start refactoring mrange + index interface offset (not finished)

This commit is contained in:
Christian Zimmermann 2022-09-18 18:53:38 +02:00
parent 59267fb040
commit a880d1e0db
3 changed files with 299 additions and 591 deletions

View file

@ -45,7 +45,10 @@ namespace CNORXZ
SizeT dim() const { return THIS().dim(); }
auto range() const { return THIS().range(); }
// TODO: getStepSize(PtrId iptr) !!!!
SizeT getStepSize(SizeT n) const { return THIS().getStepSize(n); }
Int getOffset(PtrId iptr) const
{ if(mRel) if(iptr == mRel->ptrId()) return mPos - mRel.pos(); return 0; }
String stringMeta() const { return THIS().stringMeta(); }
auto meta() const { return THIS().meta(); }
@ -74,6 +77,7 @@ namespace CNORXZ
IndexInterface(SizeT pos);
PtrId mPtrId = 0;
IndexPtr<I,MetaType> mRel;
};
template <class I, typename MetaType>

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@ -0,0 +1,241 @@
#ifndef __cxz_mrange_cc_h__
#define __cxz_mrange_cc_h__
#include "mrange.h"
#include "range_helper.h"
#include "statics/static_for.h"
namespace CNORXZ
{
/**************
* MIndex *
**************/
template <class... Indices>
template <class MRange>
MIndex<Indices...>::MIndex(const Sptr<MRange>& range) :
IndexInterface<MIndex<Indices...>,Tuple<typename Indices::MetaType...> >(0)
{
std::get<sizeof...(Indices)>(mBlockSizes) = 1;
sfor_mn<sizeof...(Indices),0>
( [&](auto i) {
auto r = range->template getPtr<i>();
std::get<i>(mIPack) = r->beginPtr();
*std::get<i>(mIPack) = 0;
std::get<i>(mBlockSizes) = sfor_p<i,sizeof...(Indices)>
( [&](auto j) { return std::get<j>(mIPack)->max(); } ,
[&](auto a, auto b) { return a * b; });
return 0;
});
IB::mPos = sfor_m<sizeof...(Indices),0>
( [&](auto i) { return std::get<i>(mIPack); },
[&](auto a, auto b) {return a->pos() + b*a->max();}, 0 );
}
template <class... Indices>
MIndex<Indices...>& MIndex<Indices...>::operator()(Sptr<Indices>&... indices)
{
return (*this)(std::make_tuple(indices...));
}
template <class... Indices>
MIndex<Indices...>& MIndex<Indices...>::operator()(const Tuple<Sptr<Indices>...>& indices)
{
sfor_pn<0,sizeof...(Indices)>
( [&](auto i) { std::get<i>(mIPack) = std::get<i>(indices); return 0; } );
RangeHelper::setIndexPack<sizeof...(Indices)-1>(mIPack, IB::mPos);
return *this;
}
template <class... Indices>
MIndex<Indices...>& MIndex<Indices...>::operator=(SizeT pos)
{
IB::mPos = pos;
RangeHelper::setIndexPack<sizeof...(Indices)-1>(mIPack, pos);
return *this;
}
template <class... Indices>
MIndex<Indices...>& MIndex<Indices...>::operator++()
{
sfor_m<sizeof...(Indices),0>
( [&](auto i) {
auto& si = *std::get<i>( mIPack );
if(si.last() and i != 0) { si = 0; return true; }
else { ++si; return false; }
return false;
} );
++IB::mPos;
return *this;
}
template <class... Indices>
MIndex<Indices...>& MIndex<Indices...>::operator--()
{
sfor_m<sizeof...(Indices),0>
( [&](auto i) {
auto& si = *std::get<i>( mIPack );
if(si.first() and i != 0) { si = si.max()-1; return true; }
else { --si; return false; }
return false;
} );
--IB::mPos;
return *this;
}
template <class... Indices>
int MIndex<Indices...>::pp(PtrId idxPtrNum)
{
const int tmp = RangeHelper::ppx<sizeof...(Indices)-1>(mIPack, mBlockSizes, idxPtrNum);
IB::mPos += tmp;
return tmp;
}
template <class... Indices>
int MIndex<Indices...>::mm(PtrId idxPtrNum)
{
const int tmp = RangeHelper::mmx<sizeof...(Indices)-1>(mIPack, mBlockSizes, idxPtrNum);
IB::mPos -= tmp;
return tmp;
}
template <class... Indices>
String MIndex<Indices...>::stringMeta() const
{
return std::dynamic_pointer_cast<RangeType>( IB::mRangePtr )->stringMeta(IB::mPos);
}
template <class... Indices>
typename MIndex<Indices...>::MetaType MIndex<Indices...>::meta() const
{
MetaType metaTuple;
sfor_pn<0,sizeof...(Indices)>
( [&](auto i) { std::get<i>(metaTuple) = std::get<i>(mIPack)->meta(); return 0; } );
return metaTuple;
}
template <class... Indices>
MIndex<Indices...>& MIndex<Indices...>::at(const MetaType& metaPos)
{
sfor_pn<0,sizeof...(Indices)>
( [&](auto i) { std::get<i>(mIPack)->at( std::get<i>(metaPos) ); return 0; } );
IB::mPos = sfor_m<sizeof...(Indices),0>
( [&](auto i) { return std::get<i>(mIPack); },
[&](auto a, auto b) {return a->pos() + b*a->max();}, 0 );
return *this;
}
template <class... Indices>
SizeT MIndex<Indices...>::dim()
{
return sizeof...(Indices);
}
template <class... Indices>
Sptr<typename MIndex<Indices...>::RangeType>
MIndex<Indices...>::range()
{
return std::dynamic_pointer_cast<RangeType>( mRangePtr );
}
template <class... Indices>
SizeT MIndex<Indices...>::getStepSize(SizeT n)
{
if(n >= sizeof...(Indices)){
assert(0);
// throw !!
}
return mBlockSizes[n+1];
}
/*
template <class... Indices>
template <class Exprs>
auto MIndex<Indices...>::ifor(SizeT step, Exprs exs) const
{
return RangeHelper::mkFor<0>(step, mIPack, mBlockSizes, exs);
}
template <class... Indices>
template <class Exprs>
auto MIndex<Indices...>::iforh(SizeT step, Exprs exs) const
{
return RangeHelper::mkForh<0>(step, mIPack, mBlockSizes, exs);
}
template <class... Indices>
template <class Exprs>
auto MIndex<Indices...>::pifor(SizeT step, Exprs exs) const
{
return RangeHelper::mkPFor<0>(step, mIPack, mBlockSizes, exs);
}
*/
/*********************
* MRangeFactory *
*********************/
template <class... Ranges>
MRangeFactory<Ranges...>::MRangeFactory(const Sptr<Ranges>&... rs)
{
mProd = Sptr< MRange<Ranges...> >( new MRange<Ranges...>( rs... ) );
}
template <class... Ranges>
MRangeFactory<Ranges...>::MRangeFactory(const typename MRange<Ranges...>::Space& st)
{
mProd = Sptr< MRange<Ranges...> >( new MRange<Ranges...>( st ) );
}
template <class... Ranges>
Sptr<RangeBase> MRangeFactory<Ranges...>::create()
{
mProd = checkIfCreated( std::dynamic_pointer_cast<oType>( mProd )->mSpace );
setSelf();
return mProd;
}
/******************
* MRange *
******************/
template <class... Ranges>
MRange<Ranges...>::MRange(const Sptr<Ranges>&... rs) : mSpace(std::make_tuple(rs...)) {}
template <class... Ranges>
MRange<Ranges...>::MRange(const Space& space) : mSpace( space ) {}
template <class... Ranges>
SizeT MRange<Ranges...>::getMeta(const MetaType& metaPos) const
{
return RangeHelper::getMeta<sizeof...(Ranges)-1>(mSpace,metaPos);
}
template <class... Ranges>
SizeT MRange<Ranges...>::dim() const
{
return sdim;
}
template <class... Ranges>
SizeT MRange<Ranges...>::size() const
{
return sfor_p<0,sizeof...(Ranges)>
( [&](auto i) { return std::get<i>(mSpace)->size(); },
[&](auto a, auto b) { return a * b; } );
}
template <class... Ranges>
String MRange<Ranges...>::stringMeta(SizeT pos) const
{
auto i = begin();
i = pos;
return "[" + RangeHelper::getStringMeta<0>(i) + "]";
}
}
#endif

View file

@ -1,106 +1,66 @@
// -*- C++ -*-
#ifndef __cxz_multi_range_h__
#define __cxz_multi_range_h__
#ifndef __cxz_mrange_h__
#define __cxz_mrange_h__
#include "base/base.h"
#include <map>
#include "range_base.h"
#include "index_base.h"
#include "range_helper.h"
//#include "multi_range_factory_product_map.h"
#include "statics/static_for.h"
namespace CNORXZ
{
template <class... Indices>
class MultiIndex : public IndexInterface<MultiIndex<Indices...>,
class MIndex : public IndexInterface<MIndex<Indices...>,
Tuple<typename Indices::MetaType...> >
{
public:
typedef IndexInterface<MultiIndex<Indices...>,
typedef IndexInterface<MIndex<Indices...>,
Tuple<typename Indices::MetaType...> > IB;
typedef Tuple<Sptr<Indices>...> IndexPack;
typedef Tuple<typename Indices::MetaType...> MetaType;
typedef MultiRange<typename Indices::RangeType...> RangeType;
typedef MultiIndex IType;
static constexpr IndexType sType() { return IndexType::MULTI; }
static constexpr SizeT sDim() { return sizeof...(Indices); }
static constexpr SizeT totalDim() { return (... * Indices::totalDim()); }
static constexpr SpaceType STYPE = SpaceType::ANY;
static constexpr bool PARALLEL = TupleElem<0,Tuple<Indices...>>::type::PARALLEL;
private:
IndexPack mIPack;
Arr<SizeT,sizeof...(Indices)+1> mBlockSizes;
MultiIndex() = default;
public:
const IndexPack& pack() const { return mIPack; }
typedef MRange<typename Indices::RangeType...> RangeType;
// NO DEFAULT HERE !!!
// ( have to assign sub-indices (ptr!) correctly )
MIndex(const MIndex& i);
MIndex(MIndex&& i);
MIndex& operator=(const MIndex& i);
MIndex& operator=(MIndex&& i);
template <class MRange>
MultiIndex(const Sptr<MRange>& range);
MIndex(const RangePtr& range, SizeT pos = 0);
template <SizeT DIR>
MultiIndex& up();
// replace sub-index instances; only use if you know what you are doing!
MIndex& operator()(Sptr<Indices>&... indices);
MIndex& operator()(const MIndex& indices);
template <SizeT DIR>
MultiIndex& down();
const IndexPack& pack() const { return mIPack; }
const auto& getBlockSizes() const { return mBlockSizes; }
template <SizeT N>
auto get() const -> decltype( *std::get<N>( mIPack ) )&;
MIndex& operator=(SizeT pos);
MIndex& operator++();
MIndex& operator--();
MIndex operator+(Int n) const;
MIndex operator-(Int n) const;
MIndex& operator+=(Int n);
MIndex& operator-=(Int n);
template <SizeT N>
auto getPtr() const -> decltype( std::get<N>( mIPack ) )&;
template <SizeT N>
SizeT getBlockSize() const { return std::get<N>(mBlockSizes); }
// raplace instances (in contrast to its analogon in ConstContainerIndex
// MultiIndices CANNOT be influences be its subindices, so there is
// NO foreign/external controll)
// Do NOT share index instances between two or more MultiIndex instances
MultiIndex& operator()(Sptr<Indices>&... indices);
MultiIndex& operator()(const Tuple<Sptr<Indices>...>& indices);
// ==== >>>>> STATIC POLYMORPHISM <<<<< ====
IndexType type() const;
MultiIndex& operator=(SizeT pos);
MultiIndex& operator++();
MultiIndex& operator--();
SizeT operator*() const;
SizeT operator->() const;
int pp(PtrId idxPtrNum);
int mm(PtrId idxPtrNum);
std::string stringMeta() const;
MetaType meta() const;
MultiIndex& at(const MetaType& metaPos);
SizeT dim();
bool first();
bool last();
Sptr<RangeType> range();
template <SizeT N>
auto getPtr() -> decltype( std::get<N>( mIPack ) )&;
SizeT getStepSize(SizeT n);
String stringMeta() const;
MetaType meta() const;
MIndex& at(const MetaType& metaPos);
/*
template <class Exprs>
auto ifor(SizeT step, Exprs exs) const;
@ -109,559 +69,62 @@ namespace CNORXZ
template <class Exprs>
auto pifor(SizeT step, Exprs exs) const;
*/
private:
MIndex() = default;
IndexPack mIPack;
Arr<SizeT,sizeof...(Indices)+1> mBlockSizes;
Sptr<RangeType> mRange;
};
/*************************
* MultiRangeFactory *
*************************/
// NOT THREAD SAVE
template <class... Ranges>
class MultiRangeFactory : public RangeFactoryBase
class MRangeFactory : public RangeFactoryBase
{
public:
typedef MultiRange<Ranges...> oType;
MultiRangeFactory() = delete;
MultiRangeFactory(const Sptr<Ranges>&... rs);
MultiRangeFactory(const typename MultiRange<Ranges...>::Space& space);
virtual Sptr<RangeBase> create() override;
MRangeFactory() = delete;
MRangeFactory(const Sptr<Ranges>&... rs);
MRangeFactory(const Tuple<Sptr<Ranges>...>& rs);
private:
virtual void make() override final;
Sptr<RangeBase> checkIfCreated(const Tuple<Sptr<Ranges>...>& ptp);
Tuple<Sptr<Ranges>...> mRs;
};
/******************
* MultiRange *
******************/
template <class... Ranges>
class MultiRange : public RangeInterface<MultiIndex<typename Ranges::IndexType...> >
class MRange : public RangeInterface<MIndex<typename Ranges::IndexType...> >
{
public:
typedef RangeBase RB;
typedef Tuple<Sptr<Ranges>...> Space;
typedef MultiIndex<typename Ranges::IndexType...> IndexType;
typedef MIndex<typename Ranges::IndexType...> IndexType;
typedef Tuple<typename Ranges::IndexType::MetaType...> MetaType;
typedef MultiRange RangeType;
typedef MultiRangeFactory<Ranges...> FType;
protected:
MultiRange() = delete;
MultiRange(const MultiRange& in) = delete;
MultiRange& operator=(const MultiRange& in) = delete;
MultiRange(const Sptr<Ranges>&... rs);
MultiRange(const Space& space);
Space mSpace;
public:
static const SizeT sdim = sizeof...(Ranges);
template <SizeT N>
auto get() const -> decltype( *std::get<N>( mSpace ) )&;
const Space& space() const;
SizeT getMeta(const MetaType& metaPos) const;
template <SizeT N>
auto getPtr() const -> decltype( std::get<N>( mSpace ) )&;
virtual Sptr<RangeBase> sub(SizeT num) const override;
virtual SizeT dim() const final;
virtual SizeT size() const final;
virtual SpaceType spaceType() const final;
virtual DataHeader dataHeader() const final;
virtual String stringMeta(SizeT pos) const final;
virtual Vector<SizeT> typeNum() const final;
virtual SizeT cmeta(char* target, SizeT pos) const final;
virtual SizeT cmetaSize() const final;
virtual std::string stringMeta(SizeT pos) const final;
virtual Vector<char> data() const final;
friend MRangeFactory<Ranges...>;
const Space& space() const;
protected:
MRange() = delete;
MRange(const MRange& in) = delete;
MRange& operator=(const MRange& in) = delete;
virtual IndexType begin() const final;
virtual IndexType end() const final;
Tuple<Sptr<Ranges>...> mRs;
template <class... ERanges>
auto cat(const Sptr<MultiRange<ERanges...> >& erange)
-> Sptr<MultiRange<Ranges...,ERanges...> >;
friend MultiRangeFactory<Ranges...>;
static constexpr bool HASMETACONT = false;
static constexpr bool defaultable = false;
static constexpr SizeT ISSTATIC = (... & Ranges::ISSTATIC);
static constexpr SizeT SIZE = (... * Ranges::SIZE);
};
}
/* ========================= *
* --- TEMPLATE CODE --- *
* ========================= */
namespace CNORXZ
{
namespace
{
using namespace CNORXZInternal;
}
// -> define in range_base.cc
Sptr<RangeFactoryBase> mkMULTI(const char** dp);
/******************
* MultiIndex *
******************/
template <class... Indices>
template <class MRange>
MultiIndex<Indices...>::MultiIndex(const Sptr<MRange>& range) :
IndexInterface<MultiIndex<Indices...>,Tuple<typename Indices::MetaType...> >(range, 0)
{
std::get<sizeof...(Indices)>(mBlockSizes) = 1;
sfor_mn<sizeof...(Indices),0>
( [&](auto i) {
auto r = range->template getPtr<i>();
std::get<i>(mIPack) = r->beginPtr();
*std::get<i>(mIPack) = 0;
std::get<i>(mBlockSizes) = sfor_p<i,sizeof...(Indices)>
( [&](auto j) { return std::get<j>(mIPack)->max(); } ,
[&](auto a, auto b) { return a * b; });
return 0;
});
IB::mPos = sfor_m<sizeof...(Indices),0>
( [&](auto i) { return std::get<i>(mIPack); },
[&](auto a, auto b) {return a->pos() + b*a->max();}, 0 );
}
template <class... Indices>
template <SizeT DIR>
MultiIndex<Indices...>& MultiIndex<Indices...>::up()
{
static_assert(DIR < sizeof...(Indices), "DIR exceeds number of sub-indices");
IB::mPos += sfor_p<DIR,sizeof...(Indices)>
( [&](auto i) { return std::get<i>(mIPack)->max(); },
[&](auto a, auto b) { return a * b; } );
sfor_m<DIR+1,0>
( [&](auto i) {
auto& si = *std::get<i>( mIPack );
if(si.last() and i != 0) { si = 0; return true; }
else { ++si; return false; }
return false;
} );
return *this;
}
template <class... Indices>
template <SizeT DIR>
MultiIndex<Indices...>& MultiIndex<Indices...>::down()
{
static_assert(DIR < sizeof...(Indices), "DIR exceeds number of sub-indices");
IB::mPos -= sfor_p<DIR,sizeof...(Indices)>
( [&](auto i) { return std::get<i>(mIPack)->max(); },
[&](auto a, auto b) { return a * b; } );
sfor_m<DIR+1,0>
( [&](auto i) {
auto& si = *std::get<i>( mIPack );
if(si.first() and i != 0) { si = si.max()-1; return true; }
else { --si; return false; }
return false;
} );
return *this;
}
template <class... Indices>
template <SizeT N>
auto MultiIndex<Indices...>::get() const -> decltype( *std::get<N>( mIPack ) )&
{
return *std::get<N>(mIPack);
}
template <class... Indices>
template <SizeT N>
auto MultiIndex<Indices...>::getPtr() const -> decltype( std::get<N>( mIPack ) )&
{
return std::get<N>(mIPack);
}
template <class... Indices>
MultiIndex<Indices...>& MultiIndex<Indices...>::operator()(Sptr<Indices>&... indices)
{
return (*this)(std::make_tuple(indices...));
}
template <class... Indices>
MultiIndex<Indices...>& MultiIndex<Indices...>::operator()(const Tuple<Sptr<Indices>...>& indices)
{
sfor_pn<0,sizeof...(Indices)>
( [&](auto i) { std::get<i>(mIPack) = std::get<i>(indices); return 0; } );
RangeHelper::setIndexPack<sizeof...(Indices)-1>(mIPack, IB::mPos);
return *this;
}
template <class... Indices>
IndexType MultiIndex<Indices...>::type() const
{
return IndexType::MULTI;
}
template <class... Indices>
MultiIndex<Indices...>& MultiIndex<Indices...>::operator=(SizeT pos)
{
IB::mPos = pos;
RangeHelper::setIndexPack<sizeof...(Indices)-1>(mIPack, pos);
return *this;
}
template <class... Indices>
MultiIndex<Indices...>& MultiIndex<Indices...>::operator++()
{
sfor_m<sizeof...(Indices),0>
( [&](auto i) {
auto& si = *std::get<i>( mIPack );
if(si.last() and i != 0) { si = 0; return true; }
else { ++si; return false; }
return false;
} );
++IB::mPos;
return *this;
}
template <class... Indices>
MultiIndex<Indices...>& MultiIndex<Indices...>::operator--()
{
sfor_m<sizeof...(Indices),0>
( [&](auto i) {
auto& si = *std::get<i>( mIPack );
if(si.first() and i != 0) { si = si.max()-1; return true; }
else { --si; return false; }
return false;
} );
--IB::mPos;
return *this;
}
template <class... Indices>
int MultiIndex<Indices...>::pp(PtrId idxPtrNum)
{
const int tmp = RangeHelper::ppx<sizeof...(Indices)-1>(mIPack, mBlockSizes, idxPtrNum);
IB::mPos += tmp;
return tmp;
}
template <class... Indices>
int MultiIndex<Indices...>::mm(PtrId idxPtrNum)
{
const int tmp = RangeHelper::mmx<sizeof...(Indices)-1>(mIPack, mBlockSizes, idxPtrNum);
IB::mPos -= tmp;
return tmp;
}
template <class... Indices>
std::string MultiIndex<Indices...>::stringMeta() const
{
return std::dynamic_pointer_cast<RangeType>( IB::mRangePtr )->stringMeta(IB::mPos);
}
template <class... Indices>
typename MultiIndex<Indices...>::MetaType MultiIndex<Indices...>::meta() const
{
MetaType metaTuple;
sfor_pn<0,sizeof...(Indices)>
( [&](auto i) { std::get<i>(metaTuple) = std::get<i>(mIPack)->meta(); return 0; } );
return metaTuple;
}
template <class... Indices>
MultiIndex<Indices...>& MultiIndex<Indices...>::at(const MetaType& metaPos)
{
sfor_pn<0,sizeof...(Indices)>
( [&](auto i) { std::get<i>(mIPack)->at( std::get<i>(metaPos) ); return 0; } );
IB::mPos = sfor_m<sizeof...(Indices),0>
( [&](auto i) { return std::get<i>(mIPack); },
[&](auto a, auto b) {return a->pos() + b*a->max();}, 0 );
return *this;
}
template <class... Indices>
SizeT MultiIndex<Indices...>::dim()
{
return sizeof...(Indices);
}
template <class... Indices>
bool MultiIndex<Indices...>::first()
{
return IB::mPos == 0;
}
template <class... Indices>
bool MultiIndex<Indices...>::last()
{
return IB::mPos == IB::mMax - 1;
}
template <class... Indices>
Sptr<typename MultiIndex<Indices...>::RangeType>
MultiIndex<Indices...>::range()
{
return std::dynamic_pointer_cast<RangeType>( IB::mRangePtr );
}
template <class... Indices>
template <SizeT N>
auto MultiIndex<Indices...>::getPtr() -> decltype( std::get<N>( mIPack ) )&
{
return std::get<N>(mIPack);
}
template <class... Indices>
SizeT MultiIndex<Indices...>::getStepSize(SizeT n)
{
if(n >= sizeof...(Indices)){
assert(0);
// throw !!
}
return mBlockSizes[n+1];
}
template <class... Indices>
template <class Exprs>
auto MultiIndex<Indices...>::ifor(SizeT step, Exprs exs) const
{
return RangeHelper::mkFor<0>(step, mIPack, mBlockSizes, exs);
}
template <class... Indices>
template <class Exprs>
auto MultiIndex<Indices...>::iforh(SizeT step, Exprs exs) const
{
return RangeHelper::mkForh<0>(step, mIPack, mBlockSizes, exs);
}
template <class... Indices>
template <class Exprs>
auto MultiIndex<Indices...>::pifor(SizeT step, Exprs exs) const
{
return RangeHelper::mkPFor<0>(step, mIPack, mBlockSizes, exs);
}
/*************************
* MultiRangeFactory *
*************************/
template <class... Ranges>
MultiRangeFactory<Ranges...>::MultiRangeFactory(const Sptr<Ranges>&... rs)
{
mProd = Sptr< MultiRange<Ranges...> >( new MultiRange<Ranges...>( rs... ) );
}
template <class... Ranges>
MultiRangeFactory<Ranges...>::MultiRangeFactory(const typename MultiRange<Ranges...>::Space& st)
{
mProd = Sptr< MultiRange<Ranges...> >( new MultiRange<Ranges...>( st ) );
}
template <class... Ranges>
Sptr<RangeBase> MultiRangeFactory<Ranges...>::create()
{
mProd = checkIfCreated( std::dynamic_pointer_cast<oType>( mProd )->mSpace );
setSelf();
return mProd;
}
template <class... Ranges>
Sptr<RangeBase> MultiRangeFactory<Ranges...>::checkIfCreated(const Tuple<Sptr<Ranges>...>& ptp)
{
Sptr<RangeBase> out;
bool check = false;
for(auto& x: MultiRangeFactoryProductMap::mAleadyCreated){
if(x.second.size() == sizeof...(Ranges)){
check = sfor_p<0,sizeof...(Ranges)>
( [&](auto i) { return reinterpret_cast<PtrId>( std::get<i>(ptp).get() ) == x.second[i]; },
[&](auto a, auto b) { return a and b; } );
if(check){
out = x.first;
break;
}
}
}
if(not check){
Vector<PtrId> pv(sizeof...(Ranges));
sfor_pn<0,sizeof...(Ranges)>
( [&](auto i) { pv[i] = reinterpret_cast<PtrId>( std::get<i>(ptp).get() ); return 0; } );
MultiRangeFactoryProductMap::mAleadyCreated[mProd] = pv;
out = mProd;
}
return out;
}
/******************
* MultiRange *
******************/
template <class... Ranges>
MultiRange<Ranges...>::MultiRange(const Sptr<Ranges>&... rs) : mSpace(std::make_tuple(rs...)) {}
template <class... Ranges>
MultiRange<Ranges...>::MultiRange(const Space& space) : mSpace( space ) {}
template <class... Ranges>
template <SizeT N>
auto MultiRange<Ranges...>::get() const -> decltype( *std::get<N>( mSpace ) )&
{
return *std::get<N>(mSpace);
}
template <class... Ranges>
SizeT MultiRange<Ranges...>::getMeta(const MetaType& metaPos) const
{
return RangeHelper::getMeta<sizeof...(Ranges)-1>(mSpace,metaPos);
}
template <class... Ranges>
template <SizeT N>
auto MultiRange<Ranges...>::getPtr() const -> decltype( std::get<N>( mSpace ) )&
{
return std::get<N>(mSpace);
}
template <class... Indices>
Sptr<RangeBase> MultiRange<Indices...>::sub(SizeT num) const
{
assert(num < sizeof...(Indices));
return sforx_p<0,sizeof...(Indices)>
( [&](auto i) { return std::dynamic_pointer_cast<RangeBase>(std::get<i>(mSpace)); },
[&](auto i) { return num != i;} );
}
template <class... Ranges>
SizeT MultiRange<Ranges...>::dim() const
{
return sdim;
}
template <class... Ranges>
SizeT MultiRange<Ranges...>::size() const
{
return sfor_p<0,sizeof...(Ranges)>
( [&](auto i) { return std::get<i>(mSpace)->size(); },
[&](auto a, auto b) { return a * b; } );
}
template <class... Ranges>
SpaceType MultiRange<Ranges...>::spaceType() const
{
return SpaceType::ANY;
}
template <class... Ranges>
const typename MultiRange<Ranges...>::Space& MultiRange<Ranges...>::space() const
{
return mSpace;
}
template <class... Ranges>
Vector<SizeT> MultiRange<Ranges...>::typeNum() const
{
Vector<SizeT> o;
RangeHelper::getTypeNum<sizeof...(Ranges)-1>(o,mSpace);
return o;
}
template <class... Ranges>
SizeT MultiRange<Ranges...>::cmeta(char* target, SizeT pos) const
{
const SizeT off = cmetaSize();
MetaType* xtarget = reinterpret_cast<MetaType*>(target);
return RangeHelper::getCMeta<sizeof...(Ranges)-1>(xtarget,pos,mSpace,off);
}
template <class... Ranges>
SizeT MultiRange<Ranges...>::cmetaSize() const
{
return RangeHelper::getCMetaSize<0>(mSpace);
}
template <class... Ranges>
std::string MultiRange<Ranges...>::stringMeta(SizeT pos) const
{
auto i = begin();
i = pos;
return "[" + RangeHelper::getStringMeta<0>(i) + "]";
}
template <class... Ranges>
Vector<char> MultiRange<Ranges...>::data() const
{
DataHeader h = dataHeader();
Vector<char> out;
//out.reserve(h.metaSize + sizeof(DataHeader));
char* hcp = reinterpret_cast<char*>(&h);
out.insert(out.end(), hcp, hcp + sizeof(DataHeader));
sfor_pn<0,sizeof...(Ranges)>
( [&](auto i) {
Vector<char> part = std::get<i>(mSpace)->data();
out.insert(out.end(), part.begin(), part.end());
return 0;
} );
return out;
}
template <class... Ranges>
DataHeader MultiRange<Ranges...>::dataHeader() const
{
DataHeader h;
h.spaceType = static_cast<int>( SpaceType::ANY );
h.metaSize = sizeof...(Ranges);
h.multiple = 1;
return h;
}
template <class... Ranges>
typename MultiRange<Ranges...>::IndexType MultiRange<Ranges...>::begin() const
{
MultiIndex<typename Ranges::IndexType...>
i( std::dynamic_pointer_cast<MultiRange<Ranges...> >
( Sptr<RangeBase>( RB::mThis ) ) );
i = 0;
return i;
}
template <class... Ranges>
typename MultiRange<Ranges...>::IndexType MultiRange<Ranges...>::end() const
{
MultiIndex<typename Ranges::IndexType...>
i( std::dynamic_pointer_cast<MultiRange<Ranges...> >
( Sptr<RangeBase>( RB::mThis )) );
i = size();
return i;
}
template <class... Ranges>
template <class... ERanges>
auto MultiRange<Ranges...>::cat(const Sptr<MultiRange<ERanges...> >& erange)
-> Sptr<MultiRange<Ranges...,ERanges...> >
{
auto crange = std::tuple_cat(mSpace, erange->space());
MultiRangeFactory<Ranges...,ERanges...> rf(crange);
return std::dynamic_pointer_cast<MultiRange<Ranges...,ERanges...> >(rf.create());
}
}
#endif