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#ifndef _QUANT_CHOOSER_H_
#define _QUANT_CHOOSER_H_

#include <libdirac_common/arrays.h>
#include <libdirac_common/wavelet_utils.h>
#include <libdirac_common/common.h>

namespace dirac
{
    //! Choose a quantiser
    /*!
        This class chooses a quantiser or quantisers for a subband 
    */
    class QuantChooser
    {
    public:

        //! Constructor
        QuantChooser( const PicArray& pic_data , const float lambda  );

        //! Finds the best quantisers for the subband, returning the predicted number of bits needed
        int GetBestQuant( Subband& node );

        //! Sets the factor used for correcting the entropy calculation
        void SetEntropyCorrection( const float ecfac ){ m_entropy_correctionfactor = ecfac; }
    private:
        //! Copy constructor is private and body-less. This class should not be copied.
        QuantChooser(const QuantChooser& cpy);

        //! Assignment = is private and body-less. This class should not be assigned.
        QuantChooser& operator=(const QuantChooser& rhs);
 
        //! Calculate errors and entropies for integral-bit quantisers on a block of coeffs
        void IntegralErrorCalc( const CodeBlock& code_block , 
                                const int block_idx , 
                                const int xratio , 
                                const int yratio );

        //! Calculate errors and entropies for non-integral-bit quantisers on a block of coeffs
        void NonIntegralErrorCalc( const CodeBlock& code_block , 
                                   const int block_idx , 
                                   const int xratio , 
                                   const int yratio );

        //! Having got statistics, calculate the Lagrangian costs
        void LagrangianCalc(const CodeBlock& code_block , 
                            const int block_idx );

        //! Select the best quantisation index for a whole subband on the basis of the Lagrangian calculations
        void SelectBestQuant();

        //! Select the best quantisation index for a code block on the basis of the Lagrangian calculations
        void SelectBestQuant( const int block_idx );

        //! Find the absolute max value in the block under consideration
        ValueType BlockAbsMax( const CodeBlock& code_block );

    private:
        //! The smallest quantisation index being tested
        int m_bottom_idx;
        //! The largest quantisation index being tested
        int m_top_idx;
        //! The step we use in jumping through the list of quantisers
        int m_index_step;

        //! The index of the quantiser with the lowest cost
        int m_min_idx;

        //! A local reference to the data under consideration
        const PicArray& m_pic_data;

        //!  The lambda value to be used in the Lagrangian calculation
        const float m_lambda;

        //! A value for correcting the crude calculation of the entropy
        float m_entropy_correctionfactor;

        //! An array used to count the number of zeroes
        TwoDArray<int> m_count0;
        //! An array used to count the number of ones
        OneDArray<int> m_count1;
        //! An array used to count the number of positive values
        TwoDArray<int> m_countPOS;
        //! An array used to count the number of negative values
        TwoDArray<int> m_countNEG;    
        //! An array used to collate the sum of the perceptually-weighted errors
        TwoDArray<double> m_error_total;
        //! An array used to collate the computed costs
        TwoDArray<CostType> m_costs;

    };

} // namespace dirac



#endif