/**
* @file Codebook.cpp
* @brief feature codebook
* @author Erik Rodner, Alexander Freytag
* @date 05-06-2013 (dd-mm-yyyy ) (original: 02/15/2008)
*/
#include <iostream>
#include "vislearning/features/simplefeatures/Codebook.h"
using namespace OBJREC;
using namespace std;
using namespace NICE;
Codebook::Codebook ( )
{
this->i_noOfNearestClustersToConsidere = 1;
}
Codebook::Codebook ( const int & _noOfNearestClustersToConsidere )
{
this->i_noOfNearestClustersToConsidere = _noOfNearestClustersToConsidere;
}
Codebook::Codebook( NICE::Config * _conf, const std::string & _section)
{
this->p_conf = _conf;
this->s_section = _section;
this->i_noOfNearestClustersToConsidere = this->p_conf->gI( _section, "noOfNearestClustersToConsidere", 1);
}
Codebook::~Codebook ( )
{
//NOTE the config does not need to be deleted, it is just a pointer to an external data structure
}
void Codebook::voteVQ (const NICE::Vector &feature, NICE::Vector &histogram, int &codebookEntry, double &weight, double &distance) const
{
this->voteVQ ( feature, codebookEntry, weight, distance );
//VQ, but we directly increase the corresponding entry without setting histogram to zero before (useful if we work on multiple images)
histogram[codebookEntry] += weight;
}
void Codebook::voteVQ ( const NICE::Vector & feature, NICE::SparseVector & histogram, int &codebookEntry, double &weight, double &distance ) const
{
this->voteVQ ( feature, codebookEntry, weight, distance );
//is this cluster already non-zero in the histogram?
NICE::SparseVector::iterator entryIt = histogram.find( codebookEntry ) ;
if ( entryIt == histogram.end() )
{
//entry does not exist
histogram.insert ( histogram.begin(), pair<int, double> ( codebookEntry, weight ) );
}
else
{
//entry already exists, so we increase the weight
entryIt->second += weight;
}
}
bool Codebook::allowsMultipleVoting () const
{
if ( this->i_noOfNearestClustersToConsidere > 1 )
return true;
else
return false;
}
void Codebook::reinit ( int numCodebookEntries )
{
thresholds.resize ( numCodebookEntries );
thresholds.set(0.0);
informativeMeasure.resize ( numCodebookEntries );
informativeMeasure.set(0.0);
classnos.resize ( numCodebookEntries );
classnos.resize(0);
}
void Codebook::clear ()
{
thresholds.clear();
informativeMeasure.clear();
classnos.clear();
}
void Codebook::restore ( istream & is, int format )
{
if (is.good())
{
std::string tmp;
is >> tmp; //class name
if ( ! this->isStartTag( tmp, "Codebook" ) )
{
std::cerr << " WARNING - attempt to restore Codebook, but start flag " << tmp << " does not match! Aborting... " << std::endl;
throw;
}
bool b_endOfBlock = false;
while ( !b_endOfBlock )
{
is >> tmp; // start of block
if ( this->isEndTag( tmp, "Codebook" ) )
{
b_endOfBlock = true;
continue;
}
tmp = this->removeStartTag ( tmp );
if ( tmp.compare("thresholds") == 0 )
{
is >> thresholds;
is >> tmp; // end of block
tmp = this->removeEndTag ( tmp );
}
else if ( tmp.compare("informativeMeasure") == 0 )
{
is >> informativeMeasure;
is >> tmp; // end of block
tmp = this->removeEndTag ( tmp );
}
else if ( tmp.compare("classnos") == 0 )
{
is >> classnos;
is >> tmp; // end of block
tmp = this->removeEndTag ( tmp );
}
}
}
// is >> classnos;
//TODO use a flag for compatibility with old systems?
/* try
{
is >> i_noOfNearestClustersToConsidere;
is >> s_section;
this->p_conf->restore( is, format );
}
catch( ... )
{
std::cerr << "something went wrong while Loading the codebook - use default values instead" << std::endl;
//TODO use suitable default values
} */
}
void Codebook::store ( ostream & os, int format ) const
{
if (os.good())
{
// show starting point
os << this->createStartTag( "Codebook" ) << std::endl;
os << this->createStartTag( "thresholds" ) << std::endl;
os << this->thresholds << endl;
os << this->createEndTag( "thresholds" ) << std::endl;
os << this->createStartTag( "informativeMeasure" ) << std::endl;
os << this->informativeMeasure << endl;
os << this->createEndTag( "informativeMeasure" ) << std::endl;
os << this->createStartTag( "classnos" ) << std::endl;
os << this->classnos << endl;
os << this->createEndTag( "classnos" ) << std::endl;
// done
os << this->createEndTag( "Codebook" ) << std::endl;
}
// os << this->i_noOfNearestClustersToConsidere << endl;
// os << this->s_section << endl;
//
// this->p_conf->store( os, format );
}
void Codebook::copy ( const Codebook *codebook )
{
this->reinit ( codebook->thresholds.size() );
thresholds = codebook->thresholds;
informativeMeasure = codebook->informativeMeasure;
classnos = codebook->classnos;
this->p_conf = codebook->p_conf;
this->setNoOfNearestClustersToConsidere ( codebook->getNoOfNearestClustersToConsidere() );
}
void Codebook::setNoOfNearestClustersToConsidere ( const int & _noOfNearestClustersToConsidere )
{
this->i_noOfNearestClustersToConsidere = _noOfNearestClustersToConsidere;
}
int Codebook::getNoOfNearestClustersToConsidere ( ) const
{
return this->i_noOfNearestClustersToConsidere;
}
void Codebook::setHardAssignment( const bool & _hardAssignment )
{
this->b_hardAssignment = _hardAssignment;
}
bool Codebook::getHardAssignment ( ) const
{
return this->b_hardAssignment;
}