doc/v620/Reference_2TensorDataLoader_8cxx_source.html

// @(#)root/tmva/tmva/dnn:$Id$

// Author: Vladimir Ilievski


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

 * Project: TMVA - a Root-integrated toolkit for multivariate data analysis       *

 * Package: TMVA                                                                  *

 * Class  : TTensorDataLoader                                                     *

 * Web    : http://tmva.sourceforge.net                                           *

 *                                                                                *

 * Description:                                                                   *

 *      Specialization of the Tensor Data Loader Class                            *

 *                                                                                *

 * Authors (alphabetical):                                                        *

 *      Vladimir Ilievski      <ilievski.vladimir@live.com>  - CERN, Switzerland  *

 *                                                                                *

 * Copyright (c) 2005-2015:                                                       *

 *      CERN, Switzerland                                                         *

 *      U. of Victoria, Canada                                                    *

 *      MPI-K Heidelberg, Germany                                                 *

 *      U. of Bonn, Germany                                                       *

 *                                                                                *

 * Redistribution and use in source and binary forms, with or without             *

 * modification, are permitted according to the terms listed in LICENSE           *

 * (http://tmva.sourceforge.net/LICENSE)                                          *

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


///////////////////////////////////////////////////////////////////

// Specializations of Copy functions for the TensorDataLoader    //

// specialized for the reference architecture.                   //

///////////////////////////////////////////////////////////////////


#include "TMVA/DNN/Architectures/Reference.h"

#include "TMVA/DataSetInfo.h"


namespace TMVA {

namespace DNN {


//______________________________________________________________________________

template <>

void TTensorDataLoader<TensorInput, TReference<Real_t>>::CopyTensorInput(std::vector<TMatrixT<Real_t>> &tensor,

                                                                         IndexIterator_t sampleIterator)

{

   const std::vector<TMatrixT<Double_t>> &linputTensor = std::get<0>(fData);


   if (fBatchDepth == 1) {

      for (size_t i = 0; i < fBatchHeight; i++) {

         size_t sampleIndex = *sampleIterator;

         for (size_t j = 0; j < fBatchWidth; j++) {

            tensor[0](i, j) = static_cast<Real_t>(linputTensor[0](sampleIndex, j));

         }

         sampleIterator++;

      }

   } else {

      for (size_t i = 0; i < fBatchDepth; i++) {

         size_t sampleIndex = *sampleIterator;

         for (size_t j = 0; j < fBatchHeight; j++) {

            for (size_t k = 0; k < fBatchWidth; k++) {

               tensor[i](j, k) = static_cast<Real_t>(linputTensor[sampleIndex](j, k));

            }

         }

         sampleIterator++;

      }

   }

}


//______________________________________________________________________________

template <>

void TTensorDataLoader<TensorInput, TReference<Real_t>>::CopyTensorOutput(TMatrixT<Real_t> &matrix,

                                                                          IndexIterator_t sampleIterator)

{

   const TMatrixT<Double_t> &loutputMatrix = std::get<1>(fData);

   size_t n = loutputMatrix.GetNcols();


   for (size_t i = 0; i < fInputShape[0]; i++) {

      size_t sampleIndex = *sampleIterator;

      for (size_t j = 0; j < n; j++) {

         matrix(i, j) = static_cast<Real_t>(loutputMatrix(sampleIndex, j));

      }


      sampleIterator++;

   }

}


//______________________________________________________________________________

template <>

void TTensorDataLoader<TensorInput, TReference<Real_t>>::CopyTensorWeights(TMatrixT<Real_t> &matrix,

                                                                           IndexIterator_t sampleIterator)

{

   const TMatrixT<Double_t> &lweightMatrix = std::get<2>(fData);


   for (size_t i = 0; i < fInputShape[0]; i++) {

      size_t sampleIndex = *sampleIterator;

      matrix(i, 0) = static_cast<Real_t>(lweightMatrix(sampleIndex, 0));

      sampleIterator++;

   }

}


//______________________________________________________________________________

template <>

void TTensorDataLoader<TensorInput, TReference<Double_t>>::CopyTensorInput(std::vector<TMatrixT<Double_t>> &tensor,

                                                                           IndexIterator_t sampleIterator)

{

   const std::vector<TMatrixT<Double_t>> &linputTensor = std::get<0>(fData);


   if (fBatchDepth == 1) {

      for (size_t i = 0; i < fBatchHeight; i++) {

         size_t sampleIndex = *sampleIterator;

         for (size_t j = 0; j < fBatchWidth; j++) {

            tensor[0](i, j) = linputTensor[0](sampleIndex, j);

         }

         sampleIterator++;

      }

   } else {

      for (size_t i = 0; i < fBatchDepth; i++) {

         size_t sampleIndex = *sampleIterator;

         for (size_t j = 0; j < fBatchHeight; j++) {

            for (size_t k = 0; k < fBatchWidth; k++) {

               tensor[i](j, k) = linputTensor[sampleIndex](j, k);

            }

         }

         sampleIterator++;

      }

   }

}


//______________________________________________________________________________

template <>

void TTensorDataLoader<TensorInput, TReference<Double_t>>::CopyTensorOutput(TMatrixT<Double_t> &matrix,

                                                                            IndexIterator_t sampleIterator)

{

   const TMatrixT<Double_t> &loutputMatrix = std::get<1>(fData);

   size_t n = loutputMatrix.GetNcols();


   for (size_t i = 0; i < fInputShape[0]; i++) {

      size_t sampleIndex = *sampleIterator;

      for (size_t j = 0; j < n; j++) {

         matrix(i, j) = loutputMatrix(sampleIndex, j);

      }


      sampleIterator++;

   }

}


//______________________________________________________________________________

template <>

void TTensorDataLoader<TensorInput, TReference<Double_t>>::CopyTensorWeights(TMatrixT<Double_t> &matrix,

                                                                             IndexIterator_t sampleIterator)

{

   const TMatrixT<Double_t> &lweightMatrix = std::get<2>(fData);


   for (size_t i = 0; i < fInputShape[0]; i++) {

      size_t sampleIndex = *sampleIterator;

      matrix(i, 0) = lweightMatrix(sampleIndex, 0);

      sampleIterator++;

   }

}


//______________________________________________________________________________

template <>

void TTensorDataLoader<TMVAInput_t, TReference<Real_t>>::CopyTensorInput(std::vector<TMatrixT<Real_t>> &tensor,

                                                                         IndexIterator_t sampleIterator)

{

   // one event, one  example in the batch

   Event *event = std::get<0>(fData)[0];


   if (fBatchDepth == 1) {

      for (size_t i = 0; i < fBatchHeight; i++) {

         size_t sampleIndex = *sampleIterator;

         for (size_t j = 0; j < fBatchWidth; j++) {

            event = std::get<0>(fData)[sampleIndex];

            tensor[0](i, j) = static_cast<Real_t>(event->GetValue(j));

         }

         sampleIterator++;

      }

   } else {

      for (size_t i = 0; i < fBatchDepth; i++) {

         size_t sampleIndex = *sampleIterator;

         for (size_t j = 0; j < fBatchHeight; j++) {

            for (size_t k = 0; k < fBatchWidth; k++) {

               event = std::get<0>(fData)[sampleIndex];

               tensor[i](j, k) = static_cast<Real_t>(event->GetValue(j * fBatchWidth + k));

            }

         }

         sampleIterator++;

      }

   }

}


//______________________________________________________________________________

template <>

void TTensorDataLoader<TMVAInput_t, TReference<Real_t>>::CopyTensorOutput(TMatrixT<Real_t> &matrix,

                                                                          IndexIterator_t sampleIterator)

{

   const DataSetInfo &info = std::get<1>(fData);

   Int_t n = matrix.GetNcols();


   for (size_t i = 0; i < fInputShape[0]; i++) {

      size_t sampleIndex = *sampleIterator++;

      Event *event = std::get<0>(fData)[sampleIndex];


      for (Int_t j = 0; j < n; j++) {

         if (event->GetNTargets() == 0) {

            if (n == 1) {

               matrix(i, j) = (info.IsSignal(event)) ? 1.0 : 0.0;

            } else {

               matrix(i, j) = 0.0;

               if (j == (Int_t)event->GetClass()) {

                  matrix(i, j) = 1.0;

               }

            }

         } else {

            matrix(i, j) = static_cast<Real_t>(event->GetTarget(j));

         }

      }

   }

}


//______________________________________________________________________________

template <>

void TTensorDataLoader<TMVAInput_t, TReference<Real_t>>::CopyTensorWeights(TMatrixT<Real_t> &matrix,

                                                                           IndexIterator_t sampleIterator)

{

   for (size_t i = 0; i < fInputShape[0]; i++) {

      size_t sampleIndex = *sampleIterator++;

      Event *event = std::get<0>(fData)[sampleIndex];

      matrix(i, 0) = static_cast<Real_t>(event->GetWeight());

   }

}


//______________________________________________________________________________

template <>

void TTensorDataLoader<TMVAInput_t, TReference<Double_t>>::CopyTensorInput(std::vector<TMatrixT<Double_t>> &tensor,

                                                                           IndexIterator_t sampleIterator)

{

   // one event, one  example in the batch

   Event *event = std::get<0>(fData)[0];


   if (fBatchDepth == 1) {

      for (size_t i = 0; i < fBatchHeight; i++) {

         size_t sampleIndex = *sampleIterator;

         for (size_t j = 0; j < fBatchWidth; j++) {

            event = std::get<0>(fData)[sampleIndex];

            tensor[0](i, j) = event->GetValue(j);

         }

         sampleIterator++;

      }

   } else {

      for (size_t i = 0; i < fBatchDepth; i++) {

         size_t sampleIndex = *sampleIterator;

         for (size_t j = 0; j < fBatchHeight; j++) {

            for (size_t k = 0; k < fBatchWidth; k++) {

               event = std::get<0>(fData)[sampleIndex];

               tensor[i](j, k) = event->GetValue(j * fBatchWidth + k);

            }

         }

         sampleIterator++;

      }

   }

}


//______________________________________________________________________________

template <>

void TTensorDataLoader<TMVAInput_t, TReference<Double_t>>::CopyTensorOutput(TMatrixT<Double_t> &matrix,

                                                                            IndexIterator_t sampleIterator)

{

   const DataSetInfo &info = std::get<1>(fData);

   Int_t n = matrix.GetNcols();


   for (size_t i = 0; i < fInputShape[0]; i++) {

      size_t sampleIndex = *sampleIterator++;

      Event *event = std::get<0>(fData)[sampleIndex];


      for (Int_t j = 0; j < n; j++) {

         if (event->GetNTargets() == 0) {

            if (n == 1) {

               matrix(i, j) = (info.IsSignal(event)) ? 1.0 : 0.0;

            } else {

               matrix(i, j) = 0.0;

               if (j == (Int_t)event->GetClass()) {

                  matrix(i, j) = 1.0;

               }

            }

         } else {

            matrix(i, j) = event->GetTarget(j);

         }

      }

   }

}


//______________________________________________________________________________

template <>

void TTensorDataLoader<TMVAInput_t, TReference<Double_t>>::CopyTensorWeights(TMatrixT<Double_t> &matrix,

                                                                             IndexIterator_t sampleIterator)

{

   for (size_t i = 0; i < fInputShape[0]; i++) {

      size_t sampleIndex = *sampleIterator++;

      Event *event = std::get<0>(fData)[sampleIndex];

      matrix(i, 0) = event->GetWeight();

   }

}


} // namespace DNN

} // namespace TMVA

DataSetInfo.h

Reference.h

Int_t
int Int_t
Definition: RtypesCore.h:41

Real_t
float Real_t
Definition: RtypesCore.h:64

TMVA::DNN::TTensorDataLoader
TTensorDataLoader.
Definition: TensorDataLoader.h:131

TMVA::DataSetInfo
Class that contains all the data information.
Definition: DataSetInfo.h:60

TMVA::DataSetInfo::IsSignal
Bool_t IsSignal(const Event *ev) const
Definition: DataSetInfo.cxx:173

TMVA::Event
Definition: Event.h:51

TMVA::Event::GetValue
Float_t GetValue(UInt_t ivar) const
return value of i'th variable
Definition: Event.cxx:237

TMatrixTBase::GetNcols
Int_t GetNcols() const
Definition: TMatrixTBase.h:127

TMatrixT
TMatrixT.
Definition: TMatrixT.h:39

n
const Int_t n
Definition: legend1.C:16

TMVA::DNN::IndexIterator_t
typename std::vector< size_t >::iterator IndexIterator_t
Definition: DataLoader.h:42

TMVA
create variable transformations
Definition: GeneticMinimizer.h:21