/usr/include/x86_64-linux-gnu/visp3/tt/vpTemplateTrackerWarp.h is in libvisp-tt-dev 3.1.0-2.
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*
* This file is part of the ViSP software.
* Copyright (C) 2005 - 2017 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 as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
* 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://visp.inria.fr for more information.
*
* This software was developed at:
* Inria Rennes - Bretagne Atlantique
* Campus Universitaire de Beaulieu
* 35042 Rennes Cedex
* France
*
* 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:
* Template tracker.
*
* Authors:
* Amaury Dame
* Aurelien Yol
* Fabien Spindler
*
*****************************************************************************/
/*!
\file vpTemplateTrackerWarp.h
\brief
*/
#ifndef vpTemplateTrackerWarp_hh
#define vpTemplateTrackerWarp_hh
#include <visp3/core/vpDisplay.h>
#include <visp3/core/vpTrackingException.h>
#include <visp3/tt/vpTemplateTrackerHeader.h>
#include <visp3/tt/vpTemplateTrackerTriangle.h>
#include <visp3/tt/vpTemplateTrackerZone.h>
/*!
\class vpTemplateTrackerWarp
\ingroup group_tt_warp
*/
class VISP_EXPORT vpTemplateTrackerWarp
{
protected:
double denom;
vpMatrix dW;
unsigned int nbParam;
public:
// constructor;
vpTemplateTrackerWarp() : denom(1.), dW(), nbParam(0) {}
virtual ~vpTemplateTrackerWarp() {}
#ifndef DOXYGEN_SHOULD_SKIP_THIS
virtual void computeCoeff(const vpColVector &p) = 0;
virtual void computeDenom(vpColVector &vX, const vpColVector &ParamM) = 0;
#endif
/*!
Compute the derivative of the warping function according to its
parameters.
\param X1 : Point to consider in the derivative computation.
\param X2 : Point to consider in the derivative computation.
\param ParamM : Parameters of the warping function.
\param dW : Resulting derivative matrix.
*/
virtual void dWarp(const vpColVector &X1, const vpColVector &X2, const vpColVector &ParamM, vpMatrix &dW) = 0;
/*!
Compute the compositionnal derivative of the warping function according to
its parameters.
\param X1 : Point to consider in the derivative computation.
\param X2 : Point to consider in the derivative computation.
\param ParamM : Parameters of the warping function.
\param dwdp0 : Derivative matrix of the warping function according to the
initial warping function parameters (p=0). \param dW : Resulting
compositionnal derivative matrix.
*/
virtual void dWarpCompo(const vpColVector &X1, const vpColVector &X2, const vpColVector &ParamM, const double *dwdp0,
vpMatrix &dW) = 0;
#ifndef DOXYGEN_SHOULD_SKIP_THIS
void findWarp(const double *ut0, const double *vt0, const double *u, const double *v, int nb_pt, vpColVector &p);
#endif
/*!
Compute the derivative of the image with relation to the warping function
parameters.
\param i : i coordinate (along the rows) of the point to consider in the
image. \param j : j coordinate (along the columns) of the point to
consider in the image. \param dy : Derivative on the y-axis (along the
rows) of the point (i,j). \param dx : Derivative on the x-axis (along the
columns) of the point (i,j). \param dIdW : Resulting derivative matrix
(Image according to the warping function).
*/
virtual void getdW0(const int &i, const int &j, const double &dy, const double &dx, double *dIdW) = 0;
/*!
Compute the derivative of the warping function according to the initial
parameters.
\param i : i coordinate (along the rows) of the point to consider in the
image. \param j : j coordinate (along the columns) of the point to
consider in the image. \param dIdW : Resulting derivative matrix (Image
according to the warping function).
*/
virtual void getdWdp0(const int &i, const int &j, double *dIdW) = 0;
/*!
Compute the distance between a zone and its associated warped zone.
\param Z : Zone to consider.
\param p : Parameters of the warping function.
*/
double getDistanceBetweenZoneAndWarpedZone(const vpTemplateTrackerZone &Z, const vpColVector &p);
/*!
Get the number of parameters of the warping function.
\return Number of parameters.
*/
unsigned int getNbParam() const { return nbParam; }
/*!
Get the inverse of the warping function parameters.
\param ParamM : Parameters of the warping function.
\param ParamMinv : Inverse parameters.
*/
virtual void getParamInverse(const vpColVector &ParamM, vpColVector &ParamMinv) const = 0;
/*!
Get the parameters of the warping function one level down.
\param p : Current parameters of the warping function.
\param pdown : Resulting parameters on level down.
*/
virtual void getParamPyramidDown(const vpColVector &p, vpColVector &pdown) = 0;
/*!
Get the parameters of the warping function one level up.
\param p : Current parameters of the warping function.
\param pup : Resulting parameters one level up.
*/
virtual void getParamPyramidUp(const vpColVector &p, vpColVector &pup) = 0;
/*!
Tells if the warping function is ESM compatible.
\return True if it is ESM compatible, False otherwise.
*/
virtual bool isESMcompatible() const = 0;
/*!
Get the displacement resulting from the composition of two other
displacements.
\param p1 : First displacement.
\param p2 : Second displacement.
\param pres : Displacement resulting from the composition of p1 and p2.
*/
virtual void pRondp(const vpColVector &p1, const vpColVector &p2, vpColVector &pres) const = 0;
/*!
Set the number of parameters of the warping function.
\param nb : New number of parameters.
*/
void setNbParam(unsigned int nb)
{
nbParam = nb;
dW.resize(2, nbParam);
}
/*!
Warp a list of points.
\param ut0 : List of u coordinates of the points.
\param vt0 : List of v coordinates of the points.
\param nb_pt : Number of points to consider.
\param p : Parameters of the warp.
\param u : Resulting u coordinates.
\param v : resulting v coordinates.
*/
void warp(const double *ut0, const double *vt0, int nb_pt, const vpColVector &p, double *u, double *v);
/*!
Warp a point.
\param i : i coordinate (along the rows) of the point to warp.
\param j : j coordinate (along the columns) of the point to warp.
\param i2 : i coordinate (along the rows) of the warped point.
\param j2 : j coordinate (along the columns) of the warped point.
\param ParamM : Parameters of the warp.
*/
virtual void warpX(const int &i, const int &j, double &i2, double &j2, const vpColVector &ParamM) = 0;
/*!
Warp a point.
\param vX : Coordinates of the point to warp.
\param vXres : Coordinates of the warped point.
\param ParamM : Parameters of the warping function.
*/
virtual void warpX(const vpColVector &vX, vpColVector &vXres, const vpColVector &ParamM) = 0;
/*!
Inverse Warp a point.
\param vX : Coordinates of the point to warp.
\param vXres : Coordinates of the warped point.
\param ParamM : Parameters of the warping function.
*/
virtual void warpXInv(const vpColVector &vX, vpColVector &vXres, const vpColVector &ParamM) = 0;
/*!
Warp a triangle and store the result in a new zone.
\param in : Triangle to warp.
\param p : Parameters of the warping function. These parameters are
estimated by the template tracker and returned using
vpTemplateTracker::getp(). \param out : Resulting triangle.
*/
void warpTriangle(const vpTemplateTrackerTriangle &in, const vpColVector &p, vpTemplateTrackerTriangle &out);
/*!
Warp a zone and store the result in a new zone.
\param in : Zone to warp.
\param p : Parameters of the warping function. These parameters are
estimated by the template tracker and returned using
vpTemplateTracker::getp(). \param out : Resulting zone.
*/
void warpZone(const vpTemplateTrackerZone &in, const vpColVector &p, vpTemplateTrackerZone &out);
};
#endif
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