* but WITHOUT ANY WARRANTY; without even the implied warranty of            *
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the             *
* GNU General Public License (http://www.gnu.org/licenses/gpl.txt)          *
* for more details.                                                         *
*                                                                           *
****************************************************************************/
// marco :
// comments
// corrected bug


/****************************************************************************
  History

****************************************************************************/

#ifndef __VCGLIB_VERTEX_DISTANCE
#define __VCGLIB_VERTEX_DISTANCE

#include <vcg/math/base.h>
#include <vcg/space/point3.h>


namespace vcg {
	namespace vertex{

template <class SCALARTYPE>
	class PointDistanceFunctor {
	public:
		typedef Point3<SCALARTYPE> QueryType;
		static inline const Point3<SCALARTYPE> & Pos(const QueryType & qt)  {return qt;}
		template <class VERTEXTYPE>

		/*
		 * @param v [IN] is a reference to the current object being tested,
		 * @param p [IN] is the query point,
		 * @param minDist [IN/OUT] is in input the reject distance and in output the closest distance,
	     * @param q [OUT] is the closest point.
		 * 
		 * @remarks The operator returns true if the closest distance is less than input reject distance.
		 *
		 */
        inline bool operator ()  (const VERTEXTYPE & v, const Point3<SCALARTYPE> & p, SCALARTYPE & minDist, Point3<SCALARTYPE> & q) const
		{
			// convert the coordinates of p from SCALARTYPE to VERTEXTYPE::ScalarType type
			const Point3<typename VERTEXTYPE::ScalarType> fp = Point3<typename VERTEXTYPE::ScalarType>::Construct(p);

			typename VERTEXTYPE::ScalarType md;		// distance between v and fp
			md = (v.cP() - fp).Norm();

			if (md <= minDist) 
			{
				minDist = (SCALARTYPE)(md);		// minDist is updated to the closest distance
				q = v.cP();						// q is the current closest point

				return true;
			}

			return false;
		}
	};

template <class VERTYPE>
class PointNormalDistanceFunctor {
	public:
		typedef VERTYPE QueryType; 
		typedef typename VERTYPE::ScalarType ScalarType;
		static inline const Point3<typename VERTYPE::ScalarType> &  Pos(const QueryType & qt)  {return qt.P();}

		static ScalarType & Alpha(){static ScalarType alpha = 1.0; return alpha;}
		static ScalarType & Beta(){static ScalarType beta= 1.0; return beta;}
		static ScalarType & Gamma(){static ScalarType gamma= 1.0; return gamma;}
		static ScalarType & InterPoint (){static ScalarType interpoint= 1.0; return interpoint;} 

		template <class VERTEXTYPE, class SCALARTYPE>
		inline bool operator () (const VERTEXTYPE & v, const VERTEXTYPE & vp, SCALARTYPE & minDist, Point3<SCALARTYPE> & q) {

			float  h = vcg::Distance(v.cP(),vp.P())  ;
			float  dev = InterPoint() * ( pow((ScalarType) (1-v.cN().dot(vp.cN())), (ScalarType)Beta()) / (Gamma()*h +0.1));
			if(h+dev < minDist){
				minDist = h+dev;
				q = v.P(); 
				return true;
			}

		//	minDist = h +0.0* (1-v.cN()*vp.cN()) / (h + 0.1);

			return false;
		}
	};

template <class VERTEXYPE>
class PointScaledDistanceFunctor {
	public:
		typedef typename VERTEXYPE::ScalarType ScalarType;
		typedef Point3<ScalarType> QueryType;
		static inline const Point3<ScalarType> &  Pos(const QueryType & qt)  {return qt;}

		static Point3<ScalarType> & Cen(){static Point3<ScalarType> cen(0,0,0); return cen;}

		 
		inline bool operator () (const VERTEXYPE & p, const QueryType & qp, ScalarType & minDist, Point3<ScalarType> & q) {

			Point3<ScalarType> ed = (qp-p.P());
			Point3<ScalarType> dir = (p.P()-Cen()).Normalize();
			Point3<ScalarType> odir =  (dir^((ed)^dir)).Normalize();
			ScalarType d = fabs(ed * dir) + fabs(ed  *odir);
			
			if(d < minDist){
				minDist = d;
				q = p.P();
				return true;
			}
			return false;
		}
	};

template <class VertexType>
class ApproximateGeodesicDistanceFunctor {
  public:
    typedef typename VertexType::ScalarType ScalarType;
    static inline const Point3<ScalarType> &  Pos(const VertexType & qt)  {return qt.P();}

    inline bool operator () (const VertexType & v, const VertexType & vp, ScalarType & minDist, Point3<ScalarType> & q) {
      ScalarType gd = ApproximateGeodesicDistance(v.cP(),v.cN(),vp.cP(),vp.cN());
      if (gd <= minDist)
      {
        minDist =gd;		// minDist is updated to the closest distance
        q = v.P();						// q is the current closest point
        return true;
      }
      return false;
    }
    inline ScalarType operator () (const Point3<ScalarType>& p0, const Point3<ScalarType>& n0,
                                   const Point3<ScalarType>& p1, const Point3<ScalarType>& n1) {
      return  ApproximateGeodesicDistance(p0,n0,p1,n1);
    }
  };

}	 // end namespace vertex
	
}	 // end namespace vcg


#endif
first release version 2005-10-03 16:13:13 +02:00			`/****************************************************************************`
			`* VCGLib o o *`
			`* Visual and Computer Graphics Library o o *`
			`* _ O _ *`
Huge copyright sanitization of the header files of vcg folder. 2016-06-13 07:29:25 +02:00			`* Copyright(C) 2004-2016 \/)\/ *`
first release version 2005-10-03 16:13:13 +02:00			`* Visual Computing Lab /\/\| *`
			`* ISTI - Italian National Research Council \| *`
			`* \ *`
			`* All rights reserved. *`
			`* *`
			`* 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. *`
			`* *`
			`* This program is distributed in the hope that it will be useful, *`
			`* but WITHOUT ANY WARRANTY; without even the implied warranty of *`
			`* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *`
			`* GNU General Public License (http://www.gnu.org/licenses/gpl.txt) *`
			`* for more details. *`
			`* *`
			`****************************************************************************/`
added severla comments reimplemented operator () 2006-08-23 17:35:36 +02:00			`// marco :`
			`// comments`
			`// corrected bug`


first release version 2005-10-03 16:13:13 +02:00			`/****************************************************************************`
			`History`

			`****************************************************************************/`

			`#ifndef __VCGLIB_VERTEX_DISTANCE`
			`#define __VCGLIB_VERTEX_DISTANCE`

			`#include <vcg/math/base.h>`
			`#include <vcg/space/point3.h>`


			`namespace vcg {`
			`namespace vertex{`

DistanceFunctor templated on the type of the query Added PointNormalDistanceFunctor 2008-09-24 10:42:17 +02:00			`template <class SCALARTYPE>`
first release version 2005-10-03 16:13:13 +02:00			`class PointDistanceFunctor {`
			`public:`
DistanceFunctor templated on the type of the query Added PointNormalDistanceFunctor 2008-09-24 10:42:17 +02:00			`typedef Point3<SCALARTYPE> QueryType;`
			`static inline const Point3<SCALARTYPE> & Pos(const QueryType & qt) {return qt;}`
			`template <class VERTEXTYPE>`
added severla comments reimplemented operator () 2006-08-23 17:35:36 +02:00
			`/*`
			`* @param v [IN] is a reference to the current object being tested,`
			`* @param p [IN] is the query point,`
			`* @param minDist [IN/OUT] is in input the reject distance and in output the closest distance,`
			`* @param q [OUT] is the closest point.`
			`*`
			`* @remarks The operator returns true if the closest distance is less than input reject distance.`
			`*`
			`*/`
added a missing const to the distance functor 2009-12-02 16:11:00 +01:00			`inline bool operator () (const VERTEXTYPE & v, const Point3<SCALARTYPE> & p, SCALARTYPE & minDist, Point3<SCALARTYPE> & q) const`
added severla comments reimplemented operator () 2006-08-23 17:35:36 +02:00			`{`
			`// convert the coordinates of p from SCALARTYPE to VERTEXTYPE::ScalarType type`
first release version 2005-10-03 16:13:13 +02:00			`const Point3<typename VERTEXTYPE::ScalarType> fp = Point3<typename VERTEXTYPE::ScalarType>::Construct(p);`
added severla comments reimplemented operator () 2006-08-23 17:35:36 +02:00
			`typename VERTEXTYPE::ScalarType md; // distance between v and fp`
Added a bunch of 'c' to component members to clarify constant access 2012-11-15 20:11:28 +01:00			`md = (v.cP() - fp).Norm();`
added severla comments reimplemented operator () 2006-08-23 17:35:36 +02:00
			`if (md <= minDist)`
			`{`
			`minDist = (SCALARTYPE)(md); // minDist is updated to the closest distance`
Added a bunch of 'c' to component members to clarify constant access 2012-11-15 20:11:28 +01:00			`q = v.cP(); // q is the current closest point`
added severla comments reimplemented operator () 2006-08-23 17:35:36 +02:00
			`return true;`
			`}`

			`return false;`
first release version 2005-10-03 16:13:13 +02:00			`}`
			`};`

changes to compile previous commit with gcc 2008-09-24 11:15:38 +02:00			`template <class VERTYPE>`
DistanceFunctor templated on the type of the query Added PointNormalDistanceFunctor 2008-09-24 10:42:17 +02:00			`class PointNormalDistanceFunctor {`
			`public:`
changes to compile previous commit with gcc 2008-09-24 11:15:38 +02:00			`typedef VERTYPE QueryType;`
			`typedef typename VERTYPE::ScalarType ScalarType;`
			`static inline const Point3<typename VERTYPE::ScalarType> & Pos(const QueryType & qt) {return qt.P();}`
DistanceFunctor templated on the type of the query Added PointNormalDistanceFunctor 2008-09-24 10:42:17 +02:00
			`static ScalarType & Alpha(){static ScalarType alpha = 1.0; return alpha;}`
			`static ScalarType & Beta(){static ScalarType beta= 1.0; return beta;}`
			`static ScalarType & Gamma(){static ScalarType gamma= 1.0; return gamma;}`
			`static ScalarType & InterPoint (){static ScalarType interpoint= 1.0; return interpoint;}`

			`template <class VERTEXTYPE, class SCALARTYPE>`
			`inline bool operator () (const VERTEXTYPE & v, const VERTEXTYPE & vp, SCALARTYPE & minDist, Point3<SCALARTYPE> & q) {`

			`float h = vcg::Distance(v.cP(),vp.P()) ;`
make point2 derived Eigen's Matrix, and a set of minimal fixes to make meshlab compile with both old and new version. The fixes include: - dot product: vec0 * vec1 => vec0.dot(vec1) (I added .dot() to the old Point classes too) - Transpose: Transpose is an Eigen type, so we cannot keep it if Eigen is used. Therefore I added a .tranpose() to old matrix classes, and modified most of the Transpose() to transpose() both in vcg and meshlab. In fact, transpose() are free with Eigen, it simply returns a transpose expression without copies. On the other be carefull: m = m.transpose() won't work as expected, here me must evaluate to a temporary: m = m.transpose().eval(); However, this operation in very rarely needed: you transpose at the same sime you set m, or you use m.transpose() directly. - the last issue is Normalize which both modifies this and return a ref to it. This behavior don't make sense anymore when using expression template, e.g., in (a+b).Normalize(), the type of a+b if not a Point (or whatever Vector types), it an expression of the addition of 2 points, so we cannot modify the value of this, since there is no value. Therefore I've already changed all those .Normalize() of expressions to the Eigen's version .normalized(). - Finally I've changed the Zero to SetZero in the old Point classes too. 2008-10-28 01:59:46 +01:00			`float dev = InterPoint() * ( pow((ScalarType) (1-v.cN().dot(vp.cN())), (ScalarType)Beta()) / (Gamma()*h +0.1));`
DistanceFunctor templated on the type of the query Added PointNormalDistanceFunctor 2008-09-24 10:42:17 +02:00			`if(h+dev < minDist){`
			`minDist = h+dev;`
			`q = v.P();`
			`return true;`
			`}`

			`// minDist = h +0.0* (1-v.cN()*vp.cN()) / (h + 0.1);`

			`return false;`
			`}`
			`};`
minor changes 2005-10-05 19:39:14 +02:00
added PointScaledDistanceFunctor 2011-12-21 17:15:32 +01:00			`template <class VERTEXYPE>`
			`class PointScaledDistanceFunctor {`
			`public:`
			`typedef typename VERTEXYPE::ScalarType ScalarType;`
			`typedef Point3<ScalarType> QueryType;`
			`static inline const Point3<ScalarType> & Pos(const QueryType & qt) {return qt;}`

			`static Point3<ScalarType> & Cen(){static Point3<ScalarType> cen(0,0,0); return cen;}`


			`inline bool operator () (const VERTEXYPE & p, const QueryType & qp, ScalarType & minDist, Point3<ScalarType> & q) {`

			`Point3<ScalarType> ed = (qp-p.P());`
			`Point3<ScalarType> dir = (p.P()-Cen()).Normalize();`
			`Point3<ScalarType> odir = (dir^((ed)^dir)).Normalize();`
			`ScalarType d = fabs(ed * dir) + fabs(ed *odir);`

			`if(d < minDist){`
			`minDist = d;`
			`q = p.P();`
			`return true;`
			`}`
			`return false;`
			`}`
			`};`

Rolled back 2011-10-05 17:04:40 +02:00			`template <class VertexType>`
			`class ApproximateGeodesicDistanceFunctor {`
			`public:`
			`typedef typename VertexType::ScalarType ScalarType;`
			`static inline const Point3<ScalarType> & Pos(const VertexType & qt) {return qt.P();}`

			`inline bool operator () (const VertexType & v, const VertexType & vp, ScalarType & minDist, Point3<ScalarType> & q) {`
			`ScalarType gd = ApproximateGeodesicDistance(v.cP(),v.cN(),vp.cP(),vp.cN());`
			`if (gd <= minDist)`
			`{`
			`minDist =gd; // minDist is updated to the closest distance`
			`q = v.P(); // q is the current closest point`
			`return true;`
			`}`
			`return false;`
			`}`
			`inline ScalarType operator () (const Point3<ScalarType>& p0, const Point3<ScalarType>& n0,`
			`const Point3<ScalarType>& p1, const Point3<ScalarType>& n1) {`
			`return ApproximateGeodesicDistance(p0,n0,p1,n1);`
			`}`
			`};`

added severla comments reimplemented operator () 2006-08-23 17:35:36 +02:00			`} // end namespace vertex`
first release version 2005-10-03 16:13:13 +02:00
			`} // end namespace vcg`


			`#endif`