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#include <RDGeneral/export.h>
#ifndef RGROUP_RANDOM_SAMPLE_H
#define RGROUP_RANDOM_SAMPLE_H

#include "EnumerationStrategyBase.h"
#include <boost/random.hpp>
#include <boost/random/uniform_int_distribution.hpp>
#include <sstream>

namespace RDKit {

//! This is a class for fully randomly sampling reagents.
//   Note that this enumerator never halts.
/*!
  basic usage:

  \verbatim
  std::vector<MOL_SPTR_VECT> bbs;
  bbs.push_back( bbs_for_reactants_1 );
  bbs.push_back( bbs_for_reactants_2 );

  RandomSampleStrategy rgroups;
  rgroups.initialize(rxn, bbs);
  for(size_t i=0; i<num_samples && rgroups; ++i) {
    MOL_SPTR_VECT rvect = getReactantsFromRGroups(bbs, rgroups.next());
    std::vector<MOL_SPTR_VECT> lprops = rxn.RunReactants(rvect);
    ...
  }
  \endverbatim

  See EnumerationStrategyBase for more details and usage.
*/
class RDKIT_CHEMREACTIONS_EXPORT RandomSampleStrategy : public EnumerationStrategyBase {
  boost::uint64_t m_numPermutationsProcessed;
  boost::minstd_rand m_rng;
  std::vector<boost::random::uniform_int_distribution<> > m_distributions;

 public:
  RandomSampleStrategy()
      : EnumerationStrategyBase(),
        m_numPermutationsProcessed(),
        m_rng(),
        m_distributions() {
    for (size_t i = 0; i < m_permutation.size(); ++i) {
      m_distributions.push_back(
          boost::random::uniform_int_distribution<>(0, m_permutation[i] - 1));
    }
  }

  using EnumerationStrategyBase::initialize;

  virtual void initializeStrategy(const ChemicalReaction &, const EnumerationTypes::BBS &) {
    m_distributions.clear();
    for (size_t i = 0; i < m_permutationSizes.size(); ++i) {
      m_distributions.push_back(boost::random::uniform_int_distribution<>(
          0, m_permutationSizes[i] - 1));
    }

    m_numPermutationsProcessed = 0;
  }

  virtual const char *type() const { return "RandomSampleStrategy"; }

  //! The current permutation {r1, r2, ...}
  virtual const EnumerationTypes::RGROUPS &next() {
    for (size_t i = 0; i < m_permutation.size(); ++i) {
      m_permutation[i] = m_distributions[i](m_rng);
    }

    ++m_numPermutationsProcessed;

    return m_permutation;
  }

  virtual boost::uint64_t getPermutationIdx() const {
    return m_numPermutationsProcessed; }

  virtual operator bool() const { return true; }

  EnumerationStrategyBase *copy() const {
    return new RandomSampleStrategy(*this);
  }

 private:
#ifdef RDK_USE_BOOST_SERIALIZATION    
  friend class boost::serialization::access;

  template <class Archive>
  void save(Archive &ar, const unsigned int /*version*/) const {
    // invoke serialization of the base class
    ar << boost::serialization::base_object<const EnumerationStrategyBase>(
        *this);
    ar << m_numPermutationsProcessed;

    std::stringstream random;
    random << m_rng;
    std::string s = random.str();
    ar << s;
  }

  template <class Archive>
  void load(Archive &ar, const unsigned int /*version*/) {
    // invoke serialization of the base class
    ar >> boost::serialization::base_object<EnumerationStrategyBase>(*this);
    ar >> m_numPermutationsProcessed;
    std::string s;
    ar >> s;
    std::stringstream random(s);
    random >> m_rng;

    // reset the uniform distributions
    m_distributions.clear();
    for (size_t i = 0; i < m_permutationSizes.size(); ++i) {
      m_distributions.push_back(boost::random::uniform_int_distribution<>(
          0, m_permutationSizes[i] - 1));
    }
  }

  template <class Archive>
  void serialize(Archive &ar, const unsigned int file_version) {
    boost::serialization::split_member(ar, *this, file_version);
  }
#endif  
};
}

#ifdef RDK_USE_BOOST_SERIALIZATION        
BOOST_CLASS_VERSION(RDKit::RandomSampleStrategy, 1)
#endif

#endif