511 lines
13 KiB
C++
511 lines
13 KiB
C++
// -*- C++ -*-
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#ifndef __multi_array_operation_h__
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#define __multi_array_operation_h__
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#include <cstdlib>
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#include <tuple>
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#include <cmath>
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#include <map>
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#include <utility>
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#include "base_def.h"
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#include "mbase_def.h"
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#include "ranges/rheader.h"
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#include "pack_num.h"
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#include "arith.h"
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namespace MultiArrayTools
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{
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namespace
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{
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using namespace MultiArrayHelper;
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}
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template <typename T, class OperationClass>
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class OperationBase
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{
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public:
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OperationClass& THIS() { return static_cast<OperationClass&>(*this); }
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const OperationClass& THIS() const { return static_cast<OperationClass const&>(*this); }
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template <class Second>
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auto operator+(const OperationBase<T,Second>& in) const
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-> Operation<T,plus<T>,OperationClass,Second>;
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template <class Second>
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auto operator-(const OperationBase<T,Second>& in) const
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-> Operation<T,minus<T>,OperationClass,Second>;
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template <class Second>
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auto operator*(const OperationBase<T,Second>& in) const
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-> Operation<T,multiplies<T>,OperationClass,Second>;
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template <class Second>
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auto operator/(const OperationBase<T,Second>& in) const
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-> Operation<T,divides<T>,OperationClass,Second>;
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template <class IndexType>
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auto c(const std::shared_ptr<IndexType>& ind) const
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-> Contraction<T,OperationClass,IndexType>;
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template <class... Indices>
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auto sl(const std::shared_ptr<Indices>&... inds) const
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-> ConstSlice<T,typename Indices::RangeType...>;
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template <class... Indices>
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auto slc(const std::shared_ptr<Indices>&... inds) const
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-> SliceContraction<T,OperationClass,Indices...>;
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private:
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friend OperationClass;
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friend OperationTemplate<T,OperationClass>;
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OperationBase() = default;
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};
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template <typename T, class OperationClass>
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class OperationTemplate : public OperationBase<T,OperationClass>
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{
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/* empty per default; specialize if needed */
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private:
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OperationTemplate() = default;
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friend OperationClass;
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};
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template <typename T, class OpClass, class... Ranges>
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class OperationMaster
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{
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public:
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class AssignmentExpr
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{
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private:
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AssignmentExpr() = default;
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OperationMaster& mM;
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const OpClass& mSec;
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public:
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static constexpr size_t LAYER = 0;
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static constexpr size_t SIZE = OpClass::SIZE;
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typedef decltype(mSec.rootSteps()) ExtType;
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AssignmentExpr(OperationMaster& m, const OpClass& sec);
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AssignmentExpr(const AssignmentExpr& in) = default;
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AssignmentExpr(AssignmentExpr&& in) = default;
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inline void operator()(size_t start = 0) const;
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inline void operator()(size_t start, ExtType last) const;
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auto rootSteps(std::intptr_t iPtrNum = 0) const -> ExtType;
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};
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typedef T value_type;
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//typedef OperationBase<T> OB;
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typedef ContainerRange<T,Ranges...> CRange;
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typedef ContainerIndex<T,typename Ranges::IndexType...> IndexType;
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//typedef typename MultiRange<Ranges...>::IndexType IndexType;
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OperationMaster(MutableMultiArrayBase<T,Ranges...>& ma, const OpClass& second,
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IndexType& index);
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OperationMaster(T* data, const OpClass& second,
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IndexType& index);
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inline void set(size_t pos, T val) { mDataPtr[pos] = val; }
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inline void add(size_t pos, T val) { mDataPtr[pos] += val; }
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inline T get(size_t pos) const;
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private:
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void performAssignment(std::intptr_t blockIndexNum);
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OpClass const& mSecond;
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//MutableMultiArrayBase<T,Ranges...>& mArrayRef;
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T* mDataPtr;
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IndexType mIndex;
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};
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template <typename T, class... Ranges>
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class ConstOperationRoot : public OperationTemplate<T,ConstOperationRoot<T,Ranges...> >
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{
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public:
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typedef T value_type;
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typedef OperationBase<T,ConstOperationRoot<T,Ranges...> > OT;
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typedef ContainerRange<T,Ranges...> CRange;
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typedef ContainerIndex<T,typename Ranges::IndexType...> IndexType;
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static constexpr size_t SIZE = 1;
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ConstOperationRoot(const MultiArrayBase<T,Ranges...>& ma,
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const std::shared_ptr<typename Ranges::IndexType>&... indices);
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ConstOperationRoot(std::shared_ptr<MultiArrayBase<T,Ranges...> > maptr,
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const std::shared_ptr<typename Ranges::IndexType>&... indices);
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ConstOperationRoot(const T* data, const IndexType& ind);
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template <class ET>
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inline T get(ET pos) const;
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template <class ET>
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inline const ConstOperationRoot& set(ET pos) const;
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MExt<void> rootSteps(std::intptr_t iPtrNum = 0) const; // nullptr for simple usage with decltype
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template <class Expr>
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Expr loop(Expr exp) const;
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const T* data() const;
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private:
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//MultiArrayBase<T,Ranges...> const& mArrayRef;
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const T* mDataPtr;
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mutable IndexType mIndex;
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mutable size_t mOff = 0;
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std::shared_ptr<MultiArrayBase<T,Ranges...> > mMaPtr; // never remove this ptr, otherwise we lose temporary container instances!
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};
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template <typename T, class Op>
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class StaticCast : public OperationTemplate<T,StaticCast<T,Op> >
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{
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private:
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const Op& mOp;
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public:
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typedef T value_type;
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typedef OperationBase<T,StaticCast<T,Op> > OT;
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typedef typename Op::CRange CRange;
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typedef typename Op::IndexType IndexType;
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static constexpr size_t SIZE = Op::SIZE;
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StaticCast(const Op& op);
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template <class ET>
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inline T get(ET pos) const;
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template <class ET>
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inline const StaticCast& set(ET pos) const;
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auto rootSteps(std::intptr_t iPtrNum = 0) const
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-> decltype(mOp.rootSteps(iPtrNum));
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template <class Expr>
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Expr loop(Expr exp) const;
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};
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template <typename T, class Op>
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StaticCast<T,Op> staticcast(const Op& op)
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{
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return StaticCast<T,Op>(op);
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}
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template <class... Ranges>
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class MetaOperationRoot : public OperationTemplate<std::tuple<typename Ranges::IndexType...>,
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MetaOperationRoot<Ranges...> >
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{
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public:
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typedef ContainerIndex<std::tuple<typename Ranges::IndexType::MetaType...>,
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typename Ranges::IndexType...> IndexType;
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typedef typename IndexType::MetaType value_type;
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typedef OperationBase<value_type,MetaOperationRoot<Ranges...> > OT;
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typedef ContainerRange<value_type,Ranges...> CRange;
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static constexpr size_t SIZE = 1;
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MetaOperationRoot(const IndexType& ind);
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template <class ET>
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inline value_type get(ET pos) const;
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template <class ET>
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inline const MetaOperationRoot& set(ET pos) const;
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MExt<void> rootSteps(std::intptr_t iPtrNum = 0) const; // nullptr for simple usage with decltype
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template <class Expr>
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Expr loop(Expr exp) const;
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private:
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//MultiArrayBase<T,Ranges...> const& mArrayRef;
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//const T* mDataPtr;
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IndexType mIndex;
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};
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template <typename T, class... Ranges>
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class OperationRoot : public OperationTemplate<T,OperationRoot<T,Ranges...> >
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{
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public:
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typedef T value_type;
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typedef OperationBase<T,OperationRoot<T,Ranges...> > OT;
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typedef ContainerRange<T,Ranges...> CRange;
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typedef ContainerIndex<T,typename Ranges::IndexType...> IndexType;
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static constexpr size_t SIZE = 1;
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OperationRoot(MutableMultiArrayBase<T,Ranges...>& ma,
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const std::shared_ptr<typename Ranges::IndexType>&... indices);
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OperationRoot(T* data, const IndexType& ind);
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template <class OpClass>
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OperationMaster<T,OpClass,Ranges...> operator=(const OpClass& in);
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OperationMaster<T,OperationRoot,Ranges...> operator=(const OperationRoot& in);
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template <class ET>
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inline T get(ET pos) const;
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template <class ET>
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inline const OperationRoot& set(ET pos) const;
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MExt<void> rootSteps(std::intptr_t iPtrNum = 0) const; // nullptr for simple usage with decltype
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template <class Expr>
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Expr loop(Expr exp) const;
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T* data() const;
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template <class... Indices>
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auto sl(const std::shared_ptr<Indices>&... inds)
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-> Slice<T,typename Indices::RangeType...>;
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private:
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//MutableMultiArrayBase<T,Ranges...>& mArrayRef;
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T* mDataPtr;
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mutable IndexType mIndex;
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mutable size_t mOff = 0;
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};
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template <typename T>
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class OperationValue : public OperationTemplate<T,OperationValue<T> >
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{
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public:
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typedef T value_type;
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typedef OperationBase<T,OperationValue<T> > OT;
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typedef ContainerRange<T,NullRange> CRange;
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typedef ContainerIndex<T,NullIndex> IndexType;
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static constexpr size_t SIZE = 1;
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OperationValue(const T& val);
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template <class ET>
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inline T get(ET pos) const;
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template <class ET>
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inline const OperationValue& set(ET pos) const;
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MExt<void> rootSteps(std::intptr_t iPtrNum = 0) const; // nullptr for simple usage with decltype
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template <class Expr>
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Expr loop(Expr exp) const;
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private:
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T mVal;
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};
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template <class Op>
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size_t sumRootNum()
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{
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return typename Op::rootNum();
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}
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template <class Op1, class Op2, class... Ops>
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size_t sumRootNum()
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{
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return typename Op1::rootNum() + sumRootNum<Op2,Ops...>();
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}
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template <size_t N>
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struct RootSumN
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{
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template <class Op1, class... Ops>
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struct rs
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{
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static constexpr size_t SIZE = Op1::SIZE + RootSumN<N-1>::template rs<Ops...>::SIZE;
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};
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};
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template <>
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struct RootSumN<0>
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{
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template <class Op1>
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struct rs
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{
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static constexpr size_t SIZE = Op1::SIZE;
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};
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};
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template <class... Ops>
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struct RootSum
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{
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static constexpr size_t SIZE = RootSumN<sizeof...(Ops)-1>::template rs<Ops...>::SIZE;
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};
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template <typename T, class OpFunction, class... Ops>
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class Operation : public OperationTemplate<T,Operation<T,OpFunction,Ops...> >
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{
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public:
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typedef T value_type;
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typedef OperationBase<T,Operation<T,OpFunction,Ops...> > OT;
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typedef OpFunction F;
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static constexpr size_t SIZE = RootSum<Ops...>::SIZE;
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static constexpr bool FISSTATIC = OpFunction::FISSTATIC;
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private:
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std::tuple<Ops...> mOps;
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std::shared_ptr<OpFunction> mF; // only if non-static
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public:
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typedef decltype(PackNum<sizeof...(Ops)-1>::template mkSteps<Ops...>(0, mOps)) ETuple;
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Operation(const Ops&... ops);
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Operation(std::shared_ptr<OpFunction> ff, const Ops&... ops);
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template <class ET>
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inline T get(ET pos) const;
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template <class ET>
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inline const Operation& set(ET pos) const;
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auto rootSteps(std::intptr_t iPtrNum = 0) const // nullptr for simple usage with decltype
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-> decltype(PackNum<sizeof...(Ops)-1>::mkSteps(iPtrNum, mOps));
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template <class Expr>
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auto loop(Expr exp) const
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-> decltype(PackNum<sizeof...(Ops)-1>::mkLoop( mOps, exp));
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};
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namespace
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{
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template <bool FISSTATIC>
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struct OpMaker
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{
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template <class OpFunction, class... Ops>
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static inline auto mkOperation(const std::shared_ptr<OpFunction>& f, const Ops&... ops)
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-> Operation<typename OpFunction::value_type,OpFunction,Ops...>
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{
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return Operation<typename OpFunction::value_type,OpFunction,Ops...>(f,ops...);
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}
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};
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template <>
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struct OpMaker<true>
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{
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template <class OpFunction, class... Ops>
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static inline auto mkOperation(const std::shared_ptr<OpFunction>& f, const Ops&... ops)
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-> Operation<typename OpFunction::value_type,OpFunction,Ops...>
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{
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return Operation<typename OpFunction::value_type,OpFunction,Ops...>(ops...);
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}
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};
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}
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template <class OpFunction, class... Ops>
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auto mkOperation(const std::shared_ptr<OpFunction>& f, const Ops&... ops)
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-> Operation<typename OpFunction::value_type,OpFunction,Ops...>
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{
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return OpMaker<OpFunction::FISSTATIC>::mkOperation(f, ops...);
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}
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template <typename T, class Op, class IndexType>
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class Contraction : public OperationTemplate<T,Contraction<T,Op,IndexType> >
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{
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public:
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typedef T value_type;
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typedef OperationBase<T,Contraction<T,Op,IndexType> > OT;
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static constexpr size_t SIZE = Op::SIZE;
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private:
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const Op& mOp;
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std::shared_ptr<IndexType> mInd;
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public:
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typedef decltype(mOp.rootSteps(0)) ETuple;
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Contraction(const Op& op, std::shared_ptr<IndexType> ind);
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template <class ET>
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inline T get(ET pos) const;
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template <class ET>
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inline const Contraction& set(ET pos) const;
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auto rootSteps(std::intptr_t iPtrNum = 0) const // nullptr for simple usage with decltype
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-> decltype(mOp.rootSteps(iPtrNum));
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template <class Expr>
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auto loop(Expr exp) const -> decltype(mInd->iforh(1,exp));
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};
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template <typename T, class Op, class... Indices>
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// class SliceContraction : public OperationTemplate
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//<MultiArray<T,typename Indices::RangeType...>,
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//SliceContraction<MultiArray<T,typename Indices::RangeType...>,Op,Indices...> >
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class SliceContraction : public OperationTemplate<T,SliceContraction<T,Op,Indices...> >
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{
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public:
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typedef MultiArray<T,typename Indices::RangeType...> value_type;
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typedef OperationTemplate<T,SliceContraction<T,Op,Indices...> > OT;
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static constexpr size_t SIZE = Op::SIZE;
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private:
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const Op& mOp;
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mutable std::shared_ptr<MultiArray<T,typename Indices::RangeType...> > mCont;
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mutable OperationRoot<T,typename Indices::RangeType...> mTarOp;
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public:
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typedef decltype(mOp.rootSteps(0)) ETuple;
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SliceContraction(const Op& op, std::shared_ptr<Indices>... ind);
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template <class ET>
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inline const value_type& get(ET pos) const;
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template <class ET>
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inline const SliceContraction& set(ET pos) const;
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auto rootSteps(std::intptr_t iPtrNum = 0) const // nullptr for simple usage with decltype
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-> decltype(mOp.rootSteps(iPtrNum));
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template <class Expr>
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auto loop(Expr exp) const -> decltype(mOp.loop(exp)); // no loop
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};
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}
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#include "type_operations.h"
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#endif
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