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*
* $Id: vpFeatureMomentImpl.h 3317 2011-09-06 14:14:47Z fnovotny $
*
* This file is part of the ViSP software.
* Copyright (C) 2005 - 2013 by INRIA. All rights reserved.
*
* This software is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* ("GPL") version 2 as published by the Free Software Foundation.
* See the file LICENSE.txt at the root directory of this source
* distribution for additional information about the GNU GPL.
*
* For using ViSP with software that can not be combined with the GNU
* GPL, please contact INRIA about acquiring a ViSP Professional
* Edition License.
*
* See http://www.irisa.fr/lagadic/visp/visp.html for more information.
*
* This software was developed at:
* INRIA Rennes - Bretagne Atlantique
* Campus Universitaire de Beaulieu
* 35042 Rennes Cedex
* France
* http://www.irisa.fr/lagadic
*
* If you have questions regarding the use of this file, please contact
* INRIA at visp@inria.fr
*
* This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
* WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
*
*
* Description:
* Implementation for all supported moment features.
*
* Authors:
* Filip Novotny
*
*****************************************************************************/
/*!
\file vpFeatureMomentGravityCenter.h
\brief Implementation of the interaction matrix computation for vpMomentGravityCenter.
*/
#ifndef __FEATUREMOMENTGRAVITYCENTER_H__
#define __FEATUREMOMENTGRAVITYCENTER_H__
#include <visp/vpFeatureMoment.h>
#ifdef VISP_MOMENTS_COMBINE_MATRICES
class vpMomentDatabase;
/*!
\class vpFeatureMomentGravityCenter
\ingroup VsFeature2
\brief Functionality computation for gravity center moment feature. Computes the interaction matrix associated with vpMomentGravityCenter.
The interaction matrix for the is defined in \cite Tahri05z, equation (16).
It allows to compute the interaction matrices for \f$ (x_g,y_g) \f$.
These interaction matrices may be selected afterwards by calling vpFeatureMomentGravityCenter::interaction().
The selection is done by the following methods: vpFeatureMomentGravityCenter::selectXg for \f$ L_{x_{g}} \f$ and vpFeatureMomentGravityCenter::selectYg for \f$ L_{y_{g}} \f$.
The following code demonstrates a selection of \f$ L_{y_{g}} \f$:
\code
#include <visp/vpMomentObject.h>
#include <visp/vpMomentBasic.h>
#include <visp/vpMomentGravityCenter.h>
#include <visp/vpMomentDatabase.h>
#include <visp/vpPoint.h>
#include <visp/vpFeatureMoment.h>
#include <visp/vpFeatureMomentDatabase.h>
#include <visp/vpFeatureMomentGravityCenter.h>
#include <visp/vpFeatureMomentBasic.h>
#include <iostream>
#include <vector>
int main()
{
vpPoint p;
std::vector<vpPoint> vec_p; // vector that contains the vertices
p.set_x(1); p.set_y(1); // coordinates in meters in the image plane (vertex 1)
vec_p.push_back(p);
p.set_x(2); p.set_y(2); // coordinates in meters in the image plane (vertex 2)
vec_p.push_back(p);
//////////////////////////////REFERENCE VALUES////////////////////////////////
vpMomentObject obj(2); // Init object of order 2 because we need
// vpFeatureMomentBasic of order 1 (for vpFeatureMomentGravityCenter) which
// implies third-order moment primitives
obj.setType(vpMomentObject::DISCRETE); // Discrete mode for object
obj.fromVector(vec_p);
vpMomentDatabase mdb; //database for moment primitives. This will
//only contain the basic moment.
vpMomentBasic bm; //basic moment (this particular moment is nothing
//more than a shortcut to the vpMomentObject)
vpMomentGravityCenter gc; //gravity center
bm.linkTo(mdb); //add basic moment to moment database
gc.linkTo(mdb); //add gravity center to moment database
vpFeatureMomentDatabase fmdb; //feature moment database to store
//feature dependencies
//Declare and link moments to database
vpFeatureMomentBasic fmb(mdb,0.,0.,1.,&fmdb); fmb.linkTo(fmdb);
vpFeatureMomentGravityCenter fgc(mdb,0.,0.,1.,&fmdb); fgc.linkTo(fmdb);
//update and compute the vpMomentBasic before computing vpMomentGravityCenter
bm.update(obj);
bm.compute();
//update and compute the vpMomentGravityCenter before computing vpFeatureMomentBasic
gc.update(obj);
gc.compute();
fmb.update(0.,0.,1.); //update the vpFeatureMoment with a plane
//configuration and compute interaction matrix
fgc.update(0.,0.,1.); //update the plane configuration for gravity
//center feature and compute it's associated matrix.
std::cout << fgc.interaction(1 << 1) << std::endl;
return 0;
}
\endcode
This code produces the following output:
\code
0 -1 1.5 3.5 -2.5 -1.5
\endcode
You can also use the shortcut selectors vpFeatureMomentGravityCenter::selectXg or vpFeatureMomentGravityCenter::selectYg as follows:
\code
task.addFeature(db_src.getFeatureGravityNormalized(),db_dst.getFeatureGravityNormalized(),vpFeatureMomentGravityCenter::selectXg() | vpFeatureMomentGravityCenter::selectYg());
\endcode
This feature depends on:
- vpFeatureMomentBasic
Minimum vpMomentObject order needed to compute this feature: 2.
*/
class VISP_EXPORT vpFeatureMomentGravityCenter: public vpFeatureMoment{
public:
/*!
Initializes the feature with information about the database of moment primitives, the object plane and feature database.
\param moments : Moment database. The database of moment primitives (first parameter) is mandatory. It is used to access different moment values later used to compute the final matrix.
\param A : Plane coefficient in a \f$ A \times x+B \times y + C = \frac{1}{Z} \f$ plane.
\param B : Plane coefficient in a \f$ A \times x+B \times y + C = \frac{1}{Z} \f$ plane.
\param C : Plane coefficient in a \f$ A \times x+B \times y + C = \frac{1}{Z} \f$ plane.
\param featureMoments : Feature database.
*/
vpFeatureMomentGravityCenter(vpMomentDatabase& moments,double A, double B, double C,vpFeatureMomentDatabase* featureMoments=NULL) :
vpFeatureMoment(moments,A,B,C,featureMoments,2)
{}
void compute_interaction();
/*!
Associated moment name.
*/
const char* momentName(){ return "vpMomentGravityCenter";}
/*!
Feature name.
*/
const char* name(){ return "vpFeatureMomentGravityCenter";}
/*!
Shortcut selector for \f$x_g\f$.
*/
static unsigned int selectXg(){ return 1 << 0; }
/*!
Shortcut selector for \f$y_g\f$.
*/
static unsigned int selectYg(){ return 1 << 1; }
};
#else
class vpMomentDatabase;
/*!
\class vpFeatureMomentGravityCenter
\ingroup VsFeature2
\brief Functionality computation for gravity center moment feature. Computes the interaction matrix associated with vpMomentGravityCenter.
The interaction matrix for the is defined in \cite Tahri05z, equation (16).
It allows to compute the interaction matrices for \f$ (x_g,y_g) \f$.
These interaction matrices may be selected afterwards by calling vpFeatureMomentGravityCenter::interaction().
The selection is done by the following methods: vpFeatureMomentGravityCenter::selectXg for \f$ L_{x_{g}} \f$ and vpFeatureMomentGravityCenter::selectYg for \f$ L_{y_{g}} \f$.
You can use the selectors vpFeatureMomentGravityCenter::selectXg or vpFeatureMomentGravityCenter::selectYg as follows:
\code
task.addFeature(db_src.getFeatureGravityNormalized(),db_dst.getFeatureGravityNormalized(),vpFeatureMomentGravityCenter::selectXg() | vpFeatureMomentGravityCenter::selectYg());
\endcode
This feature depends on:
- vpMomentCentered
- vpMomentGravityCenter
Minimum vpMomentObject order needed to compute this feature: 2.
*/
class VISP_EXPORT vpFeatureMomentGravityCenter: public vpFeatureMoment{
public:
/*!
Initializes the feature with information about the database of moment primitives, the object plane and feature database.
\param moments : Moment database. The database of moment primitives (first parameter) is mandatory. It is used to access different moment values later used to compute the final matrix.
\param A : Plane coefficient in a \f$ A \times x+B \times y + C = \frac{1}{Z} \f$ plane.
\param B : Plane coefficient in a \f$ A \times x+B \times y + C = \frac{1}{Z} \f$ plane.
\param C : Plane coefficient in a \f$ A \times x+B \times y + C = \frac{1}{Z} \f$ plane.
\param featureMoments : Feature database.
*/
vpFeatureMomentGravityCenter(vpMomentDatabase& moments,double A, double B, double C,vpFeatureMomentDatabase* featureMoments=NULL) :
vpFeatureMoment(moments,A,B,C,featureMoments,2)
{}
void compute_interaction();
/*!
Associated moment name.
*/
const char* momentName(){ return "vpMomentGravityCenter";}
/*!
Feature name.
*/
const char* name(){ return "vpFeatureMomentGravityCenter";}
/*!
Shortcut selector for \f$x_g\f$.
*/
static unsigned int selectXg(){ return 1 << 0; }
/*!
Shortcut selector for \f$y_g\f$.
*/
static unsigned int selectYg(){ return 1 << 1; }
};
#endif
#endif
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