cnorxz/src/include/functional_multi_array.h


#ifndef __functional_multi_array__
#define __functional_multi_array__

#include "multi_array_base.h"
#include "slice.h"

namespace MultiArrayTools
{

    template <class Index>
    auto indexToSlice(const std::shared_ptr<Index>& i)
	-> Slice<typename Index::MetaType,typename Index::RangeType>;

    
    template <typename T, class Function, class... SRanges>
    class FunctionalMultiArray : public MultiArrayBase<T,SRanges...>
    {
    public:

	typedef ContainerRange<T,SRanges...> CRange;
	typedef MultiArrayBase<T,CRange> MAB;
	//typedef typename MultiArrayBase<T,CRange>::const_iterator const_iterator;
	typedef ContainerIndex<T,typename SRanges::IndexType...> IndexType;
	//typedef typename CRange::IndexType IndexType;

    private:
	mutable T mVal;
	Function mFunc;

    public:
	
	DEFAULT_MEMBERS(FunctionalMultiArray);
	FunctionalMultiArray(const std::shared_ptr<SRanges>&... ranges, const Function& func);
	FunctionalMultiArray(const std::shared_ptr<SRanges>&... ranges);
	
	virtual const T& operator[](const IndexType& i) const override;
	virtual const T& at(const typename CRange::IndexType::MetaType& meta) const override;
	virtual const T* data() const override;
	
	virtual bool isConst() const override;	
	virtual bool isSlice() const override;

	// EVALUTAION CLASS ??!!!!

	auto exec(std::shared_ptr<typename SRanges::IndexType>&... inds) const
	    -> decltype( mkOperation( mFunc, ConstOperationRoot<T,SRanges>( indexToSlice( inds ), inds) ... ) );
	
    };

  
} // namespace MultiArrayTools

/* ========================= *
 * ---   TEMPLATE CODE   --- *
 * ========================= */

namespace MultiArrayTools
{
    
    template <class Index>
    auto indexToSlice(const std::shared_ptr<Index>& i)
	-> Slice<typename Index::MetaType, typename Index::RangeType>
    {
	return Slice<typename Index::MetaType, typename Index::RangeType>( i->range(), i->metaPtr() );
    }


    /****************************
     *   FunctionalMultiArray   *	     
     ****************************/

    /*
    template <typename T, class Range, class Function>
    FunctionalMultiArray<T,Range,Function>::FunctionalMultiArray(const Range& range) :
	MultiArrayBase<T,SRanges...>(range), mFunc() {}
    */
    template <bool FISSTATIC>
    struct Application
    {
	template <typename T, class Function, typename Meta>
	static inline T apply(const Function& f, const Meta& m)
	{
	    return f(m);
	}
    };

    template <>
    struct Application<true>
    {
	template <typename T, class Function, typename Meta>
	static inline T apply(const Function& f, const Meta& m)
	{
	    return Function::apply(m);
	}
    };
	
    template <typename T, class Function, class... SRanges>
    FunctionalMultiArray<T,Function,SRanges...>::FunctionalMultiArray(const std::shared_ptr<SRanges>&... ranges,
								      const Function& func) :
	MultiArrayBase<T,SRanges...>(ranges...), mFunc(func) {}

    template <typename T, class Function, class... SRanges>
    FunctionalMultiArray<T,Function,SRanges...>::FunctionalMultiArray(const std::shared_ptr<SRanges>&... ranges) :
	MultiArrayBase<T,SRanges...>(ranges...) {}

    template <typename T, class Function, class... SRanges>
    const T& FunctionalMultiArray<T,Function,SRanges...>::operator[](const IndexType& i) const
    {
	mVal = Application<Function::FISSTATIC>::template apply<T,Function,typename IndexType::MetaType>(mFunc, i.meta());
	return mVal;
    }

    template <typename T, class Function, class... SRanges>
    const T& FunctionalMultiArray<T,Function,SRanges...>::at(const typename CRange::IndexType::MetaType& meta) const
    {
	mVal = Application<Function::FISSTATIC>::template apply<T,Function,typename IndexType::MetaType>(mFunc,meta);
	return mVal;
    }

    template <typename T, class Function, class... SRanges>
    const T* FunctionalMultiArray<T,Function,SRanges...>::data() const
    {
	return &mVal;
    }
    
    template <typename T, class Function, class... SRanges>
    bool FunctionalMultiArray<T,Function,SRanges...>::isConst() const
    {
	return true;
    }

    template <typename T, class Function, class... SRanges>
    bool FunctionalMultiArray<T,Function,SRanges...>::isSlice() const
    {
	return false;
    }

    template <typename T, class Function, class... SRanges>
    auto FunctionalMultiArray<T,Function,SRanges...>::
    exec(std::shared_ptr<typename SRanges::IndexType>&... inds) const
	-> decltype( mkOperation( mFunc, ConstOperationRoot<T,SRanges>( indexToSlice( inds ), inds) ... ) )
    {
 	return mkOperation( mFunc, ConstOperationRoot<T,SRanges>( indexToSlice( inds ), inds ) ... );
    }

    
} // namespace MultiArrayTools

#endif
reorganize multi_array(_base) headers + slice header (NOT FINISHED) 2018-02-16 18:17:22 +01:00
			`#ifndef __functional_multi_array__`
			`#define __functional_multi_array__`

			`#include "multi_array_base.h"`
operation creation for functional multi_arrays 2018-03-21 16:11:05 +01:00			`#include "slice.h"`
reorganize multi_array(_base) headers + slice header (NOT FINISHED) 2018-02-16 18:17:22 +01:00
			`namespace MultiArrayTools`
			`{`
functional multi array test; there are some remaining issues (maybe conceptional)... 2018-03-21 19:18:57 +01:00
			`template <class Index>`
			`auto indexToSlice(const std::shared_ptr<Index>& i)`
			`-> Slice<typename Index::MetaType,typename Index::RangeType>;`

reorganize multi_array(_base) headers + slice header (NOT FINISHED) 2018-02-16 18:17:22 +01:00
			`template <typename T, class Function, class... SRanges>`
			`class FunctionalMultiArray : public MultiArrayBase<T,SRanges...>`
			`{`
			`public:`

			`typedef ContainerRange<T,SRanges...> CRange;`
			`typedef MultiArrayBase<T,CRange> MAB;`
functional multi array test; there are some remaining issues (maybe conceptional)... 2018-03-21 19:18:57 +01:00			`//typedef typename MultiArrayBase<T,CRange>::const_iterator const_iterator;`
			`typedef ContainerIndex<T,typename SRanges::IndexType...> IndexType;`
			`//typedef typename CRange::IndexType IndexType;`
operation creation for functional multi_arrays 2018-03-21 16:11:05 +01:00
			`private:`
			`mutable T mVal;`
			`Function mFunc;`

			`public:`
reorganize multi_array(_base) headers + slice header (NOT FINISHED) 2018-02-16 18:17:22 +01:00
			`DEFAULT_MEMBERS(FunctionalMultiArray);`
			`FunctionalMultiArray(const std::shared_ptr<SRanges>&... ranges, const Function& func);`
functional multi array test; there are some remaining issues (maybe conceptional)... 2018-03-21 19:18:57 +01:00			`FunctionalMultiArray(const std::shared_ptr<SRanges>&... ranges);`

reorganize multi_array(_base) headers + slice header (NOT FINISHED) 2018-02-16 18:17:22 +01:00			`virtual const T& operator[](const IndexType& i) const override;`
compiles, but test fails 2018-03-21 20:00:32 +01:00			`virtual const T& at(const typename CRange::IndexType::MetaType& meta) const override;`
			`virtual const T* data() const override;`
functional multi array test; there are some remaining issues (maybe conceptional)... 2018-03-21 19:18:57 +01:00
reorganize multi_array(_base) headers + slice header (NOT FINISHED) 2018-02-16 18:17:22 +01:00			`virtual bool isConst() const override;`
			`virtual bool isSlice() const override;`

functional multi array... need general functional ma transform 2018-03-17 20:25:16 +01:00			`// EVALUTAION CLASS ??!!!!`
operation creation for functional multi_arrays 2018-03-21 16:11:05 +01:00
compiles, but test fails 2018-03-21 20:00:32 +01:00			`auto exec(std::shared_ptr<typename SRanges::IndexType>&... inds) const`
			`-> decltype( mkOperation( mFunc, ConstOperationRoot<T,SRanges>( indexToSlice( inds ), inds) ... ) );`
functional multi array... need general functional ma transform 2018-03-17 20:25:16 +01:00
reorganize multi_array(_base) headers + slice header (NOT FINISHED) 2018-02-16 18:17:22 +01:00			`};`

functional multi array test; there are some remaining issues (maybe conceptional)... 2018-03-21 19:18:57 +01:00
reorganize multi_array(_base) headers + slice header (NOT FINISHED) 2018-02-16 18:17:22 +01:00			`} // namespace MultiArrayTools`

			`/* ========================= *`
			`* --- TEMPLATE CODE --- *`
			`* ========================= */`

			`namespace MultiArrayTools`
			`{`
functional multi array test; there are some remaining issues (maybe conceptional)... 2018-03-21 19:18:57 +01:00
			`template <class Index>`
			`auto indexToSlice(const std::shared_ptr<Index>& i)`
			`-> Slice<typename Index::MetaType, typename Index::RangeType>`
			`{`
			`return Slice<typename Index::MetaType, typename Index::RangeType>( i->range(), i->metaPtr() );`
			`}`

reorganize multi_array(_base) headers + slice header (NOT FINISHED) 2018-02-16 18:17:22 +01:00
			`/****************************`
			`* FunctionalMultiArray *`
			`****************************/`

			`/*`
			`template <typename T, class Range, class Function>`
			`FunctionalMultiArray<T,Range,Function>::FunctionalMultiArray(const Range& range) :`
			`MultiArrayBase<T,SRanges...>(range), mFunc() {}`
			`*/`
functional multi array test; there are some remaining issues (maybe conceptional)... 2018-03-21 19:18:57 +01:00			`template <bool FISSTATIC>`
			`struct Application`
			`{`
compiles, but test fails 2018-03-21 20:00:32 +01:00			`template <typename T, class Function, typename Meta>`
			`static inline T apply(const Function& f, const Meta& m)`
functional multi array test; there are some remaining issues (maybe conceptional)... 2018-03-21 19:18:57 +01:00			`{`
compiles, but test fails 2018-03-21 20:00:32 +01:00			`return f(m);`
functional multi array test; there are some remaining issues (maybe conceptional)... 2018-03-21 19:18:57 +01:00			`}`
			`};`

			`template <>`
			`struct Application<true>`
			`{`
compiles, but test fails 2018-03-21 20:00:32 +01:00			`template <typename T, class Function, typename Meta>`
			`static inline T apply(const Function& f, const Meta& m)`
functional multi array test; there are some remaining issues (maybe conceptional)... 2018-03-21 19:18:57 +01:00			`{`
compiles, but test fails 2018-03-21 20:00:32 +01:00			`return Function::apply(m);`
functional multi array test; there are some remaining issues (maybe conceptional)... 2018-03-21 19:18:57 +01:00			`}`
			`};`

reorganize multi_array(_base) headers + slice header (NOT FINISHED) 2018-02-16 18:17:22 +01:00			`template <typename T, class Function, class... SRanges>`
			`FunctionalMultiArray<T,Function,SRanges...>::FunctionalMultiArray(const std::shared_ptr<SRanges>&... ranges,`
functional multi array test; there are some remaining issues (maybe conceptional)... 2018-03-21 19:18:57 +01:00			`const Function& func) :`
reorganize multi_array(_base) headers + slice header (NOT FINISHED) 2018-02-16 18:17:22 +01:00			`MultiArrayBase<T,SRanges...>(ranges...), mFunc(func) {}`

			`template <typename T, class Function, class... SRanges>`
functional multi array test; there are some remaining issues (maybe conceptional)... 2018-03-21 19:18:57 +01:00			`FunctionalMultiArray<T,Function,SRanges...>::FunctionalMultiArray(const std::shared_ptr<SRanges>&... ranges) :`
			`MultiArrayBase<T,SRanges...>(ranges...) {}`

			`template <typename T, class Function, class... SRanges>`
			`const T& FunctionalMultiArray<T,Function,SRanges...>::operator[](const IndexType& i) const`
reorganize multi_array(_base) headers + slice header (NOT FINISHED) 2018-02-16 18:17:22 +01:00			`{`
compiles, but test fails 2018-03-21 20:00:32 +01:00			`mVal = Application<Function::FISSTATIC>::template apply<T,Function,typename IndexType::MetaType>(mFunc, i.meta());`
reorganize multi_array(_base) headers + slice header (NOT FINISHED) 2018-02-16 18:17:22 +01:00			`return mVal;`
			`}`

compiles, but test fails 2018-03-21 20:00:32 +01:00			`template <typename T, class Function, class... SRanges>`
			`const T& FunctionalMultiArray<T,Function,SRanges...>::at(const typename CRange::IndexType::MetaType& meta) const`
			`{`
			`mVal = Application<Function::FISSTATIC>::template apply<T,Function,typename IndexType::MetaType>(mFunc,meta);`
			`return mVal;`
			`}`

			`template <typename T, class Function, class... SRanges>`
			`const T* FunctionalMultiArray<T,Function,SRanges...>::data() const`
			`{`
			`return &mVal;`
			`}`

reorganize multi_array(_base) headers + slice header (NOT FINISHED) 2018-02-16 18:17:22 +01:00			`template <typename T, class Function, class... SRanges>`
			`bool FunctionalMultiArray<T,Function,SRanges...>::isConst() const`
			`{`
			`return true;`
			`}`

			`template <typename T, class Function, class... SRanges>`
			`bool FunctionalMultiArray<T,Function,SRanges...>::isSlice() const`
			`{`
			`return false;`
			`}`

operation creation for functional multi_arrays 2018-03-21 16:11:05 +01:00			`template <typename T, class Function, class... SRanges>`
			`auto FunctionalMultiArray<T,Function,SRanges...>::`
compiles, but test fails 2018-03-21 20:00:32 +01:00			`exec(std::shared_ptr<typename SRanges::IndexType>&... inds) const`
functional multi array test; there are some remaining issues (maybe conceptional)... 2018-03-21 19:18:57 +01:00			`-> decltype( mkOperation( mFunc, ConstOperationRoot<T,SRanges>( indexToSlice( inds ), inds) ... ) )`
operation creation for functional multi_arrays 2018-03-21 16:11:05 +01:00			`{`
functional multi array test; there are some remaining issues (maybe conceptional)... 2018-03-21 19:18:57 +01:00			`return mkOperation( mFunc, ConstOperationRoot<T,SRanges>( indexToSlice( inds ), inds ) ... );`
operation creation for functional multi_arrays 2018-03-21 16:11:05 +01:00			`}`


reorganize multi_array(_base) headers + slice header (NOT FINISHED) 2018-02-16 18:17:22 +01:00			`} // namespace MultiArrayTools`

			`#endif`