File: covariance.h

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/******************************************************************************
The MIT License(MIT)

Embedded Template Library.
https://github.com/ETLCPP/etl
https://www.etlcpp.com

Copyright(c) 2021 John Wellbelove

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

#ifndef ETL_COVARIANCE_INCLUDED
#define ETL_COVARIANCE_INCLUDED

#include "platform.h"
#include "functional.h"
#include "type_traits.h"

#include <stdint.h>

namespace etl
{
  namespace private_covariance
  {
    //***************************************************************************
    /// Types for generic covariance.
    //***************************************************************************
    template <typename TInput, typename TCalc>
    struct covariance_traits
    {
      typedef TCalc calc_t;
    };

    //***************************************************************************
    /// Types for float covariance.
    //***************************************************************************
    template <typename TCalc>
    struct covariance_traits<float, TCalc>
    {
      typedef float calc_t;
    };

    //***************************************************************************
    /// Types for double covariance.
    //***************************************************************************
    template <typename TCalc>
    struct covariance_traits<double, TCalc>
    {
      typedef double calc_t;
    };
  }

  //***************************************************************************
  /// Covariance Type.
  //***************************************************************************
  namespace private_covariance
  {
    template<typename T = void>
    struct covariance_type_statics
    {
      static ETL_CONSTANT bool Sample = false;
      static ETL_CONSTANT bool Population = true;
    };

    template<typename T>
    ETL_CONSTANT bool covariance_type_statics<T>::Sample;
    
    template<typename T>
    ETL_CONSTANT bool covariance_type_statics<T>::Population;
  }

  struct covariance_type : public private_covariance::covariance_type_statics<>
  {
  };

  //***************************************************************************
  /// Covariance.
  //***************************************************************************
  template <bool Covariance_Type, typename TInput, typename TCalc = TInput>
  class covariance 
    : public private_covariance::covariance_traits<TInput, TCalc>
    , public etl::binary_function<TInput, TInput, void>
  {
  private:

    static ETL_CONSTANT int Adjustment = (Covariance_Type == covariance_type::Population) ? 0 : 1;

    typedef typename private_covariance::covariance_traits<TInput, TCalc>::calc_t calc_t;

  public:

    //*********************************
    /// Constructor.
    //*********************************
    covariance()
    {
      clear();
    }

    //*********************************
    /// Constructor.
    //*********************************
    template <typename TIterator>
    covariance(TIterator first1, TIterator last1, TIterator first2)
    {
      clear();
      add(first1, last1, first2);
    }

    //*********************************
    /// Add a pair of values.
    //*********************************
    void add(TInput value1, TInput value2)
    {
      inner_product += TCalc(value1 * value2);
      sum1          += TCalc(value1);
      sum2          += TCalc(value2);
      ++counter;
      recalculate = true;
    }

    //*********************************
    /// Add a range.
    //*********************************
    template <typename TIterator>
    void add(TIterator first1, TIterator last1, TIterator first2)
    {
      while (first1 != last1)
      {
        add(*first1, *first2);
        ++first1;
        ++first2;
      }
    }

    //*********************************
    /// operator ()
    /// Add a pair of values.
    //*********************************
    void operator ()(TInput value1, TInput value2)
    {
      add(value1, value2);
    }

    //*********************************
    /// operator ()
    /// Add a range.
    //*********************************
    template <typename TIterator>
    void operator ()(TIterator first1, TIterator last1, TIterator first2)
    {
      add(first1, last1, first2);
    }

    //*********************************
    /// Get the covariance.
    //*********************************
    double get_covariance() const
    {
      if (recalculate)
      {
        covariance_value = 0.0;

        if (counter != 0)
        {
          double n = double(counter);
          double adjustment = 1.0 / (n * (n - Adjustment));

          covariance_value = ((n * inner_product) - (sum1 * sum2)) * adjustment;

          recalculate = false;
        }
      }

      return covariance_value;
    }

    //*********************************
    /// Get the covariance.
    //*********************************
    operator double() const
    {
      return get_covariance();
    }

    //*********************************
    /// Get the total number added entries.
    //*********************************
    size_t count() const
    {
      return size_t(counter);
    }

    //*********************************
    /// Clear the covariance.
    //*********************************
    void clear()
    {
      inner_product    = calc_t(0);
      sum1             = calc_t(0);
      sum2             = calc_t(0);
      counter          = 0U;
      covariance_value = 0.0;
      recalculate      = true;
    }

  private:
  
    calc_t   inner_product;
    calc_t   sum1;
    calc_t   sum2;
    uint32_t counter;
    mutable double covariance_value;
    mutable bool   recalculate;
  };

  template <bool Covariance_Type, typename TInput, typename TCalc>
  ETL_CONSTANT int covariance<Covariance_Type, TInput, TCalc>::Adjustment;
}

#endif