/usr/include/shark/Data/BatchInterfaceAdaptStruct.h is in libshark-dev 3.0.1+ds1-2ubuntu1.
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*
*
* \brief Defines an batch adptor for structures.
*
*
*
* \author O.Krause
* \date 2012
*
*
* \par Copyright 1995-2015 Shark Development Team
*
* <BR><HR>
* This file is part of Shark.
* <http://image.diku.dk/shark/>
*
* Shark is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* Shark is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with Shark. If not, see <http://www.gnu.org/licenses/>.
*
*/
#ifndef SHARK_DATA_BATCHINTERFACEADAPTSTRUCT_H
#define SHARK_DATA_BATCHINTERFACEADAPTSTRUCT_H
#include <boost/fusion/sequence/intrinsic/swap.hpp>
#include <boost/fusion/algorithm/iteration/for_each.hpp>
#include <boost/fusion/algorithm/transformation/transform.hpp>
#include <shark/Data/BatchInterface.h>
#include <boost/preprocessor/seq/transform.hpp>
#include "Impl/BoostFusion151DefineStructInl.hpp"
namespace shark{
namespace detail{
///serializes the object into the archive
template<class Archive>
struct ItemSerializer {
ItemSerializer(Archive& ar):m_ar(ar) {}
template<typename T>
void operator()(T& o)const{
m_ar & o;
}
private:
Archive& m_ar;
};
struct CreateBatch{
CreateBatch(std::size_t size):m_size(size) {}
template<class> struct result;
template<class T>
struct result<CreateBatch(T const&)> {
typedef typename shark::Batch<T>::type type;
};
template<class T>
typename result<CreateBatch(T const&)>::type operator()(T const& value)const{
return shark::Batch<T>::createBatch(value,m_size);
}
private:
std::size_t m_size;
};
struct resize{
resize(std::size_t size1, std::size_t size2):m_size1(size1),m_size2(size2){};
template<class T>
void operator()(T& batch)const{
shark::Batch<typename boost::range_value<T>::type>::resize(batch,m_size1,m_size2);
}
private:
std::size_t m_size1;
std::size_t m_size2;
};
///calls get(container,index) on a container. Used as boost fusion functor in the creation of references in the Batch Interface
struct MakeRef{
template<class> struct result;
template<class T>
struct result<MakeRef(T const&)> {
typedef typename boost::range_reference<T>::type type;
};
MakeRef(std::size_t index):m_index(index){}
template<class T>
typename result<MakeRef(T const&) >::type operator()(T const& container)const{
return get(const_cast<T&>(container),m_index);//we need the const cast since the argument type must be a const ref.
}
private:
std::size_t m_index;
};
///calls get(container,index) on a container. Used as boost fusion functor in the cration of references in the Batch Interface
struct MakeConstRef{
template<class> struct result;
template<class T>
struct result<MakeConstRef(T const&)> {
typedef typename boost::range_reference<T const>::type type;
};
MakeConstRef(std::size_t index):m_index(index){}
template<class T>
typename result<MakeConstRef(T const&) >::type operator()(T const& container)const{
return get(container,m_index);
}
private:
std::size_t m_index;
};
template<class FusionSequence>
struct FusionFacade: public FusionSequence{
FusionFacade(){}
template<class Sequence>
FusionFacade(Sequence const& sequence):FusionSequence(sequence){}
};
template<class Type>
struct isFusionFacade{
private:
struct Big{ int big[100]; };
template <class S>
static Big tester(FusionFacade<S>*);
template <class S>
static Big tester(FusionFacade<S> const*);
static char tester(...);
static Type* generator();
BOOST_STATIC_CONSTANT(std::size_t, size = sizeof(tester(generator())));
public:
BOOST_STATIC_CONSTANT(bool, value = (size!= 1));
typedef boost::mpl::bool_<value> type;
};
}
template<class S>
S& fusionize(detail::FusionFacade<S> & facade){
return static_cast<S&>(facade);
}
template<class S>
S const& fusionize(detail::FusionFacade<S> const& facade){
return static_cast<S const&>(facade);
}
template<class S>
typename boost::disable_if<detail::isFusionFacade<S>,S&>::type
fusionize(S& facade){
return facade;
}
template<class S>
typename boost::disable_if<detail::isFusionFacade<S>,S const& >::type
fusionize(S const& facade){
return facade;
}
}
#define SHARK_TRANSFORM_BATCH_ATTRIBUTES_TPL_IMPL(s,TYPE,ELEM)\
( typename Batch<BOOST_PP_TUPLE_ELEM(2, 0, ELEM)>::TYPE,BOOST_PP_TUPLE_ELEM(2, 1, ELEM))
#define SHARK_TRANSFORM_TUPLELIST_IMPL(s, data,ELEM)\
BOOST_PP_TUPLE_ELEM(2, 0, ELEM),BOOST_PP_TUPLE_ELEM(2, 1, ELEM)
#define SHARK_TRANSFORM_TUPLELIST(ELEMS)\
BOOST_PP_SEQ_TRANSFORM(SHARK_TRANSFORM_TUPLELIST_IMPL, _ , ELEMS)
#define SHARK_TRANSFORM_BATCH_ATTRIBUTES_TPL(TYPE,ATTRIBUTES)\
SHARK_TRANSFORM_TUPLELIST(BOOST_PP_SEQ_TRANSFORM(\
SHARK_TRANSFORM_BATCH_ATTRIBUTES_TPL_IMPL,\
TYPE, BOOST_PP_CAT(SHARK_FUSION_ADAPT_STRUCT_FILLER_0 ATTRIBUTES,_END)))
#define SHARK_TRANSFORM_BATCH_ATTRIBUTES_IMPL(s,TYPE,ELEM)\
( Batch<BOOST_PP_TUPLE_ELEM(2, 0, ELEM)>::TYPE,BOOST_PP_TUPLE_ELEM(2, 1, ELEM))
#define SHARK_TRANSFORM_BATCH_ATTRIBUTES(TYPE,ATTRIBUTES)\
SHARK_TRANSFORM_TUPLELIST(BOOST_PP_SEQ_TRANSFORM(\
SHARK_TRANSFORM_BATCH_ATTRIBUTES_IMPL,\
TYPE, BOOST_PP_CAT(SHARK_FUSION_ADAPT_STRUCT_FILLER_0 ATTRIBUTES,_END)))
///\brief creates default implementation for reference or const_reference types of Batches
#define SHARK_CREATE_BATCH_REFERENCES_TPL(ATTRIBUTES)\
private:\
SHARK_FUSION_DEFINE_STRUCT_REF_INLINE(FusionRef, SHARK_TRANSFORM_BATCH_ATTRIBUTES_TPL(reference,ATTRIBUTES))\
SHARK_FUSION_DEFINE_STRUCT_CONST_REF_INLINE(FusionConstRef, SHARK_TRANSFORM_BATCH_ATTRIBUTES_TPL(const_reference,ATTRIBUTES))\
public:\
struct reference: public detail::FusionFacade<FusionRef>{\
template<class Batch>\
reference(Batch& batch, std::size_t i)\
:detail::FusionFacade<FusionRef>(boost::fusion::transform(fusionize(batch),detail::MakeRef(i))){}\
template<class Other>\
reference& operator= (Other const& other ){\
fusionize(*this) = other;\
return *this;\
}\
reference& operator= (reference const& other ){\
fusionize(*this) = other;\
return *this;\
}\
friend void swap(reference op1, reference op2){\
boost::fusion::swap(op1,op2);\
}\
operator value_type()const{\
value_type ret;\
boost::fusion::copy(fusionize(*this), ret);\
return ret;\
}\
};\
struct const_reference: public detail::FusionFacade<FusionConstRef>{\
private:\
const_reference& operator= (const_reference const& other );\
public:\
template<class Batch>\
const_reference(Batch& batch, std::size_t i)\
:detail::FusionFacade<FusionConstRef>(boost::fusion::transform(fusionize(batch),detail::MakeConstRef(i))){}\
operator value_type()const{\
value_type ret;\
boost::fusion::copy(fusionize(*this), ret);\
return ret;\
}\
};
#define SHARK_CREATE_BATCH_REFERENCES(ATTRIBUTES)\
private:\
SHARK_FUSION_DEFINE_STRUCT_REF_INLINE(FusionRef, SHARK_TRANSFORM_BATCH_ATTRIBUTES(reference,ATTRIBUTES))\
SHARK_FUSION_DEFINE_STRUCT_CONST_REF_INLINE(FusionConstRef, SHARK_TRANSFORM_BATCH_ATTRIBUTES(const_reference,ATTRIBUTES))\
public:\
struct reference: public detail::FusionFacade<FusionRef>{\
template<class Batch>\
reference(Batch& batch, std::size_t i)\
:detail::FusionFacade<FusionRef>(boost::fusion::transform(fusionize(batch),detail::MakeRef(i))){}\
template<class Other>\
reference& operator= (Other const& other ){\
fusionize(*this) = other;\
return *this;\
}\
reference& operator= (reference const& other ){\
fusionize(*this) = other;\
return *this;\
}\
friend void swap(reference& op1, reference& op2){\
boost::fusion::swap(op1,op2);\
}\
operator value_type()const{\
value_type ret;\
boost::fusion::copy(fusionize(*this), ret);\
return ret;\
}\
};\
struct const_reference: public detail::FusionFacade<FusionConstRef>{\
template<class Batch>\
const_reference(Batch& batch, std::size_t i)\
:detail::FusionFacade<FusionConstRef>(boost::fusion::transform(fusionize(batch),detail::MakeConstRef(i))){}\
template<class Other>\
const_reference& operator= (Other const& other ){\
fusionize(*this) = other;\
return *this;\
}\
operator value_type()const{\
value_type ret;\
boost::fusion::copy(fusionize(*this), ret);\
return ret;\
}\
};
///\brief creates default typedefs for iterator or const_iterator types of Batches
#define SHARK_CREATE_BATCH_ITERATORS()\
typedef ProxyIterator<type, value_type, reference > iterator;\
typedef ProxyIterator<const type, value_type, const_reference > const_iterator;\
iterator begin(){\
return iterator(*this,0);\
}\
const_iterator begin()const{\
return const_iterator(*this,0);\
}\
iterator end(){\
return iterator(*this,size());\
}\
const_iterator end()const{\
return const_iterator(*this,size());\
}\
///\brief This macro can be used to specialize a structure type easily to a batch type.
///
///Assume, that your input Data looks like:
///<code>
///template<class T>
///struct DataType{
/// RealVector A;
/// T B;
///};
///</code>
///Than the Batch type should propably look like
///<code>
///struct DataTypeBatch{
/// RealMatrix A;
/// RealVector B;
///};
///</code>
///In this case the macro can be used to generate a complete specialisation of Batch<DataType>
///<code>
///#define DataVars (RealVector, A)(double B)
///
///SHARK_CREATE_BATCH_INTERFACE( DataType,DataVars)
///};
///As any other batch model th result also offers iterators over the range of elements.
///In this case also boost::fusion support is added to the sequence. e.g. it is
///handled similar to any other tuple type (RealMatrix,RealVector). This is useful for MKL or Transfer
///kernels
///</code>
#define SHARK_CREATE_BATCH_INTERFACE(NAME,ATTRIBUTES)\
private:\
SHARK_FUSION_DEFINE_STRUCT_INLINE(FusionType, SHARK_TRANSFORM_BATCH_ATTRIBUTES_TPL(type,ATTRIBUTES))\
public:\
struct type: public detail::FusionFacade<FusionType>{\
typedef NAME value_type;\
\
SHARK_CREATE_BATCH_REFERENCES_TPL(ATTRIBUTES)\
SHARK_CREATE_BATCH_ITERATORS()\
\
type(){}\
type(std::size_t size1, std::size_t size2){\
resize(size1,size2);\
}\
void resize(std::size_t batchSize, std::size_t elementSize){\
boost::fusion::for_each(fusionize(*this), detail::resize(batchSize,elementSize));\
}\
\
friend void swap(type& op1, type& op2){\
boost::fusion::swap(fusionize(op1),fusionize(op2));\
}\
std::size_t size()const{\
return shark::size(boost::fusion::at_c<0>(fusionize(*this)));\
}\
template<class Archive>\
void serialize(Archive & archive,unsigned int version)\
{\
boost::fusion::for_each(fusionize(*this), detail::ItemSerializer<Archive>(archive));\
}\
};\
typedef NAME value_type;\
typedef typename type::reference reference;\
typedef typename type::const_reference const_reference;\
typedef typename type::iterator iterator;\
typedef typename type::const_iterator const_iterator;\
\
static type createBatch(value_type const& input, std::size_t size = 1){\
type batch;\
boost::fusion::copy(boost::fusion::transform(input,detail::CreateBatch(size)),fusionize(batch));\
return batch;\
}\
template<class Range>\
static type createBatchFromRange(Range const& range){\
std::size_t points = shark::size(range);\
type batch = createBatch(*range.begin(),points);\
typename boost::range_iterator<Range>::type pos = range.begin();\
for(std::size_t i = 0; i != points; ++i,++pos){\
get(batch,i) = *pos;\
}\
return batch;\
}\
static void resize(type& batch, std::size_t batchSize, std::size_t elements){\
batch.resize(batchSize,elements);\
}
///\brief This macro can be used to specialize a structure type easily to a batch type.
///
///Assume, thjat your input Data looks like:
///<code>
///struct DataType{
/// RealVector A;
/// double B;
///};
///</code>
///Than the Batch type should propably look like
///<code>
///struct DataTypeBatch{
/// RealMatrix A;
/// RealVector B;
///};
///</code>
///In this case the macro can be used to generate a complete specialisation of Batch<DataType>
///<code>
///#define DataVars (RealVector, A)(double B)
///
///SHARK_CREATE_BATCH_INTERFACE( DataType,DataVars)
///};
///As any other batch model the result also offers iterators over the range of elements.
///In this case also boost::fusion support is added to the sequence. e.g. it is
///handled similar to any other tuple type (RealMatrix,RealVector). This is useful for MKL or Transfer
///kernels
///</code>
#define SHARK_CREATE_BATCH_INTERFACE_NO_TPL(NAME,ATTRIBUTES)\
private:\
SHARK_FUSION_DEFINE_STRUCT_INLINE(FusionType, SHARK_TRANSFORM_BATCH_ATTRIBUTES(type,ATTRIBUTES))\
public:\
struct type: public detail::FusionFacade<FusionType>{\
typedef NAME value_type;\
\
SHARK_CREATE_BATCH_REFERENCES(ATTRIBUTES)\
SHARK_CREATE_BATCH_ITERATORS()\
\
type(){}\
type(std::size_t size1, std::size_t size2){\
resize(size1,size2);\
}\
void resize(std::size_t batchSize, std::size_t elementSize){\
boost::fusion::for_each(fusionize(*this), detail::resize(batchSize,elementSize));\
}\
\
friend void swap(type& op1, type& op2){\
boost::fusion::swap(fusionize(op1),fusionize(op2));\
}\
std::size_t size()const{\
return shark::size(boost::fusion::at_c<0>(fusionize(*this)));\
}\
template<class Archive>\
void serialize(Archive & archive,unsigned int version)\
{\
boost::fusion::for_each(fusionize(*this), detail::ItemSerializer<Archive>(archive));\
}\
};\
typedef NAME value_type;\
typedef type::reference reference;\
typedef type::const_reference const_reference;\
typedef type::iterator iterator;\
typedef type::const_iterator const_iterator;\
\
static type createBatch(value_type const& input, std::size_t size = 1){\
type batch;\
boost::fusion::copy(boost::fusion::transform(input,detail::CreateBatch(size)),fusionize(batch));\
return batch;\
}\
template<class Range>\
static type createBatchFromRange(Range const& range){\
std::size_t points = shark::size(range);\
type batch = createBatch(*range.begin(),points);\
typename boost::range_iterator<Range>::type pos = range.begin();\
for(std::size_t i = 0; i != points; ++i,++pos){\
get(batch,i) = *pos;\
}\
return batch;\
}\
static void resize(type& batch, std::size_t batchSize, std::size_t elements){\
batch.resize(batchSize,elements);\
}
#endif
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