libbpp-phyl-dev 2.1.0-1 / usr / include / Bpp / Phyl / Model / Codon / CodonDistanceFitnessPhaseFrequenciesSubstitutionModel.h

//
// File: CodonDistanceFitnessPhaseFrequenciesSubstitutionModel.h
// Created by: Fanny Pouyet 
// Created on: mars 2012
//
 
/*
  Copyright or © or Copr. Bio++ Development Team, (November 16, 2004)

  This software is a computer program whose purpose is to provide classes
  for phylogenetic data analysis.
 
  This software is governed by the CeCILL  license under French law and
  abiding by the rules of distribution of free software.  You can  use,
  modify and/ or redistribute the software under the terms of the CeCILL
  license as circulated by CEA, CNRS and INRIA at the following URL
  "http://www.cecill.info".
 
  As a counterpart to the access to the source code and  rights to copy,
  modify and redistribute granted by the license, users are provided only
  with a limited warranty  and the software's author,  the holder of the
  economic rights,  and the successive licensors  have only  limited
  liability.
 
  In this respect, the user's attention is drawn to the risks associated
  with loading,  using,  modifying and/or developing or reproducing the
  software by the user in light of its specific status of free software,
  that may mean  that it is complicated to manipulate,  and  that  also
  therefore means  that it is reserved for developers  and  experienced
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*/
 
#ifndef _CODONDISTANCEFITNESSPHASEFREQUENCIESSUBSTITUTIONMODEL_H_
#define _CODONDISTANCEFITNESSPHASEFREQUENCIESSUBSTITUTIONMODEL_H_
 
#include "AbstractCodonFitnessSubstitutionModel.h"
#include "AbstractCodonSubstitutionModel.h"
#include "AbstractCodonDistanceSubstitutionModel.h"
#include "AbstractCodonPhaseFrequenciesSubstitutionModel.h"

namespace bpp
{
  /**
   * @brief Class for asynonymous and synonymous substitution models
   * on codons with parameterized equilibrium frequencies and
   * nucleotidic basic models.
   *
   * @author Fanny Pouyet, Laurent Guéguen
   *
   * This class should be used with models which equilibrium
   * distribution is fixed, ans does not depend on the parameters.
   * Otherwise there may be problems of identifiability of the
   * parameters.
   *
   * See description in AbstractCodonDistanceSubstitutionModel
   * class, AbstractCodonPhaseFrequenciesSubstitutionModel class,
   * AbstractCodonFitnessSubstitutionModel class.
   *
   * Only substitutions with one letter changed are accepted. </p>
   *
   * The additional parameter to CodonPhaseFrequenciesSubstitutionModel
   * is the ratio of nonsynonymous over synonymous substitutions.
   *
   * If a distance @f$d@f$ between amino-acids is defined, the ratio between
   * non-synonymous and synonymous substitutions rates is, if the codied
   * amino-acids are @f$x@f$ and @f$y@f$, @f$\beta*\exp(-\alpha.d(x,y))@f$ with
   * non-negative parameter \c "alpha" and positive parameter \c "beta".
   *
   * If such a distance is not defined, the ratio between
   * non-synonymous and synonymous substitutions rates is
   * @f$\beta@f$ with positive parameter \c "beta".
   *
   * The fitness of a codon is a value between 0 and 1 defining the
   * relative advantage of a codon, compared to others. If a codon
   * @f$i@f$ has a fitness @f$\phi_i@f$ and another one (@f$j@f$)
   * has a fitness @f$\phi_j@f$, the substitution rate from codon
   * @f$i@f$ to codon @f$j@f$ is multiplied by
   * \f[-\frac{\log(\frac{\phi_i}{\phi_j})}{1-\frac{\phi_i}{\phi_j}}\f]
   * The set of fitnesses is implemented through a Codon
   * FrequenciesSet object. The parameters are named \c
   * "fit_NameOfTheParameterInTheFrequenciesSet".
   *
   * Reference:
   * -  Yang Z. and Nielsen R. (2008), _Molecular Biology and Evolution_ 25(3):568--579.
   */


  class CodonDistanceFitnessPhaseFrequenciesSubstitutionModel :
    public AbstractCodonSubstitutionModel,
    public AbstractCodonDistanceSubstitutionModel,
    public AbstractCodonPhaseFrequenciesSubstitutionModel,
    public AbstractCodonFitnessSubstitutionModel
  {
  public:
    CodonDistanceFitnessPhaseFrequenciesSubstitutionModel(const GeneticCode* palph,
                                  NucleotideSubstitutionModel* pmod,
                                  FrequenciesSet* pfit,
                                  FrequenciesSet* pfreq,
                                  const AlphabetIndex2* pdist = 0);
    CodonDistanceFitnessPhaseFrequenciesSubstitutionModel(const GeneticCode* palph,
                                  NucleotideSubstitutionModel* pmod1,
                                  NucleotideSubstitutionModel* pmod2,
                                  NucleotideSubstitutionModel* pmod3,
                                  FrequenciesSet* pfit,
                                  FrequenciesSet* pfreq,
                                  const AlphabetIndex2* pdist = 0);

    CodonDistanceFitnessPhaseFrequenciesSubstitutionModel(const CodonDistanceFitnessPhaseFrequenciesSubstitutionModel& model) :
      AbstractParameterAliasable(model),
      AbstractSubstitutionModel(model),
      AbstractWordSubstitutionModel(model),
      AbstractCodonSubstitutionModel(model),
      AbstractCodonDistanceSubstitutionModel(model),
      AbstractCodonPhaseFrequenciesSubstitutionModel(model),
      AbstractCodonFitnessSubstitutionModel(model)
    {}

    CodonDistanceFitnessPhaseFrequenciesSubstitutionModel& operator=(
                                                                     const CodonDistanceFitnessPhaseFrequenciesSubstitutionModel& model)
    {
      AbstractParameterAliasable::operator=(model);
      AbstractSubstitutionModel::operator=(model);
      AbstractWordSubstitutionModel::operator=(model);
      AbstractCodonSubstitutionModel::operator=(model);
      AbstractCodonDistanceSubstitutionModel::operator=(model);
      AbstractCodonPhaseFrequenciesSubstitutionModel::operator=(model);
      AbstractCodonFitnessSubstitutionModel::operator=(model);
      return *this;
    }

    ~CodonDistanceFitnessPhaseFrequenciesSubstitutionModel() {}

    CodonDistanceFitnessPhaseFrequenciesSubstitutionModel* clone() const
    {
      return new CodonDistanceFitnessPhaseFrequenciesSubstitutionModel(*this);
    }

  public:
    void fireParameterChanged(const ParameterList& parameterlist);

    std::string getName() const;

    double getCodonsMulRate(size_t i, size_t j) const;

    void setNamespace(const std::string&);

    void setFreq(std::map<int,double>& frequencies);

  };

} // end of namespace bpp.

#endif