im com while fixing (still NOT FINISHED)
This commit is contained in:
Christian Zimmermann
parent
740004d160
commit
96d9b4808e
4 changed files with 284 additions and 47 deletions
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@ -26,6 +26,44 @@ namespace MultiArrayTools
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{
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using namespace MultiArrayHelper;
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}
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// OPERATIONS (STATIC)
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template <typename T>
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struct plus
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{
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static T&& apply(T&& a1, T&& a2)
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{
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return a1 + a2;
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}
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};
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template <typename T>
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struct minus
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{
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static T&& apply(T&& a1, T&& a2)
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{
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return a1 - a2;
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}
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};
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template <typename T>
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struct multiplies
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{
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static T&& apply(T&& a1, T&& a2)
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{
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return a1 * a2;
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}
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};
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template <typename T>
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struct divides
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{
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static T&& apply(T&& a1, T&& a2)
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{
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return a1 / a2;
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}
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};
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template <typename T>
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Block<T> makeBlock(const T* vec, size_t stepSize, size_t blockSize);
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@ -53,19 +91,19 @@ namespace MultiArrayTools
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template <class Second>
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auto operator+(const Second& in) const
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-> Operation<T,std::plus<T>,OperationClass,Second>;
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-> Operation<T,plus<T>,OperationClass,Second>;
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template <class Second>
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auto operator-(const Second& in) const
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-> Operation<T,std::minus<T>,OperationClass,Second>;
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-> Operation<T,minus<T>,OperationClass,Second>;
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template <class Second>
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auto operator*(const Second& in) const
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-> Operation<T,std::multiplies<T>,OperationClass,Second>;
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-> Operation<T,multiplies<T>,OperationClass,Second>;
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template <class Second>
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auto operator/(const Second& in) const
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-> Operation<T,std::divides<T>,OperationClass,Second>;
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-> Operation<T,divides<T>,OperationClass,Second>;
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template <class IndexType>
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auto c(std::shared_ptr<IndexType>& ind) const
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@ -88,22 +126,22 @@ namespace MultiArrayTools
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//AssignmentExpr(const AssignmentExpr& in) = default;
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//AssignmentExpr& operator=(const AssignmentExpr& in) = default;
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OperationMaster* mMPtr;
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const OpClass* mSecPtr;
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OperationMaster& mM;
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const OpClass& mSec;
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public:
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static size_t layer() { return 0; }
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static const size_t LAYER = 0;
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static const size_t SIZE = OpClass::SIZE;
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typedef decltype(mSecPtr->rootSteps()) ETuple;
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typedef decltype(mSec.rootSteps()) ETuple;
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AssignmentExpr(OperationMaster* mPtr, const OpClass* secPtr);
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AssignmentExpr(OperationMaster& m, const OpClass& sec);
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AssignmentExpr(AssignmentExpr&& in) = default;
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//AssignmentExpr& operator=(const AssignmentExpr&& in) = default;
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inline void operator()(size_t start = 0);
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//inline void operator()(size_t start = 0);
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inline void operator()(size_t start, const ETuple& last);
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ETuple rootSteps(std::intptr_t iPtrNum = 0);
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@ -128,15 +166,19 @@ namespace MultiArrayTools
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MBlock<T>& get();
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const Block<T>& get() const;
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T& get(size_t pos);
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const T& get(size_t pos) const;
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std::vector<BTSS> block(const IndexInfo* blockIndex, bool init = false) const;
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const OperationMaster& block() const;
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private:
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std::shared_ptr<IndexType> mkIndex(std::shared_ptr<typename CRange::IndexType>& index);
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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* mData;
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std::shared_ptr<IndexType> mIndex;
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IndexInfo mIInfo;
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mutable bType mBlock;
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@ -163,12 +205,18 @@ namespace MultiArrayTools
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const std::shared_ptr<typename Ranges::IndexType>&... indices);
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const Block<T>& get() const;
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template <class ET, size_t SITE>
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inline const T& get(const ET& pos) const;
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std::vector<BTSS> block(const IndexInfo* blockIndex, bool init = false) const;
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const ConstOperationRoot& block() const;
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std::tuple<size_t> rootSteps(const IndexInfo* ii = nullptr) const; // nullptr for simple usage with decltype
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std::tuple<size_t> 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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std::shared_ptr<IndexType>
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@ -176,6 +224,7 @@ namespace MultiArrayTools
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const std::shared_ptr<typename Ranges::IndexType>&... indices);
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MultiArrayBase<T,Ranges...> const& mArrayRef;
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const T* mData;
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std::shared_ptr<IndexType> mIndex;
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IndexInfo mIInfo;
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mutable bType mBlock;
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@ -205,11 +254,20 @@ namespace MultiArrayTools
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const MBlock<T>& get() const;
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MBlock<T>& get();
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template <class ET, size_t SITE>
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inline const T& get(const ET& pos) const;
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template <class ET, size_t SITE>
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inline T& get(const ET& pos);
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OperationRoot& set(const IndexInfo* blockIndex);
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std::vector<BTSS> block(const IndexInfo* blockIndex, bool init = false) const;
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const OperationRoot& block() const;
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std::tuple<size_t> rootSteps(const IndexInfo* ii = nullptr) const; // nullptr for simple usage with decltype
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std::tuple<size_t> 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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@ -218,6 +276,7 @@ namespace MultiArrayTools
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const std::shared_ptr<typename Ranges::IndexType>&... indices);
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MutableMultiArrayBase<T,Ranges...>& mArrayRef;
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T* mData;
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std::shared_ptr<IndexType> mIndex;
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IndexInfo mIInfo;
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mutable bType mBlock;
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@ -283,15 +342,25 @@ namespace MultiArrayTools
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mutable bType mRes;
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public:
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typedef decltype(PackNum<sizeof...(Ops)-1>::mkStepTuple(0, mOps)) ETuple;
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//typedef decltype(PackNum<sizeof...(Ops)-1>::template mkLoopType<Ops...>) LType;
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Operation(const Ops&... ops);
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const BlockResult<T>& get() const;
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template <class ET, size_t SITE>
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inline T&& get(const ET& pos) const;
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std::vector<BTSS> block(const IndexInfo* blockIndex, bool init = false) const;
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const Operation& block() const;
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auto rootSteps(const IndexInfo* ii = nullptr) const // nullptr for simple usage with decltype
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-> decltype(PackNum<sizeof...(Ops)-1>::mkStepTuple(ii, mOps));
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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>::mkStepTuple(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, std::forward<Expr>( exp ) ))&&;
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};
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@ -314,16 +383,23 @@ namespace MultiArrayTools
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mutable bType mRes;
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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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const BlockResult<T>& get() const;
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template <class ET, size_t SITE>
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inline T&& get(const ET& pos) const;
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std::vector<BTSS> block(const IndexInfo* blockIndex, bool init = false) const;
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const Contraction& block() const;
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auto rootSteps(const IndexInfo* ii = nullptr) const // nullptr for simple usage with decltype
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-> decltype(mOp.rootSteps(ii));
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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->ifor(exp))&&;
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};
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}
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@ -393,33 +469,33 @@ namespace MultiArrayTools
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template <typename T, class OperationClass>
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template <class Second>
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auto OperationTemplate<T,OperationClass>::operator+(const Second& in) const
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-> Operation<T,std::plus<T>,OperationClass,Second>
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-> Operation<T,plus<T>,OperationClass,Second>
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{
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return Operation<T,std::plus<T>,OperationClass,Second>(THIS(), in);
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return Operation<T,plus<T>,OperationClass,Second>(THIS(), in);
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}
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template <typename T, class OperationClass>
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template <class Second>
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auto OperationTemplate<T,OperationClass>::operator-(const Second& in) const
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-> Operation<T,std::minus<T>,OperationClass,Second>
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-> Operation<T,minus<T>,OperationClass,Second>
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{
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return Operation<T,std::minus<T>,OperationClass,Second>(THIS(), in);
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return Operation<T,minus<T>,OperationClass,Second>(THIS(), in);
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}
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template <typename T, class OperationClass>
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template <class Second>
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auto OperationTemplate<T,OperationClass>::operator*(const Second& in) const
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-> Operation<T,std::multiplies<T>,OperationClass,Second>
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-> Operation<T,multiplies<T>,OperationClass,Second>
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{
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return Operation<T,std::multiplies<T>,OperationClass,Second>(THIS(), in);
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return Operation<T,multiplies<T>,OperationClass,Second>(THIS(), in);
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}
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template <typename T, class OperationClass>
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template <class Second>
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auto OperationTemplate<T,OperationClass>::operator/(const Second& in) const
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-> Operation<T,std::divides<T>,OperationClass,Second>
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-> Operation<T,divides<T>,OperationClass,Second>
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{
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return Operation<T,std::divides<T>,OperationClass,Second>(THIS(), in);
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return Operation<T,divides<T>,OperationClass,Second>(THIS(), in);
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}
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template <typename T, class OperationClass>
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@ -430,6 +506,38 @@ namespace MultiArrayTools
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return Contraction<T,OperationClass,IndexType>(THIS(), ind);
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}
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/*****************************************
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* OperationMaster::AssignmentExpr *
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*****************************************/
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template <typename T, class OpClass, class... Ranges>
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OperationMaster<T,OpClass,Ranges...>::AssignmentExpr::
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AssignmentExpr(OperationMaster& m, const OpClass& sec) :
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mM(m), mSec(sec) {}
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/*
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template <typename T, class OpClass, class... Ranges>
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inline void OperationMaster<T,OpClass,Ranges...>::AssignmentExpr::
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operator()(size_t start)
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{
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}*/
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template <typename T, class OpClass, class... Ranges>
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inline void OperationMaster<T,OpClass,Ranges...>::AssignmentExpr::
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operator()(size_t start, const ETuple& last)
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{
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mM.get(start) = mSec.template get<ETuple,OpClass::SIZE>(last);
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}
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template <typename T, class OpClass, class... Ranges>
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typename OperationMaster<T,OpClass,Ranges...>::AssignmentExpr::ETuple
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OperationMaster<T,OpClass,Ranges...>::AssignmentExpr::
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rootSteps(std::intptr_t iPtrNum)
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{
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return mSec.rootSteps(iPtrNum);
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}
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/*************************
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* OperationMaster *
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@ -439,7 +547,8 @@ namespace MultiArrayTools
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OperationMaster<T,OpClass,Ranges...>::
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OperationMaster(MutableMultiArrayBase<T,Ranges...>& ma, const OpClass& second,
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std::shared_ptr<typename CRange::IndexType>& index) :
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mSecond(second), mArrayRef(ma), mIndex(mkIndex(index)), mIInfo(*mIndex)
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mSecond(second), mArrayRef(ma), mData(mArrayRef.data()),
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mIndex(mkIndex(index)), mIInfo(*mIndex)
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{
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auto blockIndex = seekBlockIndex( &mIInfo, second);
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std::intptr_t blockIndexNum = blockIndex->getPtrNum();
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@ -455,7 +564,8 @@ namespace MultiArrayTools
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OperationMaster(MutableMultiArrayBase<T,Ranges...>& ma, const OpClass& second,
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std::shared_ptr<typename CRange::IndexType>& index,
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const IndexInfo* blockIndex) :
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mSecond(second), mArrayRef(ma), mIndex(mkIndex(index)), mIInfo(*mIndex)
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mSecond(second), mArrayRef(ma), mData(mArrayRef.data()),
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mIndex(mkIndex(index)), mIInfo(*mIndex)
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{
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std::intptr_t blockIndexNum = blockIndex->getPtrNum();
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second.block(blockIndex, true);
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@ -482,9 +592,12 @@ namespace MultiArrayTools
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#define XX_USE_NEW_LOOP_ROUTINE_XX
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#ifdef XX_USE_NEW_LOOP_ROUTINE_XX
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// === N E W ===
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AssignmentExpr ae(this, &mSecond);
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const auto loop = mIndex->ifor(ae);
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loop();
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AssignmentExpr ae(*this, mSecond); // Expression to be executed within loop
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//const auto hiddenLoop = mSecond.loop(AssignmentExpr(*this, mSecond)); // hidden loop within 'mSecond' e.g. contractions
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const auto loop = mIndex->ifor
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( mSecond.template loop<AssignmentExpr>
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( std::move(ae) ) ); // init overall loop(s)
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loop(); // execute overall loop(s) and so internal hidden loops and so the inherited expressions
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#else
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// === O L D ===
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for(*mIndex = 0; mIndex->pos() != mIndex->max(); mIndex->pp(blockIndexNum) ){
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@ -506,6 +619,18 @@ namespace MultiArrayTools
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return mBlock;
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}
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template <typename T, class OpClass, class... Ranges>
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T& OperationMaster<T,OpClass,Ranges...>::get(size_t pos)
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{
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return mData[pos];
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}
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template <typename T, class OpClass, class... Ranges>
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const T& OperationMaster<T,OpClass,Ranges...>::get(size_t pos) const
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{
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return mData[pos];
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}
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template <typename T, class OpClass, class... Ranges>
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std::vector<BTSS> OperationMaster<T,OpClass,Ranges...>::block(const IndexInfo* blockIndex, bool init) const
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{
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@ -524,6 +649,7 @@ namespace MultiArrayTools
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return *this;
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}
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/****************************
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* ConstOperationRoot *
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****************************/
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@ -533,7 +659,8 @@ namespace MultiArrayTools
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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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//OperationTemplate<T,ConstOperationRoot<T,Ranges...> >(this),
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mArrayRef(ma), mIndex( mkIndex(ma,indices...) ), mIInfo(*mIndex)
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mArrayRef(ma), mData(mArrayRef.data()),
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mIndex( mkIndex(ma,indices...) ), mIInfo(*mIndex)
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{}
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template <typename T, class... Ranges>
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@ -553,7 +680,14 @@ namespace MultiArrayTools
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block();
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return mBlock;
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}
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template <typename T, class... Ranges>
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template <class ET, size_t SITE>
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inline const T& ConstOperationRoot<T,Ranges...>::get(const ET& pos) const
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{
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return mData[std::get<SITE>(pos)];
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}
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template <typename T, class... Ranges>
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std::vector<BTSS> ConstOperationRoot<T,Ranges...>::block(const IndexInfo* blockIndex, bool init) const
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{
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@ -572,10 +706,18 @@ namespace MultiArrayTools
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}
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template <typename T, class... Ranges>
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std::tuple<size_t> ConstOperationRoot<T,Ranges...>::rootSteps(const IndexInfo* ii) const
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std::tuple<size_t> ConstOperationRoot<T,Ranges...>::rootSteps(std::intptr_t iPtrNum) const
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{
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return std::tuple<size_t>(0ul); // !!!!!!
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}
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template <typename T, class... Ranges>
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template <class Expr>
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Expr&& ConstOperationRoot<T,Ranges...>::loop(Expr&& exp) const
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{
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return std::forward<Expr>(exp);
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}
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/***********************
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* OperationRoot *
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@ -586,7 +728,8 @@ namespace MultiArrayTools
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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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//OperationTemplate<T,OperationRoot<T,Ranges...> >(this),
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mArrayRef(ma), mIndex( mkIndex( ma, indices... ) ), mIInfo(*mIndex),
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mArrayRef(ma), mData(mArrayRef.data()),
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mIndex( mkIndex( ma, indices... ) ), mIInfo(*mIndex),
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mBlockII(nullptr)
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{}
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@ -627,6 +770,20 @@ namespace MultiArrayTools
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return mBlock;
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}
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template <typename T, class... Ranges>
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template <class ET, size_t SITE>
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inline const T& OperationRoot<T,Ranges...>::get(const ET& pos) const
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{
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return mData[std::get<SITE>( pos )];
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}
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template <typename T, class... Ranges>
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template <class ET, size_t SITE>
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inline T& OperationRoot<T,Ranges...>::get(const ET& pos)
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{
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return mData[std::get<SITE>( pos )];
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}
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template <typename T, class... Ranges>
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OperationRoot<T,Ranges...>&
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OperationRoot<T,Ranges...>::set(const IndexInfo* blockIndex)
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@ -653,10 +810,17 @@ namespace MultiArrayTools
|
|||
}
|
||||
|
||||
template <typename T, class... Ranges>
|
||||
std::tuple<size_t> OperationRoot<T,Ranges...>::rootSteps(const IndexInfo* ii) const
|
||||
std::tuple<size_t> OperationRoot<T,Ranges...>::rootSteps(std::intptr_t iPtrNum) const
|
||||
{
|
||||
return std::tuple<size_t>(0ul); // !!!!!!
|
||||
}
|
||||
|
||||
template <typename T, class... Ranges>
|
||||
template <class Expr>
|
||||
Expr&& OperationRoot<T,Ranges...>::loop(Expr&& exp) const
|
||||
{
|
||||
return std::forward<Expr>(exp);
|
||||
}
|
||||
|
||||
/*******************
|
||||
* Operation *
|
||||
|
|
@ -674,6 +838,15 @@ namespace MultiArrayTools
|
|||
return mRes;
|
||||
}
|
||||
|
||||
template <typename T, class OpFunction, class... Ops>
|
||||
template <class ET, size_t SITE>
|
||||
inline T&& Operation<T,OpFunction,Ops...>::get(const ET& pos) const
|
||||
{
|
||||
typedef std::tuple<Ops const&...> OpTuple;
|
||||
return std::forward<T>( PackNum<sizeof...(Ops)-2>::
|
||||
template mkOpExpr<T,ET,OpTuple,OpFunction,SITE>(pos, mOps) );
|
||||
}
|
||||
|
||||
template <typename T, class OpFunction, class... Ops>
|
||||
std::vector<BTSS> Operation<T,OpFunction,Ops...>::block(const IndexInfo* blockIndex, bool init) const
|
||||
{
|
||||
|
|
@ -694,10 +867,21 @@ namespace MultiArrayTools
|
|||
}
|
||||
|
||||
template <typename T, class OpFunction, class... Ops>
|
||||
auto Operation<T,OpFunction,Ops...>::rootSteps(const IndexInfo* ii) const
|
||||
-> decltype(PackNum<sizeof...(Ops)-1>::mkStepTuple(ii, mOps))
|
||||
auto Operation<T,OpFunction,Ops...>::rootSteps(std::intptr_t iPtrNum) const
|
||||
-> decltype(PackNum<sizeof...(Ops)-1>::mkStepTuple(iPtrNum, mOps))
|
||||
{
|
||||
return PackNum<sizeof...(Ops)-1>::mkStepTuple(ii, mOps);
|
||||
return PackNum<sizeof...(Ops)-1>::mkStepTuple(iPtrNum, mOps);
|
||||
}
|
||||
|
||||
template <typename T, class OpFunction, class... Ops>
|
||||
template <class Expr>
|
||||
auto Operation<T,OpFunction,Ops...>::loop(Expr&& exp) const
|
||||
-> decltype(PackNum<sizeof...(Ops)-1>::mkLoop( mOps, std::forward<Expr>( exp ) ))&&
|
||||
{
|
||||
typedef decltype(PackNum<sizeof...(Ops)-1>::mkLoop( mOps, std::forward<Expr>( exp ) ) )
|
||||
LType;
|
||||
return std::forward<LType>
|
||||
( PackNum<sizeof...(Ops)-1>::mkLoop( mOps, std::forward<Expr>( exp ) ) );
|
||||
}
|
||||
|
||||
|
||||
|
|
@ -721,6 +905,14 @@ namespace MultiArrayTools
|
|||
return mRes;
|
||||
}
|
||||
|
||||
// forward loop !!!!
|
||||
template <typename T, class Op, class IndexType>
|
||||
template <class ET, size_t SITE>
|
||||
inline T&& Contraction<T,Op,IndexType>::get(const ET& pos) const
|
||||
{
|
||||
return std::forward<T>( mOp.template get<SITE>(pos) );
|
||||
}
|
||||
|
||||
template <typename T, class Op, class IndexType>
|
||||
std::vector<BTSS> Contraction<T,Op,IndexType>::block(const IndexInfo* blockIndex, bool init) const
|
||||
{
|
||||
|
|
@ -737,10 +929,19 @@ namespace MultiArrayTools
|
|||
}
|
||||
|
||||
template <typename T, class Op, class IndexType>
|
||||
auto Contraction<T,Op,IndexType>::rootSteps(const IndexInfo* ii) const
|
||||
-> decltype(mOp.rootSteps(ii))
|
||||
auto Contraction<T,Op,IndexType>::rootSteps(std::intptr_t iPtrNum) const
|
||||
-> decltype(mOp.rootSteps(iPtrNum))
|
||||
{
|
||||
return mOp.rootSteps(ii);
|
||||
return mOp.rootSteps(iPtrNum);
|
||||
}
|
||||
|
||||
template <typename T, class Op, class IndexType>
|
||||
template <class Expr>
|
||||
auto Contraction<T,Op,IndexType>::loop(Expr&& exp) const -> decltype(mInd->ifor(exp))&&
|
||||
{
|
||||
typedef decltype(mInd->ifor(exp)) LType;
|
||||
LType&& loop = mInd->ifor(exp);
|
||||
return std::forward<LType>( loop );
|
||||
}
|
||||
|
||||
}
|
||||
|
|
|
|||
|
|
@ -51,7 +51,7 @@ namespace MultiArrayHelper
|
|||
}
|
||||
|
||||
template <class... Ops>
|
||||
static auto mkStepTuple(const IndexInfo* ii, std::tuple<Ops const&...> otp)
|
||||
static auto mkStepTuple(std::intptr_t ii, std::tuple<Ops const&...> otp)
|
||||
-> decltype(std::tuple_cat( PackNum<N-1>::mkStepTuple(ii, otp), std::get<N>(otp).rootSteps(ii) ))
|
||||
{
|
||||
return std::tuple_cat( PackNum<N-1>::mkStepTuple(ii, otp), std::get<N>(otp).rootSteps(ii) );
|
||||
|
|
@ -65,6 +65,23 @@ namespace MultiArrayHelper
|
|||
std::get<N>(out) = second.rootSteps( std::get<N>(siar) );
|
||||
PackNum<N-1>::mkExt(out, siar, second);
|
||||
}
|
||||
|
||||
// call with -2 (instead of -1)
|
||||
template <typename T, class ETuple, class OpTuple, class OpFunction, size_t START>
|
||||
static T&& mkOpExpr(const ETuple& pos, const OpTuple& ops)
|
||||
{
|
||||
static const size_t NEXT = START - std::tuple_element<N+1,OpTuple>::type::SIZE;
|
||||
return std::forward<T>
|
||||
( OpFunction::apply( std::get<N+1>(ops).template get<START>(pos),
|
||||
PackNum<N-1>::template mkOpExpr<ETuple,OpTuple,OpFunction,NEXT>(pos, ops) ) );
|
||||
}
|
||||
|
||||
template <class OpTuple, class Expr>
|
||||
static auto mkLoop( const OpTuple& ot, Expr&& exp )
|
||||
-> decltype(std::get<N>(ot).loop( PackNum<N-1>::mkLoop(ot,exp) ))&&
|
||||
{
|
||||
return std::get<N>(ot).loop( PackNum<N-1>::mkLoop(ot,exp) );
|
||||
}
|
||||
};
|
||||
|
||||
template<>
|
||||
|
|
@ -105,7 +122,7 @@ namespace MultiArrayHelper
|
|||
}
|
||||
|
||||
template <class... Ops>
|
||||
static auto mkStepTuple(const IndexInfo* ii, std::tuple<Ops const&...> otp)
|
||||
static auto mkStepTuple(std::intptr_t ii, std::tuple<Ops const&...> otp)
|
||||
-> decltype(std::get<0>(otp).rootSteps(ii))
|
||||
{
|
||||
return std::get<0>(otp).rootSteps(ii);
|
||||
|
|
@ -119,6 +136,23 @@ namespace MultiArrayHelper
|
|||
std::get<0>(out) = second.rootSteps( std::get<0>(siar) );
|
||||
}
|
||||
|
||||
template <typename T, class ETuple, class OpTuple, class OpFunction, size_t START>
|
||||
static T&& mkOpExpr(const ETuple& pos, const OpTuple& ops)
|
||||
{
|
||||
static const size_t NEXT = START - std::tuple_element<1,OpTuple>::type::SIZE;
|
||||
return std::forward<T>
|
||||
( OpFunction::apply( std::get<1>(ops).template get<START>(pos),
|
||||
std::get<0>(ops).template get<NEXT>(pos) ) );
|
||||
}
|
||||
|
||||
template <class OpTuple, class Expr>
|
||||
static auto mkLoop( const OpTuple& ot, Expr&& exp )
|
||||
-> decltype(std::get<0>(ot).loop( exp ))&&
|
||||
{
|
||||
return std::get<0>(ot).loop( exp );
|
||||
}
|
||||
|
||||
|
||||
};
|
||||
|
||||
|
||||
|
|
|
|||
|
|
@ -254,7 +254,7 @@ namespace MultiArrayTools
|
|||
-> For<SingleIndex<U,TYPE>,Expr>
|
||||
{
|
||||
//static const size_t LAYER = typename Expr::LAYER;
|
||||
return For<SingleIndex<U,TYPE>,Expr>(this, ex);
|
||||
return For<SingleIndex<U,TYPE>,Expr>(this, std::forward<Expr>( ex ));
|
||||
}
|
||||
|
||||
|
||||
|
|
|
|||
|
|
@ -66,12 +66,14 @@ namespace MultiArrayHelper
|
|||
template <class IndexClass, class Expr>
|
||||
For<IndexClass,Expr>::For(const std::shared_ptr<IndexClass>& indPtr,
|
||||
Expr&& expr) :
|
||||
mIndPtr(indPtr.get()), mExpr(expr), mExt(expr.rootSteps( static_cast<std::intptr_t>( mIndPtr.get() ))) {}
|
||||
mIndPtr(indPtr.get()), mExpr(expr),
|
||||
mExt(expr.rootSteps( reinterpret_cast<std::intptr_t>( mIndPtr.get() ))) {}
|
||||
|
||||
template <class IndexClass, class Expr>
|
||||
For<IndexClass,Expr>::For(const IndexClass* indPtr,
|
||||
Expr&& expr) :
|
||||
mIndPtr(indPtr), mExpr(expr), mExt(expr.rootSteps( static_cast<std::intptr_t>( mIndPtr ) )) {}
|
||||
mIndPtr(indPtr), mExpr(std::forward<Expr>( expr )),
|
||||
mExt(expr.rootSteps( reinterpret_cast<std::intptr_t>( mIndPtr ) )) {}
|
||||
|
||||
template <class IndexClass, class Expr>
|
||||
inline void For<IndexClass,Expr>::operator()(size_t mlast,
|
||||
|
|
|
|||
Loading…
Reference in a new issue