cnorxz/src/include/container_index.h

// -*- C++ -*-

#ifndef __cxz_container_index_h__
#define __cxz_container_index_h__

#include <cstdlib>
#include <tuple>
#include <memory>

#include "ranges/range_base.h"
#include "ranges/index_base.h"
#include "mbase_def.h"
#include "statics/static_for.h"
#include "ranges/range_helper.h"

namespace CNORXZ
{
    
    template <typename T, class... Indices>
    class ConstContainerIndex : public IndexInterface<ConstContainerIndex<T,Indices...>,
						      std::tuple<typename Indices::MetaType...> >,
				public std::iterator<std::random_access_iterator_tag,T>
    {
    public:

	typedef IndexInterface<ConstContainerIndex<T,Indices...>,
			       std::tuple<typename Indices::MetaType...> > IB;
	typedef std::tuple<typename Indices::MetaType...>  MetaType;
	typedef std::tuple<std::shared_ptr<Indices>...> IndexPack;
	typedef ContainerRange<typename Indices::RangeType...> RangeType;

	static constexpr IndexType sType() { return IndexType::CONT; }
	static constexpr size_t sDim() { return sizeof...(Indices); }
	static constexpr size_t totalDim() { return (... * Indices::totalDim()); }

	static constexpr SpaceType STYPE = SpaceType::ANY;
        static constexpr bool PARALLEL = std::tuple_element<0,std::tuple<Indices...>>::type::PARALLEL;
        
	template <typename X>
	using CIX = ConstContainerIndex<X,Indices...>;
	
	template <typename X>
	friend class CIX;
	
    private:
	
	ConstContainerIndex() = default;
	
	bool mNonTrivialBlocks = false;
	bool mExternControl = false;
	IndexPack mIPack;
	std::array<size_t,sizeof...(Indices)+1> mBlockSizes; 
	const T* mData = nullptr;
	std::intptr_t mObjPtrNum;

    protected:
	size_t mCPos;
	
    public:

	ConstContainerIndex(const ConstContainerIndex& in) = default;	
	ConstContainerIndex& operator=(const ConstContainerIndex& in) = default;

	ConstContainerIndex(const ConstContainerIndex& in, bool copy);
	
	ConstContainerIndex& copy(const ConstContainerIndex& in);
	
	template <typename X>
	ConstContainerIndex& operator=(const ConstContainerIndex<X,Indices...>& in);
	
	template <class MRange>
	ConstContainerIndex(const std::shared_ptr<MRange>& range,
		       std::intptr_t objPtrNum);

	template <class MRange>
	ConstContainerIndex(const std::shared_ptr<MRange>& range,
		       std::intptr_t objPtrNum,
		       const std::array<size_t,sizeof...(Indices)+1>& blockSizes);


	template <size_t N>
	size_t getBlockSize() const { return std::get<N>(mBlockSizes); }

	const IndexPack& pack() const { return mIPack; }
	
	ConstContainerIndex& sync(); // recalculate 'IB::mPos' when externalControl == true
	ConstContainerIndex& operator()(const std::shared_ptr<Indices>&... inds); // control via external indices
        ConstContainerIndex& operator()(const std::tuple<std::shared_ptr<Indices>...>& inds);
	ConstContainerIndex& operator()(); // -> sync; just to shorten the code

	// ==== >>>>> STATIC POLYMORPHISM <<<<< ====
	
	IndexType type() const;
	
	ConstContainerIndex& operator++();
	ConstContainerIndex& operator--();
	
	ConstContainerIndex& operator=(size_t pos);

	int pp(std::intptr_t idxPtrNum);
	int mm(std::intptr_t idxPtrNum);

	std::string stringMeta() const;
	MetaType meta() const;
	ConstContainerIndex& at(const MetaType& metaPos);

	size_t dim() const;
	bool first() const;
	bool last() const;
	bool sliceMode() const;
	
	std::shared_ptr<RangeType> range();
	
	template <size_t N>
	auto& get() const;

	template <size_t N>
	auto getPtr() const;

	size_t getStepSize(size_t n);

	template <class Exprs>
	auto ifor(size_t step, Exprs exs) const;

	template <class Exprs>
	auto iforh(size_t step, Exprs exs) const;

        template <class Exprs>
	auto pifor(size_t step, Exprs exs) const;

	std::intptr_t container() const;
	ConstContainerIndex& format(const std::array<size_t,sizeof...(Indices)+1>& blocks);
	
	// Iterator Stuff
	
	ConstContainerIndex& setData(const T* data);
	
	const T& operator*() const;
	const T* operator->() const;
	//T& operator*();
	//T* operator->();

	ConstContainerIndex operator++(int);
	ConstContainerIndex operator--(int);
	ConstContainerIndex& operator+=(int diff);
	ConstContainerIndex& operator-=(int diff);
	ConstContainerIndex operator+(int num) const;
	ConstContainerIndex operator-(int num) const;

	int operator-(const ConstContainerIndex& it) const;
	const T& operator[](int num) const;

	bool operator<(const ConstContainerIndex& it) const;
	bool operator>(const ConstContainerIndex& it) const;
	bool operator<=(const ConstContainerIndex& it) const;
	bool operator>=(const ConstContainerIndex& it) const;
	
    };
    
    template <typename T, class... Indices>
    class ContainerIndex : public ConstContainerIndex<T,Indices...>
    {
    public:

	typedef ConstContainerIndex<T,Indices...> CCI;
	typedef CCI IB;
	typedef typename CCI::MetaType MetaType;
	typedef typename CCI::IndexPack IndexPack;
	typedef typename CCI::RangeType RangeType;

	static constexpr IndexType sType() { return CCI::sType(); }
	static constexpr size_t sDim() { return CCI::sDim(); }
	static constexpr size_t totalDim() { return CCI::totalDim(); }

	static constexpr SpaceType STYPE = CCI::STYPE;
        static constexpr bool PARALLEL = CCI::PARALLEL;
        
	template <typename X>
	using CIX = ContainerIndex<X,Indices...>;
	
	template <typename X>
	friend class CIX;
	
    private:
	
	ContainerIndex() = default;
	
	T* mMData = nullptr;
	
    public:

	ContainerIndex(const ContainerIndex& in) = default;	
	ContainerIndex& operator=(const ContainerIndex& in) = default;

	ContainerIndex(const ContainerIndex& in, bool copy) : CCI(in,copy)
	{ mMData = in.mMData; }

	ContainerIndex(const ConstContainerIndex<T,Indices...>& in, T* data) : CCI(in)
	{ mMData = data; }

	ContainerIndex(const ConstContainerIndex<T,Indices...>& in, T* data, bool copy) :
	    CCI(in,copy)
	{ mMData = data; }

	ContainerIndex& copy(const ContainerIndex& in)
	{ CCI::copy(in); mMData = in.mMData; }
	
	template <typename X>
	ContainerIndex& operator=(const ContainerIndex<X,Indices...>& in)
	{ CCI::operator=(in); return *this; }
	
	template <class MRange>
	ContainerIndex(const std::shared_ptr<MRange>& range,
		       std::intptr_t objPtrNum) : CCI(range, objPtrNum) {}

	template <class MRange>
	ContainerIndex(const std::shared_ptr<MRange>& range,
		       std::intptr_t objPtrNum,
		       const std::array<size_t,sizeof...(Indices)+1>& blockSizes)
	    : CCI(range, objPtrNum, blockSizes) {}


	template <size_t N>
	size_t getBlockSize() const { return CCI::template getBlockSize<N>(); }

	const IndexPack& pack() const { CCI::pack(); return *this; }
	
	ContainerIndex& sync() { return CCI::sync(); return *this; }
	ContainerIndex& operator()(const std::shared_ptr<Indices>&... inds)
	{ CCI::operator()(inds...); return *this; }
        ContainerIndex& operator()(const std::tuple<std::shared_ptr<Indices>...>& inds)
	{ CCI::operator()(inds); return *this; }
	ContainerIndex& operator()() { CCI::operator()(); return *this; }

	// ==== >>>>> STATIC POLYMORPHISM <<<<< ====
	
	IndexType type() const { return CCI::type(); }
	
	ContainerIndex& operator++() { CCI::operator++(); return *this; }
	ContainerIndex& operator--() { CCI::operator--(); return *this; }
	
	ContainerIndex& operator=(size_t pos) { CCI::operator=(pos); return *this; }

	int pp(std::intptr_t idxPtrNum) { return CCI::pp(idxPtrNum); }
	int mm(std::intptr_t idxPtrNum) { return CCI::mm(idxPtrNum); }

	std::string stringMeta() const { return CCI::stringMeta; }
	MetaType meta() const { return CCI::meta(); }
	ContainerIndex& at(const MetaType& metaPos) { CCI::at(metaPos); return *this; }

	size_t dim() const { return CCI::dim(); }
	bool first() const { return CCI::first(); }
	bool last() const { return CCI::last(); }
	bool sliceMode() const { return CCI::sliceMode(); }
	
	std::shared_ptr<RangeType> range() { return CCI::range(); }
	
	template <size_t N>
	auto& get() const { return CCI::template get<N>(); }

	template <size_t N>
	auto getPtr() const { return CCI::template getPtr<N>(); }

	size_t getStepSize(size_t n) { return getStepSize(n); }

	template <class Exprs>
	auto ifor(size_t step, Exprs exs) const { return CCI::ifor(step, exs); }

	template <class Exprs>
	auto iforh(size_t step, Exprs exs) const { return CCI::iforh(step, exs); }

        template <class Exprs>
	auto pifor(size_t step, Exprs exs) const { return CCI::pifor(step, exs); }

	std::intptr_t container() const { return CCI::container(); }
	ContainerIndex& format(const std::array<size_t,sizeof...(Indices)+1>& blocks)
	{ CCI::format(blocks); return *this; }
	
	// Iterator Stuff
	
	ContainerIndex& setData(T* data) { CCI::setData(data); mMData = data; return *this; }
	
	const T& operator*() const { return CCI::operator*(); }
	const T* operator->() const { return CCI::operator->(); }
	T& operator*() { return mMData[CCI::mCPos]; }
	T* operator->() { return &mMData[CCI::mCPos]; }

	ContainerIndex operator++(int) { auto tmp = *this; ++(*this); return tmp; }
	ContainerIndex operator--(int) { auto tmp = *this; --(*this); return tmp; }
	ContainerIndex& operator+=(int diff) { CCI::operator+=(diff); return *this; }
	ContainerIndex& operator-=(int diff) { CCI::operator-=(diff); return *this; }
	ContainerIndex operator+(int num) const { CCI::operator+(num); return *this; }
	ContainerIndex operator-(int num) const { CCI::operator-(num); return *this; }

	int operator-(const ContainerIndex& it) const { return CCI::operator-(it); }
	const T& operator[](int num) const { return CCI::operator[](num); }

	bool operator<(const ContainerIndex& it) const { return CCI::operator<(it); }
	bool operator>(const ContainerIndex& it) const { return CCI::operator>(it); }
	bool operator<=(const ContainerIndex& it) const { return CCI::operator<=(it); }
	bool operator>=(const ContainerIndex& it) const { return CCI::operator>=(it); }
	
    };

} // end namespace CNORXZ

#endif
container range/index + put NumPack stuff into numpack.h 2017-07-27 14:48:41 +02:00			`// -- C++ --`

rename MultiArray + pre-processor variables 2021-07-28 20:59:31 +02:00			`#ifndef __cxz_container_index_h__`
			`#define __cxz_container_index_h__`
container range/index + put NumPack stuff into numpack.h 2017-07-27 14:48:41 +02:00
			`#include <cstdlib>`
some corrections (still have to fix comile errors) 2017-07-28 14:02:44 +02:00			`#include <tuple>`
			`#include <memory>`

im com (sort code) 2017-12-17 17:40:55 +01:00			`#include "ranges/range_base.h"`
			`#include "ranges/index_base.h"`
ranges/container_range.h -> container_index.h 2021-05-28 20:35:24 +02:00			`#include "mbase_def.h"`
			`#include "statics/static_for.h"`
			`#include "ranges/range_helper.h"`
container range/index + put NumPack stuff into numpack.h 2017-07-27 14:48:41 +02:00
rename namespaces 2021-07-28 20:29:56 +02:00			`namespace CNORXZ`
container range/index + put NumPack stuff into numpack.h 2017-07-27 14:48:41 +02:00			`{`
fix copyInst <-> copy -- bug -> first mdim op test works 2017-08-25 22:03:20 +02:00
put ma iterator stuff completely in ContainerRange (<T> dependence) 2018-02-15 20:06:14 +01:00			`template <typename T, class... Indices>`
ContainerIndex -> ConstContainerIndex 2021-05-28 17:29:13 +02:00			`class ConstContainerIndex : public IndexInterface<ConstContainerIndex<T,Indices...>,`
two container indices (one const) 2021-05-29 00:03:48 +02:00			`std::tuple<typename Indices::MetaType...> >,`
			`public std::iterator<std::random_access_iterator_tag,T>`
fix leak issue 2017-08-04 16:19:50 +02:00			`{`
			`public:`

ContainerIndex -> ConstContainerIndex 2021-05-28 17:29:13 +02:00			`typedef IndexInterface<ConstContainerIndex<T,Indices...>,`
basically finish de-virtualization of indices; TODO: const THIS + 'incomplete type' issue + probably further (NOT COMPILABLE) 2017-12-11 18:49:43 +01:00			`std::tuple<typename Indices::MetaType...> > IB;`
im com 2017-08-11 15:26:10 +02:00			`typedef std::tuple<typename Indices::MetaType...> MetaType;`
fix leak issue 2017-08-04 16:19:50 +02:00			`typedef std::tuple<std::shared_ptr<Indices>...> IndexPack;`
ContainerRange typedef: remove template arg T + remove MultiRange Factory constructor for ContainerRange 2021-05-28 19:48:27 +02:00			`typedef ContainerRange<typename Indices::RangeType...> RangeType;`
fix leak issue 2017-08-04 16:19:50 +02:00
almost remove index_info dependency -> performance lack down to factor 1.15 2018-03-02 16:37:11 +01:00			`static constexpr IndexType sType() { return IndexType::CONT; }`
			`static constexpr size_t sDim() { return sizeof...(Indices); }`
completely remove rpacknum 2021-05-27 23:29:04 +02:00			`static constexpr size_t totalDim() { return (... * Indices::totalDim()); }`
reorganize multi_array(_base) headers + slice header (NOT FINISHED) 2018-02-16 18:17:22 +01:00
range stream parsing works 2018-07-28 15:27:11 +02:00			`static constexpr SpaceType STYPE = SpaceType::ANY;`
enable multi threading 2019-01-15 17:41:43 +01:00			`static constexpr bool PARALLEL = std::tuple_element<0,std::tuple<Indices...>>::type::PARALLEL;`

final at [] + assignment between Container Indices of different data type 2018-10-06 13:14:24 +02:00			`template <typename X>`
ContainerIndex -> ConstContainerIndex 2021-05-28 17:29:13 +02:00			`using CIX = ConstContainerIndex<X,Indices...>;`
final at [] + assignment between Container Indices of different data type 2018-10-06 13:14:24 +02:00
			`template <typename X>`
			`friend class CIX;`
range stream parsing works 2018-07-28 15:27:11 +02:00
basically finish de-virtualization of indices; TODO: const THIS + 'incomplete type' issue + probably further (NOT COMPILABLE) 2017-12-11 18:49:43 +01:00			`private:`
index prototype in each ma instance + simplify op-index initialization procedure 2018-03-02 13:35:50 +01:00
ContainerIndex -> ConstContainerIndex 2021-05-28 17:29:13 +02:00			`ConstContainerIndex() = default;`
index prototype in each ma instance + simplify op-index initialization procedure 2018-03-02 13:35:50 +01:00
reorganize multi_array(_base) headers + slice header (NOT FINISHED) 2018-02-16 18:17:22 +01:00			`bool mNonTrivialBlocks = false;`
fix leak issue 2017-08-04 16:19:50 +02:00			`bool mExternControl = false;`
			`IndexPack mIPack;`
im com while fixing compile errors... not finished... 2017-08-30 19:41:49 +02:00			`std::array<size_t,sizeof...(Indices)+1> mBlockSizes;`
various fixes and adds -> map range test works 2018-08-20 17:50:04 +02:00			`const T* mData = nullptr;`
slice code seems to compile 2018-03-05 00:04:50 +01:00			`std::intptr_t mObjPtrNum;`
two container indices (one const) 2021-05-29 00:03:48 +02:00
			`protected:`
			`size_t mCPos;`
im com while fixing compile errors... not finished... 2017-08-30 19:41:49 +02:00
fix leak issue 2017-08-04 16:19:50 +02:00			`public:`
im com 2017-12-17 14:16:37 +01:00
ContainerIndex -> ConstContainerIndex 2021-05-28 17:29:13 +02:00			`ConstContainerIndex(const ConstContainerIndex& in) = default;`
			`ConstContainerIndex& operator=(const ConstContainerIndex& in) = default;`
final at [] + assignment between Container Indices of different data type 2018-10-06 13:14:24 +02:00
container_index: split header -> .h .cc.h 2021-05-28 21:20:07 +02:00			`ConstContainerIndex(const ConstContainerIndex& in, bool copy);`
prelim fix... (CAUTION) 2018-12-25 17:48:52 +01:00
container_index: split header -> .h .cc.h 2021-05-28 21:20:07 +02:00			`ConstContainerIndex& copy(const ConstContainerIndex& in);`
prelim fix... (CAUTION) 2018-12-25 17:48:52 +01:00
final at [] + assignment between Container Indices of different data type 2018-10-06 13:14:24 +02:00			`template <typename X>`
ContainerIndex -> ConstContainerIndex 2021-05-28 17:29:13 +02:00			`ConstContainerIndex& operator=(const ConstContainerIndex<X,Indices...>& in);`
basically finish de-virtualization of indices; TODO: const THIS + 'incomplete type' issue + probably further (NOT COMPILABLE) 2017-12-11 18:49:43 +01:00
fix leak issue 2017-08-04 16:19:50 +02:00			`template <class MRange>`
ContainerIndex -> ConstContainerIndex 2021-05-28 17:29:13 +02:00			`ConstContainerIndex(const std::shared_ptr<MRange>& range,`
slice code seems to compile 2018-03-05 00:04:50 +01:00			`std::intptr_t objPtrNum);`
reorganize multi_array(_base) headers + slice header (NOT FINISHED) 2018-02-16 18:17:22 +01:00
			`template <class MRange>`
ContainerIndex -> ConstContainerIndex 2021-05-28 17:29:13 +02:00			`ConstContainerIndex(const std::shared_ptr<MRange>& range,`
slice code seems to compile 2018-03-05 00:04:50 +01:00			`std::intptr_t objPtrNum,`
reorganize multi_array(_base) headers + slice header (NOT FINISHED) 2018-02-16 18:17:22 +01:00			`const std::array<size_t,sizeof...(Indices)+1>& blockSizes);`
index prototype in each ma instance + simplify op-index initialization procedure 2018-03-02 13:35:50 +01:00
fixing some of the compile errors 2017-12-12 11:15:39 +01:00
fix slice step size issue 2018-09-16 18:53:28 +02:00			`template <size_t N>`
			`size_t getBlockSize() const { return std::get<N>(mBlockSizes); }`

im com (start xfor) 2018-01-05 13:56:16 +01:00			`const IndexPack& pack() const { return mIPack; }`

ContainerIndex -> ConstContainerIndex 2021-05-28 17:29:13 +02:00			`ConstContainerIndex& sync(); // recalculate 'IB::mPos' when externalControl == true`
			`ConstContainerIndex& operator()(const std::shared_ptr<Indices>&... inds); // control via external indices`
			`ConstContainerIndex& operator()(const std::tuple<std::shared_ptr<Indices>...>& inds);`
			`ConstContainerIndex& operator()(); // -> sync; just to shorten the code`
two tests work again, oputest does not... 2017-12-12 16:16:09 +01:00
basically finish de-virtualization of indices; TODO: const THIS + 'incomplete type' issue + probably further (NOT COMPILABLE) 2017-12-11 18:49:43 +01:00			`// ==== >>>>> STATIC POLYMORPHISM <<<<< ====`

replace VIWB by IndexInfo in blocking routines -> remaining performance lack in get() 2017-12-26 15:13:50 +01:00			`IndexType type() const;`
basically finish de-virtualization of indices; TODO: const THIS + 'incomplete type' issue + probably further (NOT COMPILABLE) 2017-12-11 18:49:43 +01:00
ContainerIndex -> ConstContainerIndex 2021-05-28 17:29:13 +02:00			`ConstContainerIndex& operator++();`
			`ConstContainerIndex& operator--();`
im com (finished block draft) 2017-08-30 17:56:38 +02:00
ContainerIndex -> ConstContainerIndex 2021-05-28 17:29:13 +02:00			`ConstContainerIndex& operator=(size_t pos);`
basically finish de-virtualization of indices; TODO: const THIS + 'incomplete type' issue + probably further (NOT COMPILABLE) 2017-12-11 18:49:43 +01:00
im com 2017-12-17 14:16:37 +01:00			`int pp(std::intptr_t idxPtrNum);`
			`int mm(std::intptr_t idxPtrNum);`
string meta via index 2018-07-22 16:16:24 +02:00
			`std::string stringMeta() const;`
reorganize multi_array(_base) headers + slice header (NOT FINISHED) 2018-02-16 18:17:22 +01:00			`MetaType meta() const;`
ContainerIndex -> ConstContainerIndex 2021-05-28 17:29:13 +02:00			`ConstContainerIndex& at(const MetaType& metaPos);`
basically finish de-virtualization of indices; TODO: const THIS + 'incomplete type' issue + probably further (NOT COMPILABLE) 2017-12-11 18:49:43 +01:00
reorganize multi_array(_base) headers + slice header (NOT FINISHED) 2018-02-16 18:17:22 +01:00			`size_t dim() const;`
			`bool first() const;`
			`bool last() const;`
			`bool sliceMode() const;`

im com 2017-12-17 14:16:37 +01:00			`std::shared_ptr<RangeType> range();`
fix leak issue 2017-08-04 16:19:50 +02:00
some fixes + container range test -> working 2017-08-07 17:11:03 +02:00			`template <size_t N>`
two container indices (one const) 2021-05-29 00:03:48 +02:00			`auto& get() const;`

			`template <size_t N>`
			`auto getPtr() const;`
im com (block type scanning routines...) 2017-08-28 18:28:43 +02:00
im com 2017-12-17 14:16:37 +01:00			`size_t getStepSize(size_t n);`
+ IndexInfo 2017-12-24 18:14:07 +01:00
start fixing compile errors... (NOT FINISHED) 2018-01-13 18:07:52 +01:00			`template <class Exprs>`
continue previous commit 2021-05-06 19:04:26 +02:00			`auto ifor(size_t step, Exprs exs) const;`
compiles, basically works correctly (except for 'for' extensions setting, which is not finished) 2018-01-15 14:56:22 +01:00
			`template <class Exprs>`
continue previous commit 2021-05-06 19:04:26 +02:00			`auto iforh(size_t step, Exprs exs) const;`
compiles, basically works correctly (except for 'for' extensions setting, which is not finished) 2018-01-15 14:56:22 +01:00
enable multi threading 2019-01-15 17:41:43 +01:00			`template <class Exprs>`
continue previous commit 2021-05-06 19:04:26 +02:00			`auto pifor(size_t step, Exprs exs) const;`
enable multi threading 2019-01-15 17:41:43 +01:00
slice code seems to compile 2018-03-05 00:04:50 +01:00			`std::intptr_t container() const;`
ContainerIndex -> ConstContainerIndex 2021-05-28 17:29:13 +02:00			`ConstContainerIndex& format(const std::array<size_t,sizeof...(Indices)+1>& blocks);`
slice code seems to compile 2018-03-05 00:04:50 +01:00
put ma iterator stuff completely in ContainerRange (<T> dependence) 2018-02-15 20:06:14 +01:00			`// Iterator Stuff`

ContainerIndex -> ConstContainerIndex 2021-05-28 17:29:13 +02:00			`ConstContainerIndex& setData(const T* data);`
put ma iterator stuff completely in ContainerRange (<T> dependence) 2018-02-15 20:06:14 +01:00
			`const T& operator*() const;`
			`const T* operator->() const;`
small adjustments 2018-09-08 18:46:04 +02:00			`//T& operator*();`
			`//T* operator->();`
put ma iterator stuff completely in ContainerRange (<T> dependence) 2018-02-15 20:06:14 +01:00
ContainerIndex -> ConstContainerIndex 2021-05-28 17:29:13 +02:00			`ConstContainerIndex operator++(int);`
			`ConstContainerIndex operator--(int);`
			`ConstContainerIndex& operator+=(int diff);`
			`ConstContainerIndex& operator-=(int diff);`
			`ConstContainerIndex operator+(int num) const;`
			`ConstContainerIndex operator-(int num) const;`
put ma iterator stuff completely in ContainerRange (<T> dependence) 2018-02-15 20:06:14 +01:00
ContainerIndex -> ConstContainerIndex 2021-05-28 17:29:13 +02:00			`int operator-(const ConstContainerIndex& it) const;`
put ma iterator stuff completely in ContainerRange (<T> dependence) 2018-02-15 20:06:14 +01:00			`const T& operator[](int num) const;`

ContainerIndex -> ConstContainerIndex 2021-05-28 17:29:13 +02:00			`bool operator<(const ConstContainerIndex& it) const;`
			`bool operator>(const ConstContainerIndex& it) const;`
			`bool operator<=(const ConstContainerIndex& it) const;`
			`bool operator>=(const ConstContainerIndex& it) const;`
put ma iterator stuff completely in ContainerRange (<T> dependence) 2018-02-15 20:06:14 +01:00
fix leak issue 2017-08-04 16:19:50 +02:00			`};`
ContainerRange = MultiRange (NOT FINISHED); TODO: Cast MultiIndex <-> ContainerIndex + Instanciate Prototype of ContainerIndex within each MultiArray(Base)-Instance 2018-03-01 18:16:12 +01:00
two container indices (one const) 2021-05-29 00:03:48 +02:00			`template <typename T, class... Indices>`
			`class ContainerIndex : public ConstContainerIndex<T,Indices...>`
			`{`
			`public:`

			`typedef ConstContainerIndex<T,Indices...> CCI;`
			`typedef CCI IB;`
			`typedef typename CCI::MetaType MetaType;`
			`typedef typename CCI::IndexPack IndexPack;`
			`typedef typename CCI::RangeType RangeType;`

			`static constexpr IndexType sType() { return CCI::sType(); }`
			`static constexpr size_t sDim() { return CCI::sDim(); }`
			`static constexpr size_t totalDim() { return CCI::totalDim(); }`

			`static constexpr SpaceType STYPE = CCI::STYPE;`
			`static constexpr bool PARALLEL = CCI::PARALLEL;`

			`template <typename X>`
			`using CIX = ContainerIndex<X,Indices...>;`

			`template <typename X>`
			`friend class CIX;`

			`private:`

			`ContainerIndex() = default;`

			`T* mMData = nullptr;`

			`public:`

			`ContainerIndex(const ContainerIndex& in) = default;`
			`ContainerIndex& operator=(const ContainerIndex& in) = default;`

			`ContainerIndex(const ContainerIndex& in, bool copy) : CCI(in,copy)`
			`{ mMData = in.mMData; }`

			`ContainerIndex(const ConstContainerIndex<T,Indices...>& in, T* data) : CCI(in)`
			`{ mMData = data; }`

			`ContainerIndex(const ConstContainerIndex<T,Indices...>& in, T* data, bool copy) :`
			`CCI(in,copy)`
			`{ mMData = data; }`

			`ContainerIndex& copy(const ContainerIndex& in)`
			`{ CCI::copy(in); mMData = in.mMData; }`

			`template <typename X>`
			`ContainerIndex& operator=(const ContainerIndex<X,Indices...>& in)`
			`{ CCI::operator=(in); return *this; }`

			`template <class MRange>`
			`ContainerIndex(const std::shared_ptr<MRange>& range,`
			`std::intptr_t objPtrNum) : CCI(range, objPtrNum) {}`

			`template <class MRange>`
			`ContainerIndex(const std::shared_ptr<MRange>& range,`
			`std::intptr_t objPtrNum,`
			`const std::array<size_t,sizeof...(Indices)+1>& blockSizes)`
			`: CCI(range, objPtrNum, blockSizes) {}`


			`template <size_t N>`
			`size_t getBlockSize() const { return CCI::template getBlockSize<N>(); }`

			`const IndexPack& pack() const { CCI::pack(); return *this; }`

			`ContainerIndex& sync() { return CCI::sync(); return *this; }`
			`ContainerIndex& operator()(const std::shared_ptr<Indices>&... inds)`
			`{ CCI::operator()(inds...); return *this; }`
			`ContainerIndex& operator()(const std::tuple<std::shared_ptr<Indices>...>& inds)`
			`{ CCI::operator()(inds); return *this; }`
			`ContainerIndex& operator()() { CCI::operator()(); return *this; }`

			`// ==== >>>>> STATIC POLYMORPHISM <<<<< ====`

			`IndexType type() const { return CCI::type(); }`

			`ContainerIndex& operator++() { CCI::operator++(); return *this; }`
			`ContainerIndex& operator--() { CCI::operator--(); return *this; }`

			`ContainerIndex& operator=(size_t pos) { CCI::operator=(pos); return *this; }`

			`int pp(std::intptr_t idxPtrNum) { return CCI::pp(idxPtrNum); }`
			`int mm(std::intptr_t idxPtrNum) { return CCI::mm(idxPtrNum); }`

			`std::string stringMeta() const { return CCI::stringMeta; }`
			`MetaType meta() const { return CCI::meta(); }`
			`ContainerIndex& at(const MetaType& metaPos) { CCI::at(metaPos); return *this; }`

			`size_t dim() const { return CCI::dim(); }`
			`bool first() const { return CCI::first(); }`
			`bool last() const { return CCI::last(); }`
			`bool sliceMode() const { return CCI::sliceMode(); }`

			`std::shared_ptr<RangeType> range() { return CCI::range(); }`

			`template <size_t N>`
			`auto& get() const { return CCI::template get<N>(); }`

			`template <size_t N>`
			`auto getPtr() const { return CCI::template getPtr<N>(); }`

			`size_t getStepSize(size_t n) { return getStepSize(n); }`

			`template <class Exprs>`
			`auto ifor(size_t step, Exprs exs) const { return CCI::ifor(step, exs); }`

			`template <class Exprs>`
			`auto iforh(size_t step, Exprs exs) const { return CCI::iforh(step, exs); }`

			`template <class Exprs>`
			`auto pifor(size_t step, Exprs exs) const { return CCI::pifor(step, exs); }`

			`std::intptr_t container() const { return CCI::container(); }`
			`ContainerIndex& format(const std::array<size_t,sizeof...(Indices)+1>& blocks)`
			`{ CCI::format(blocks); return *this; }`

			`// Iterator Stuff`

			`ContainerIndex& setData(T* data) { CCI::setData(data); mMData = data; return *this; }`

			`const T& operator() const { return CCI::operator(); }`
			`const T* operator->() const { return CCI::operator->(); }`
			`T& operator*() { return mMData[CCI::mCPos]; }`
			`T* operator->() { return &mMData[CCI::mCPos]; }`

			`ContainerIndex operator++(int) { auto tmp = this; ++(this); return tmp; }`
			`ContainerIndex operator--(int) { auto tmp = this; --(this); return tmp; }`
			`ContainerIndex& operator+=(int diff) { CCI::operator+=(diff); return *this; }`
			`ContainerIndex& operator-=(int diff) { CCI::operator-=(diff); return *this; }`
			`ContainerIndex operator+(int num) const { CCI::operator+(num); return *this; }`
			`ContainerIndex operator-(int num) const { CCI::operator-(num); return *this; }`

			`int operator-(const ContainerIndex& it) const { return CCI::operator-(it); }`
			`const T& operator[](int num) const { return CCI::operator[](num); }`

			`bool operator<(const ContainerIndex& it) const { return CCI::operator<(it); }`
			`bool operator>(const ContainerIndex& it) const { return CCI::operator>(it); }`
			`bool operator<=(const ContainerIndex& it) const { return CCI::operator<=(it); }`
			`bool operator>=(const ContainerIndex& it) const { return CCI::operator>=(it); }`

			`};`

rename namespaces 2021-07-28 20:29:56 +02:00			`} // end namespace CNORXZ`
container range/index + put NumPack stuff into numpack.h 2017-07-27 14:48:41 +02:00
			`#endif`