202 lines
6.9 KiB
C++
202 lines
6.9 KiB
C++
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#ifndef __helper_tools_h__
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#define __helper_tools_h__
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#include "base_def.h"
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#include "slice.h"
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#include <ostream>
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#include "pack_num.h"
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#include "map_range.h"
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#include <functional>
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#include "xfor/iloop.h"
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namespace MultiArrayTools
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{
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template <typename... T>
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std::ostream& operator<<(std::ostream& out, const std::tuple<T...>& tp);
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template <class RangeType>
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auto getIndex(std::shared_ptr<RangeType> range)
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-> std::shared_ptr<typename RangeType::IndexType>;
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// only if 'RangeType' is defaultable and unique (Singleton)
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template <class RangeType>
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auto getIndex() -> std::shared_ptr<typename RangeType::IndexType>;
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template <class... RangeTypes>
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auto mkMulti(std::shared_ptr<RangeTypes>... ranges)
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-> std::shared_ptr<MultiRange<RangeTypes...> >;
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template <SpaceType STYPE, class Op, class MA, class... RangeTypes>
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auto mkGenMapR(const std::tuple<Op,MA>& f, std::shared_ptr<RangeTypes>... ranges)
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-> std::shared_ptr<GenMapRange<Op,STYPE,RangeTypes...> >;
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template <SpaceType STYPE, class Op, class MA, class... IndexTypes>
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auto mkGenMapI(const std::tuple<Op,MA>& f, std::shared_ptr<IndexTypes>... indices)
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-> decltype( getIndex( mkGenMapR<STYPE>( f, indices->range()... ) ) );
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template <class Op, class MA, class... RangeTypes>
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auto mkMapR(const std::tuple<Op,MA>& f, std::shared_ptr<RangeTypes>... ranges)
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-> decltype( mkGenMapR<SpaceType::ANY>(f, ranges... ) );
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template <class Op, class MA, class... IndexTypes>
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auto mkMapI(const std::tuple<Op,MA>& f, std::shared_ptr<IndexTypes>... indices)
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-> decltype( mkGenMapI<SpaceType::ANY>(f, indices... ) );
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template <class... IndexTypes>
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auto mkMIndex(std::shared_ptr<IndexTypes>... indices)
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-> decltype( getIndex( mkMulti( indices.range()... ) ) );
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template <class... RangeTypes>
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auto mkMulti(std::tuple<std::shared_ptr<RangeTypes>...> rangesTuple)
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-> MultiRange<RangeTypes...>;
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template <class RangeFactory>
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auto createExplicit(RangeFactory& rf)
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-> std::shared_ptr<typename RangeFactory::oType>;
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template <class RangeFactory>
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auto createExplicit(std::shared_ptr<RangeFactory> rfp)
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-> std::shared_ptr<typename RangeFactory::oType>;
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template <class Range>
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auto createRange(const vector<char>& cvec)
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-> std::shared_ptr<Range>;
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inline auto createRange(const vector<char>* cvec, int metaType, size_t size)
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-> std::shared_ptr<RangeBase>;
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inline auto createRangeA(const vector<char>* cvec, int metaType, size_t size)
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-> std::shared_ptr<AnonymousRange>;
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template <class Range, typename... Args>
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auto createRangeE(Args&&... args)
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-> std::shared_ptr<Range>;
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template <size_t N, class MArray>
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auto rptr(const MArray& ma)
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-> decltype(ma.template getRangePtr<N>());
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template <size_t I, class MIndex>
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auto get(const std::shared_ptr<MIndex>& i)
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-> decltype(i->template getPtr<I>())
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{
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return i->template getPtr<I>();
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}
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template <class EC, class MArray>
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auto dynamic(const MArray& ma, bool slice = false)
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-> std::shared_ptr<MultiArrayBase<typename MArray::value_type,DynamicRange<EC>>>;
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template <class EC, class MArray>
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auto mdynamic(MArray& ma, bool slice)
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-> std::shared_ptr<MutableMultiArrayBase<typename MArray::value_type,DynamicRange<EC>>>;
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template <typename T, class EC, class Range1, class... RangeTypes>
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auto anonToDynView(const MultiArrayBase<T,Range1,RangeTypes...,AnonymousRange>& ma)
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-> ConstSlice<T,Range1,RangeTypes...,DynamicRange<EC>>;
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template <typename T, class EC, class Range1, class... RangeTypes>
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auto anonToDynView(MutableMultiArrayBase<T,Range1,RangeTypes...,AnonymousRange>& ma)
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-> Slice<T,Range1,RangeTypes...,DynamicRange<EC>>;
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template <typename T, class EC, class Range1, class... RangeTypes>
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auto dynToAnonMove(MultiArray<T,Range1,RangeTypes...,DynamicRange<EC>>&& ma)
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-> MultiArray<T,Range1,RangeTypes...,AnonymousRange>;
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template <typename T, class EC>
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auto anonToDynView(const MultiArrayBase<T,AnonymousRange>& ma)
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-> ConstSlice<T,DynamicRange<EC>>;
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template <typename T, class EC>
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auto anonToDynView(MutableMultiArrayBase<T,AnonymousRange>& ma)
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-> Slice<T,DynamicRange<EC>>;
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template <typename T, class EC>
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auto dynToAnonMove(MultiArray<T,DynamicRange<EC>>&& ma)
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-> MultiArray<T,AnonymousRange>;
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template <class Range>
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auto metaSlice(const std::shared_ptr<Range>& r)
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-> ConstSlice<typename Range::MetaType,ClassicRange>;
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template <class Range, class ORange>
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auto metaSlice(const std::shared_ptr<Range>& r, const std::shared_ptr<ORange>& ro)
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-> ConstSlice<typename Range::MetaType,ORange>;
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template <typename T, class... Ranges>
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auto mkArray(const std::shared_ptr<Ranges>&... rs)
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-> MultiArray<T,Ranges...>;
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template <typename T, class... Ranges>
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auto mkArray(const std::shared_ptr<Ranges>&... rs, const T& val)
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-> MultiArray<T,Ranges...>;
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template <class OpTp, class IndTp, class VarTp, class LTp>
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auto mkILoop(const OpTp& opTp, const IndTp& indTp, const VarTp& varTp, const LTp& lTp,
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const std::array<size_t,std::tuple_size<LTp>::value>& umpos,
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const std::array<size_t,std::tuple_size<VarTp>::value>& setzero)
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-> MultiArrayHelper::ILoop<OpTp,IndTp,VarTp,LTp>
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{
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return MultiArrayHelper::ILoop<OpTp,IndTp,VarTp,LTp>(opTp, indTp, varTp, lTp, umpos, setzero);
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}
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template <class CF>
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auto mkPILoop(const CF& cf)
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-> MultiArrayHelper::PILoop<CF>
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{
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return MultiArrayHelper::PILoop<CF>(cf);
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}
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template <class IndexType>
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inline void For(const std::shared_ptr<IndexType>& ind, const std::function<void(void)>& ll)
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{
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for((*ind) = 0; ind->pos() != ind->max(); ++(*ind)){
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ll();
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}
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}
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// parallel:
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template <class IndexType>
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inline void PFor(const std::shared_ptr<IndexType>& ind,
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const std::function<void(const std::shared_ptr<IndexType>&)>& ll)
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{
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const int max = static_cast<int>(ind->max());
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int i = 0;
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#pragma omp parallel shared(ind,ll) private(i)
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{
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#pragma omp for nowait
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for(i = 0; i < max; i++) {
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auto ii = getIndex( ind->range() );
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((*ii) = i)();
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ll(ii);
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}
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}
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}
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template <class Index>
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inline auto mkOp(const std::shared_ptr<Index>& i)
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-> decltype(std::declval<FunctionalMultiArray<typename Index::MetaType,
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identity<typename Index::MetaType>,typename Index::RangeType> >
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().exec(i))
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{
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FunctionalMultiArray<typename Index::MetaType,
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identity<typename Index::MetaType>,
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typename Index::RangeType> fma(i->range());
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return fma.exec(i);
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}
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template <typename R, typename... Ts>
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struct Func
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{
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static inline std::shared_ptr<function<R,Ts...>> mk(const std::function<R(Ts...)>& ll)
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{
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return std::make_shared<function<R,Ts...>>(ll);
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}
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};
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}
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#endif
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