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/******************************************************************************
*       SOFA, Simulation Open-Framework Architecture, version 1.0 beta 4      *
*                (c) 2006-2009 MGH, INRIA, USTL, UJF, CNRS                    *
*                                                                             *
* This library is free software; you can redistribute it and/or modify it     *
* under the terms of the GNU Lesser General Public License as published by    *
* the Free Software Foundation; either version 2.1 of the License, or (at     *
* your option) any later version.                                             *
*                                                                             *
* This library 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 Lesser General Public License *
* for more details.                                                           *
*                                                                             *
* You should have received a copy of the GNU Lesser General Public License    *
* along with this library; if not, write to the Free Software Foundation,     *
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301 USA.          *
*******************************************************************************
*                               SOFA :: Modules                               *
*                                                                             *
* Authors: The SOFA Team and external contributors (see Authors.txt)          *
*                                                                             *
* Contact information: contact@sofa-framework.org                             *
******************************************************************************/
#ifndef SOFA_COMPONENT_MAPPING_SKINNINGMAPPING_INL
#define SOFA_COMPONENT_MAPPING_SKINNINGMAPPING_INL

#include <sofa/component/mapping/SkinningMapping.h>
#include <sofa/helper/io/MassSpringLoader.h>
#include <sofa/helper/io/SphereLoader.h>
#include <sofa/helper/io/Mesh.h>
#include <sofa/helper/gl/template.h>
#include <sofa/helper/gl/Axis.h>
#include <sofa/core/componentmodel/behavior/MechanicalMapping.inl>
#include <sofa/core/componentmodel/behavior/MechanicalState.h>
#include <string>
#include <iostream>





namespace sofa
{

  namespace component
  {

    namespace mapping
    {

      using namespace sofa::defaulttype;

      template <class BasicMapping>
      class SkinningMapping<BasicMapping>::Loader : public helper::io::MassSpringLoader, public helper::io::SphereLoader
      {
        public:
          SkinningMapping<BasicMapping>* dest;
          Loader ( SkinningMapping<BasicMapping>* dest ) : dest ( dest ) {}
          virtual void addMass ( SReal /*px*/, SReal /*py*/, SReal /*pz*/, SReal, SReal, SReal, SReal, SReal, bool, bool )
          {
          }
          virtual void addSphere ( SReal /*px*/, SReal /*py*/, SReal /*pz*/, SReal )
          {
          }
      };

      template <class BasicMapping>
      SkinningMapping<BasicMapping>::SkinningMapping ( In* from, Out* to )
          : Inherit ( from, to )
          , repartition ( initData ( &repartition,"repartition","repartition between input DOFs and skinned vertices" ) )
          , coefs ( initData ( &coefs,"coefs","weights list for the influences of the references Dofs" ) )
          , nbRefs ( initData ( &nbRefs, ( unsigned ) 3,"nbRefs","nb references for skinning" ) )
          , computeWeights ( true )
          , wheighting ( WEIGHT_INVDIST )
          , interpolation ( INTERPOLATION_LINEAR )
      {
      }

      template <class BasicMapping>
      SkinningMapping<BasicMapping>::~SkinningMapping ()
      {
      }

      template <class BasicMapping>
      void SkinningMapping<BasicMapping>::load ( const char * /*filename*/ )
      {
      }

      template <class BasicMapping>
      void SkinningMapping<BasicMapping>::computeInitPos ( )
      {
        VecCoord& xto = *this->toModel->getX();
        const VecInCoord& xfrom = *this->fromModel->getX();
        initPosDOFs.resize ( xfrom.size() );
        initPos.resize ( xto.size() * nbRefs.getValue() );

        sofa::helper::vector<double> m_coefs = coefs.getValue();
        sofa::helper::vector<unsigned int> m_reps = repartition.getValue();

        for ( unsigned int i = 0; i < xfrom.size(); i++ )
        {
          initPosDOFs[i] = xfrom[i];
        }

        switch ( interpolation )
        {
          case INTERPOLATION_LINEAR:
          {
            for ( unsigned int i = 0; i < xto.size(); i++ )
            {
              for ( unsigned int m = 0; m < nbRefs.getValue(); m++ )
              {
                initPos[nbRefs.getValue() *i+m] = xfrom[m_reps[nbRefs.getValue() *i+m]].getOrientation().inverseRotate ( xto[i] - xfrom[m_reps[nbRefs.getValue() *i+m]].getCenter() );
              }
            }
            break;
          }
          default:{}
        }
        repartition.setValue ( m_reps );
      }

      template <class BasicMapping>
      void SkinningMapping<BasicMapping>::sortReferences ()
      {
        Coord posTo;
        VecCoord& xto = *this->toModel->getX();
        VecInCoord& xfrom = *this->fromModel->getX();

        sofa::helper::vector<unsigned int> m_reps = repartition.getValue();
        m_reps.clear();
        m_reps.resize ( nbRefs.getValue() *xto.size() );

        sofa::helper::vector<double> m_coefs = coefs.getValue();
        m_coefs.clear();
        m_coefs.resize ( nbRefs.getValue() *xto.size() );

        for ( unsigned int i=0;i<xto.size();i++ )
        {
          posTo = xto[i];
          for ( unsigned int h=0 ; h<nbRefs.getValue() ; h++ )
            m_coefs[nbRefs.getValue() *i+h] = 9999999. ;

          //search the nbRefs nearest "from" dofs of each "to" point
          for ( unsigned int j=0;j<xfrom.size();j++ )
          {
            Real dist2 = ( posTo - xfrom[j].getCenter() ).norm();

            unsigned int k=0;
            while ( k<nbRefs.getValue() )
            {
              if ( dist2 < m_coefs[nbRefs.getValue() *i+k] )
              {
                for ( unsigned int m=nbRefs.getValue()-1 ; m>k ; m-- )
                {
                  m_coefs[nbRefs.getValue() *i+m] = m_coefs[nbRefs.getValue() *i+m-1];
                  m_reps[nbRefs.getValue() *i+m] = m_reps[nbRefs.getValue() *i+m-1];
                }
                m_coefs[nbRefs.getValue() *i+k] = dist2;
                m_reps[nbRefs.getValue() *i+k] = j;
                k=nbRefs.getValue();
              }
              k++;
            }
          }
        }
        repartition.setValue ( m_reps );
        coefs.setValue ( m_coefs );
      }

      template <class BasicMapping>
      void SkinningMapping<BasicMapping>::init()
      {
        if ( this->initPos.empty() && this->toModel!=NULL && computeWeights==true && coefs.getValue().size() ==0 )
        {
          sortReferences ();
          updateWeights ();
          computeInitPos ();
        }
        else if ( computeWeights == false || coefs.getValue().size() !=0 )
        {
          computeInitPos();
        }
        this->BasicMapping::init();
      }

      template <class BasicMapping>
      void SkinningMapping<BasicMapping>::parse ( core::objectmodel::BaseObjectDescription* arg )
      {
        if ( arg->getAttribute ( "filename" ) )
          this->load ( arg->getAttribute ( "filename" ) );
        this->Inherit::parse ( arg );
      }

      template <class BasicMapping>
      void SkinningMapping<BasicMapping>::clear()
      {
        this->initPos.clear();
        this->initPosDOFs.clear();
      }

      template <class BasicMapping>
      void SkinningMapping<BasicMapping>::setWeightsToHermite()
      {
        wheighting = WEIGHT_HERMITE;
      }

      template <class BasicMapping>
      void SkinningMapping<BasicMapping>::setWeightsToLinear()
      {
        wheighting = WEIGHT_LINEAR;
      }

      template <class BasicMapping>
      void SkinningMapping<BasicMapping>::setWieghtsToInvDist()
      {
        wheighting = WEIGHT_INVDIST;
      }

      template <class BasicMapping>
      void SkinningMapping<BasicMapping>::setInterpolationToLinear()
      {
        interpolation = INTERPOLATION_LINEAR;
      }

      template <class BasicMapping>
      void SkinningMapping<BasicMapping>::setInterpolationToDualQuaternion()
      {
        interpolation = INTERPOLATION_DUAL_QUATERNION;
      }

      template <class BasicMapping>
      void SkinningMapping<BasicMapping>::updateWeights ()
      {
        VecCoord& xto = *this->toModel->getX();
        VecInCoord& xfrom = *this->fromModel->getX();

        sofa::helper::vector<double> m_coefs = coefs.getValue();
        sofa::helper::vector<unsigned int> m_reps = repartition.getValue();

        switch ( wheighting )
        {
          case WEIGHT_LINEAR:
          {
            for ( unsigned int i=0;i<xto.size();i++ )
            {
              Vec3d r1r2, r1p;
              if ( nbRefs.getValue() == 1 )
              {
                m_coefs[nbRefs.getValue() *i] = 1;
              }
              else
              {
                double wi;
                r1r2 = xfrom[m_reps[nbRefs.getValue() *i+1]].getCenter() - xfrom[m_reps[nbRefs.getValue() *i+0]].getCenter();
                r1p  = xto[i] - xfrom[m_reps[nbRefs.getValue() *i+0]].getCenter();
                wi = ( r1r2*r1p ) / ( r1r2.norm() *r1r2.norm() );

                // Abscisse curviligne
                m_coefs[nbRefs.getValue() *i+0] = ( 1 - wi );
                m_coefs[nbRefs.getValue() *i+1] = wi;
              }
            }
            break;
          }
          case WEIGHT_INVDIST:
          {
            for ( unsigned int i=0;i<xto.size();i++ )
            {
              for ( unsigned int k=0;k<nbRefs.getValue();k++ )
              {
                m_coefs[nbRefs.getValue() *i+k] = 1 / m_coefs[nbRefs.getValue() *i+k];
              }
              //m_coefs.normalize();
              //normalize the coefs vector such as the sum is equal to 1
              double norm=0.0;
              for ( unsigned int h=0 ; h<nbRefs.getValue(); h++ )
                norm += m_coefs[nbRefs.getValue() *i+h]*m_coefs[nbRefs.getValue() *i+h];
              norm = helper::rsqrt ( norm );

              for ( unsigned int g=0 ; g<nbRefs.getValue(); g++ )
                m_coefs[nbRefs.getValue() *i+g] /= norm;

              for ( unsigned int m=0;m<nbRefs.getValue();m++ )
                m_coefs[nbRefs.getValue() *i+m] = m_coefs[nbRefs.getValue() *i+m]*m_coefs[nbRefs.getValue() *i+m];
            }
            break;
          }
          case WEIGHT_HERMITE:
          {
            for ( unsigned int i=0;i<xto.size();i++ )
            {
              Vec3d r1r2, r1p;
              if ( nbRefs.getValue() == 1 )
              {
                m_coefs[nbRefs.getValue() *i] = 1;
              }
              else
              {
                double wi;
                r1r2 = xfrom[m_reps[nbRefs.getValue() *i+1]].getCenter() - xfrom[m_reps[nbRefs.getValue() *i+0]].getCenter();
                r1p  = xto[i] - xfrom[m_reps[nbRefs.getValue() *i+0]].getCenter();
                wi = ( r1r2*r1p ) / ( r1r2.norm() *r1r2.norm() );

                // Fonctions d'Hermite
                m_coefs[nbRefs.getValue() *i+0] = 1-3*wi*wi+2*wi*wi*wi;
                m_coefs[nbRefs.getValue() *i+1] = 3*wi*wi-2*wi*wi*wi;
              }
            }
            break;
          }
          default:{}
        }
        coefs.setValue ( m_coefs );
      }

      template <class BasicMapping>
      void SkinningMapping<BasicMapping>::setWeightCoefs ( sofa::helper::vector<double> &weights )
      {
        sofa::helper::vector<double> * m_coefs = coefs.beginEdit();
        m_coefs->clear();
        m_coefs->insert ( m_coefs->begin(), weights.begin(), weights.end() );
        coefs.endEdit();
      }

      template <class BasicMapping>
      void SkinningMapping<BasicMapping>::setRepartition ( sofa::helper::vector<unsigned int> &rep )
      {
        sofa::helper::vector<unsigned int> * m_reps = repartition.beginEdit();
        m_reps->clear();
        m_reps->insert ( m_reps->begin(), rep.begin(), rep.end() );;
        repartition.endEdit();
      }


      template <class BasicMapping>
      void SkinningMapping<BasicMapping>::apply ( typename Out::VecCoord& out, const typename In::VecCoord& in )
      {
        const sofa::helper::vector<unsigned int>& m_reps = repartition.getValue();
        const sofa::helper::vector<double>& m_coefs = coefs.getValue();
        out.resize ( initPos.size() / nbRefs.getValue() );
        rotatedPoints.resize ( initPos.size() );

        switch ( interpolation )
        {
          case INTERPOLATION_LINEAR:
          {
            for ( unsigned int i=0 ; i<out.size(); i++ )
            {
              out[i] = Coord();
              for ( unsigned int m=0 ; m<nbRefs.getValue(); m++ )
              {
                // Save rotated points for applyJ/JT
                rotatedPoints[nbRefs.getValue() *i+m] = in[m_reps[nbRefs.getValue() *i+m] ].getOrientation().rotate ( initPos[nbRefs.getValue() *i+m] );

                // And add each reference frames contributions to the new position out[i]
                out[i] += ( in[m_reps[nbRefs.getValue() *i+m] ].getCenter() + rotatedPoints[nbRefs.getValue() *i+m] ) * m_coefs[nbRefs.getValue() *i+m];
              }
            }
            break;
          }
          default:{}
        }
      }

      template <class BasicMapping>
      void SkinningMapping<BasicMapping>::applyJ ( typename Out::VecDeriv& out, const typename In::VecDeriv& in )
      {
        const sofa::helper::vector<unsigned int>& m_reps = repartition.getValue();
        const sofa::helper::vector<double>& m_coefs = coefs.getValue();

        Deriv v,omega;
        out.resize ( initPos.size() / nbRefs.getValue() );
        for ( unsigned int i=0;i<out.size();i++ )
        {
          out[i] = Deriv();
          for ( unsigned int m=0 ; m<nbRefs.getValue(); m++ )
          {
            v = in[m_reps[nbRefs.getValue() *i+m]].getVCenter();
            omega = in[m_reps[nbRefs.getValue() *i+m]].getVOrientation();
            out[i] += ( v - cross ( rotatedPoints[nbRefs.getValue() *i+m],omega ) ) * m_coefs[nbRefs.getValue() *i+m];
          }
        }
      }

      template <class BasicMapping>
      void SkinningMapping<BasicMapping>::applyJT ( typename In::VecDeriv& out, const typename Out::VecDeriv& in )
      {
        const sofa::helper::vector<unsigned int>& m_reps = repartition.getValue();
        const sofa::helper::vector<double>& m_coefs = coefs.getValue();

        Deriv v,omega;
        for ( unsigned int i=0;i<in.size();i++ )
        {
          for ( unsigned int m=0 ; m<nbRefs.getValue(); m++ )
          {
            Deriv f = in[i];
            v = f;
            omega = cross ( rotatedPoints[nbRefs.getValue() *i+m],f );
            out[m_reps[nbRefs.getValue() *i+m] ].getVCenter() += v * m_coefs[nbRefs.getValue() *i+m];
            out[m_reps[nbRefs.getValue() *i+m] ].getVOrientation() += omega * m_coefs[nbRefs.getValue() *i+m];
          }
        }
      }

      template <class BasicMapping>
      void SkinningMapping<BasicMapping>::applyJT ( typename In::VecConst& out, const typename Out::VecConst& in )
      {
        const sofa::helper::vector<unsigned int>& m_reps = repartition.getValue();
        const sofa::helper::vector<double>& m_coefs = coefs.getValue();
        const unsigned int nbr = nbRefs.getValue();
        const unsigned int nbi = this->fromModel->getX()->size();
        Deriv omega;
        typename In::VecDeriv v;
        sofa::helper::vector<bool> flags;
        int outSize = out.size();
        out.resize ( in.size() + outSize ); // we can accumulate in "out" constraints from several mappings
        for ( unsigned int i=0;i<in.size();i++ )
        {
          v.clear();
          v.resize ( nbi );
          flags.clear();
          flags.resize ( nbi );
          OutConstraintIterator itOut;
          for (itOut=in[i].getData().begin();itOut!=in[i].getData().end();itOut++)
            {
              unsigned int indexIn = itOut->first;
              Deriv data = (Deriv) itOut->second;
              Deriv f = data;
              for ( unsigned int m=0 ; m<nbr; m++ )
                {
                  omega = cross ( rotatedPoints[nbr*indexIn+m],f );
                  flags[m_reps[nbr*indexIn+m] ] = true;
                  v[m_reps[nbr*indexIn+m] ].getVCenter() += f * m_coefs[nbr*indexIn+m];
                  v[m_reps[nbr*indexIn+m] ].getVOrientation() += omega * m_coefs[nbr*indexIn+m];
                }
          }
          for ( unsigned int j=0 ; j<nbi; j++ )
          {
            //if (!(v[i] == typename In::Deriv()))
            if ( flags[j] )
              out[outSize+i].insert (j,v[j] );
          }
        }
      }

      template <class BasicMapping>
      void SkinningMapping<BasicMapping>::draw()
      {
        if ( !this->getShow() ) return;
        const typename Out::VecCoord& xOut = *this->toModel->getX();
        const typename In::VecCoord& xIn = *this->fromModel->getX();
        sofa::helper::vector<unsigned int> m_reps = repartition.getValue();
        sofa::helper::vector<double> m_coefs = coefs.getValue();

        if ( interpolation != INTERPOLATION_DUAL_QUATERNION )
        {
          glDisable ( GL_LIGHTING );
          glPointSize ( 1 );
          glColor4f ( 1,1,0,1 );
          glBegin ( GL_LINES );

          for ( unsigned int i=0; i<xOut.size(); i++ )
          {
            for ( unsigned int m=0 ; m<nbRefs.getValue(); m++ )
            {
              if ( m_coefs[nbRefs.getValue() *i+m] > 0.0 )
              {
                glColor4d ( m_coefs[nbRefs.getValue() *i+m],m_coefs[nbRefs.getValue() *i+m],0,1 );
                helper::gl::glVertexT ( xIn[m_reps[nbRefs.getValue() *i+m] ].getCenter() );
                helper::gl::glVertexT ( xOut[i] );
              }
            }
          }
          glEnd();
        }

      }

    } // namespace mapping

  } // namespace component

} // namespace sofa

#endif