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I want to implement a framework for analyzing different representations (CChannel) (with different approaches) of the same original representation (CTrainingData). Due to the fact, that each representation has its own type a template class is used. The base class required for storing the channels in a hashmap. A channel type could be "rgb_image", "gray_image", "gradient_image" etc. Now lets come to my problem :) I have different algorithms which are working with various channel.

class CChannelBase
{
public:
virtual ~CChannelBase( void ){}

/// defines the channel type
eChannelTypes m_channelType_e;
};


template <class ValueType>
class CChannel : public CChannelBase
{
public:
typedef ValueType value_type_t;

inline ValueType getValue( int32_t f_offset_i32 ) const
{
    // implementation...
    return m_data_p[f_offset_i32];
}

inline void setValue( int32_t f_offset_i32, const ValueType f_value_t )
{
    // implementation...
}

inline const ValueType* getData() const
{
    return m_data_p;
}

inline void setData( ValueType* f_data_pt )
{
    m_data_p = f_data_pt;
}
protected:

private:
/// the data
ValueType* m_data_p;
};




class CTrainingData
{
public:

template <class ValueType>
bool addChannel ( CChannel<ValueType>* f_channel_p )
{
    m_channels_map.insert( intPtrPair_t(f_channel_p->getChannelType(),f_channel_p) );
    return true;
}

template <class ValueType>
const CChannel<ValueType>* getChannel ( const cvbase::EChannelTypes f_channel_e ) const
{
    const CChannelBase* l_tmp_p = getChannel(f_channel_e);
    if ( 0 == l_tmp_p )
    {
        return 0;
    }

    const CChannel<ValueType>* l_return_p = dynamic_cast< const CChannel< ValueType>* >(l_tmp_p);
    return l_return_p;
}


const CChannelBase* getChannel ( const eChannelTypes f_channel_e ) const
{
    itrChannelMapConst_t l_channelItr = m_channels_map.find(f_channel_e);
    if ( m_channels_map.end() == l_channelItr )
    {
        return 0;
    }
    const CChannelBase* l_tmp_p = l_channelItr->second;
    return l_tmp_p;
}

protected:

private:
typedef std::map<int32_t, CChannelBase*> intPtrMap_t;
typedef std::pair<int32_t, CChannelBase*> intPtrPair_t;

/// convenience typedef for channel vector
typedef typename intPtrMap_t::iterator itrChannelMap_t;
typedef typename intPtrMap_t::const_iterator itrChannelMapConst_t;

/// pointer to the data
intPtrMap_t m_channels_map;
};

This algorithms just get a pointer to the class CTrainingData and holds the information which channel should be used for all computations.

class CAlgorithm1
{
public: 
void getResponse( const CTrainingData* f_trainingData_p, std::vector<float64_t>& f_responseVector_rv ) const
{
    const CChannelBase* l_channel_p = f_trainingData_p->getChannel(m_usedChannel_e);
    //f_responseVector_rv.push_back( this->getResponse( l_channel_p ) );
}

template <class ValueType>
cvbase::float64_t getResponse( const CChannel<ValueType>* f_channel_p ) const
{
    /// ....
    return 0.0;
}
private:
    eChannelTypes m_usedChannel_e;
};

My problem is, that I do not know the template type of the CChannel. Of course, it is possible to use dynamic_cast but I hope that there is a better solution. Do you have an idea to redesign the classes for an easier access?

Kind regards, soxx

share|improve this question
    
tl;dr; What about using CRTP => static polymorphism? –  πάντα ῥεῖ Sep 17 '13 at 20:04
    
Hi, yes I thought about this solution, but the problem is, that my training data class consists of more than one channel. Due to the fact, that channels are different and I have to store them in a container, I must introduce a base class. And exactly there is the problem. I also thought about ttl´s (tiny template library) variant and the visitor pattern (codeproject.com/Articles/6168/Tiny-Template-Library-variant). Maybe it is possible to solve the problem by using this concept. –  soxx Sep 19 '13 at 22:14
    
Hmm' don't know if ttl solution will be helpful for your use case, note that it requires C++11 features anyway. With CRTP you could still introduce an abstract base class, that can be referred using standard containers. –  πάντα ῥεῖ Sep 20 '13 at 11:07
    
The AlgorithmX implementation does not know anything about the type of the return pointer. It only knows about the kind of data which is required for the algorithm (the algorithm knows that it requires an integral image, but it does not know about the data representation (e.g. uint32 ptr). Therefore the algorithm needs to know what kind of pointer will come back from a channel. When I try to use an intermediate base class with the derived class (CChannel) as template (typedef typename DerivedValueType::valueType_t derivedValueType_t;) I got an error. Could you give me an example? Regards, soxx –  soxx Sep 20 '13 at 19:08
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