enable multi threading
This commit is contained in:
Christian Zimmermann
parent
a1d843c01b
commit
6d1682efa2
12 changed files with 148 additions and 38 deletions
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@ -287,6 +287,15 @@ namespace MultiArrayTools
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(step, mIPack, mBlockSizes, OpExpr<MapF,IndexPack,Exprs>
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( range()->map(), mIPack, mOutIndex, step, exs ) );
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}
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template <class MapF, class... Indices>
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template <class Exprs>
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auto MapIndex<MapF,Indices...>::pifor(size_t step, Exprs exs) const
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-> decltype(ifor(step, exs))
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{
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return ifor(step, exs);
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}
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/*
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template <class MapF, class... Indices>
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template <class Exprs>
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@ -92,7 +92,8 @@ namespace MultiArrayTools
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static constexpr size_t totalDim() { return mkTotalDim<Indices...>(); }
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static constexpr SpaceType STYPE = SpaceType::ANY;
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static constexpr bool PARALLEL = false;
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private:
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IndexPack mIPack;
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@ -170,7 +171,11 @@ namespace MultiArrayTools
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-> decltype(RPackNum<sizeof...(Indices)-1>::mkForh
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(step, mIPack, mBlockSizes, OpExpr<MapF,IndexPack,Exprs>( range()->map(), mIPack, mOutIndex, step, exs ) ) );
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// first step arg not used!
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template <class Exprs>
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auto pifor(size_t step, Exprs exs) const
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-> decltype(ifor(step, exs)); // NO MULTITHREADING
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/*
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template <class Exprs>
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auto iforh(Exprs exs) const
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@ -139,9 +139,9 @@ namespace MultiArrayTools
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template <typename T, class AOp, class OpClass, class... Ranges>
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OperationMaster<T,AOp,OpClass,Ranges...>::
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OperationMaster(MutableMultiArrayBase<T,Ranges...>& ma, const OpClass& second,
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IndexType& index) :
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IndexType& index, bool doParallel) :
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mSecond(second), mDataPtr(ma.data()),
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mIndex(index)
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mIndex(index), mDoParallel(doParallel)
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{
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performAssignment(0);
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}
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@ -149,9 +149,9 @@ namespace MultiArrayTools
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template <typename T, class AOp, class OpClass, class... Ranges>
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OperationMaster<T,AOp,OpClass,Ranges...>::
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OperationMaster(T* data, const OpClass& second,
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IndexType& index) :
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IndexType& index, bool doParallel) :
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mSecond(second), mDataPtr(data),
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mIndex(index)
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mIndex(index), mDoParallel(doParallel)
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{
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performAssignment(0);
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}
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@ -160,8 +160,14 @@ namespace MultiArrayTools
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void OperationMaster<T,AOp,OpClass,Ranges...>::performAssignment(std::intptr_t blockIndexNum)
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{
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AssignmentExpr ae(*this, mSecond); // Expression to be executed within loop
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const auto loop = mIndex.ifor( 1, mSecond.loop(ae) );
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loop(); // execute overall loop(s) and so internal hidden loops and so the inherited expressions
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if(mDoParallel){
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const auto ploop = mIndex.pifor( 1, mSecond.loop(ae) );
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ploop(); // execute overall loop(s) and so internal hidden loops and so the inherited expressions
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}
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else {
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const auto loop = mIndex.ifor( 1, mSecond.loop(ae) );
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loop(); // execute overall loop(s) and so internal hidden loops and so the inherited expressions
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}
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}
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template <typename T, class AOp, class OpClass, class... Ranges>
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@ -355,14 +361,14 @@ namespace MultiArrayTools
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template <class OpClass>
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OperationMaster<T,SelfIdentity<T>,OpClass,Ranges...> OperationRoot<T,Ranges...>::operator=(const OpClass& in)
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{
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return OperationMaster<T,SelfIdentity<T>,OpClass,Ranges...>(mDataPtr, in, mIndex);
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return OperationMaster<T,SelfIdentity<T>,OpClass,Ranges...>(mDataPtr, in, mIndex, mDoParallel);
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}
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template <typename T, class... Ranges>
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template <class OpClass>
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OperationMaster<T,plus<T>,OpClass,Ranges...> OperationRoot<T,Ranges...>::operator+=(const OpClass& in)
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{
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return OperationMaster<T,plus<T>,OpClass,Ranges...>(mDataPtr, in, mIndex);
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return OperationMaster<T,plus<T>,OpClass,Ranges...>(mDataPtr, in, mIndex, mDoParallel);
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}
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template <typename T, class... Ranges>
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@ -371,6 +377,13 @@ namespace MultiArrayTools
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{
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return operator=<OperationRoot<T,Ranges...> >(in);
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}
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template <typename T, class... Ranges>
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OperationRoot<T,Ranges...>& OperationRoot<T,Ranges...>::par()
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{
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mDoParallel = true;
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return *this;
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}
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template <typename T, class... Ranges>
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template <class ET>
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@ -96,7 +96,7 @@ namespace MultiArrayTools
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return b;
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}
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};
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template <typename T, class AOp, class OpClass, class... Ranges>
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class OperationMaster
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{
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@ -135,10 +135,10 @@ namespace MultiArrayTools
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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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IndexType& index, bool doParallel = false);
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OperationMaster(T* data, const OpClass& second,
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IndexType& index);
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IndexType& index, bool doParallel = false);
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inline void set(size_t pos, T val) { mDataPtr[pos] = AOp::apply(mDataPtr[pos],val); }
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@ -152,6 +152,7 @@ namespace MultiArrayTools
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//MutableMultiArrayBase<T,Ranges...>& mArrayRef;
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T* mDataPtr;
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IndexType mIndex;
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bool mDoParallel;
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};
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@ -291,7 +292,9 @@ namespace MultiArrayTools
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OperationMaster<T,plus<T>,OpClass,Ranges...> operator+=(const OpClass& in);
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OperationMaster<T,SelfIdentity<T>,OperationRoot,Ranges...> operator=(const OperationRoot& in);
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OperationRoot& par();
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template <class ET>
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inline T get(ET pos) const;
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@ -315,6 +318,7 @@ namespace MultiArrayTools
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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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bool mDoParallel = false;
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};
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template <typename T>
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@ -33,7 +33,8 @@ namespace MultiArrayTools
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static constexpr size_t totalDim() { return mkTotalDim<Indices...>(); }
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static constexpr SpaceType STYPE = SpaceType::ANY;
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static constexpr bool PARALLEL = std::tuple_element<0,std::tuple<Indices...>>::type::PARALLEL;
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template <typename X>
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using CIX = ContainerIndex<X,Indices...>;
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@ -155,6 +156,10 @@ namespace MultiArrayTools
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auto iforh(size_t step, Exprs exs) const
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-> decltype(RPackNum<sizeof...(Indices)-1>::mkForh(step, mIPack, mBlockSizes, exs));
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template <class Exprs>
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auto pifor(size_t step, Exprs exs) const
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-> decltype(RPackNum<sizeof...(Indices)-1>::mkPFor(step, mIPack, mBlockSizes, exs));
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std::intptr_t container() const;
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ContainerIndex& format(const std::array<size_t,sizeof...(Indices)+1>& blocks);
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@ -511,6 +516,14 @@ namespace MultiArrayTools
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return RPackNum<sizeof...(Indices)-1>::mkForh(step, mIPack, mBlockSizes, exs);
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}
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template <typename T, class... Indices>
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template <class Exprs>
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auto ContainerIndex<T,Indices...>::pifor(size_t step, Exprs exs) const
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-> decltype(RPackNum<sizeof...(Indices)-1>::mkPFor(step, mIPack, mBlockSizes, exs))
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{
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return RPackNum<sizeof...(Indices)-1>::mkPFor(step, mIPack, mBlockSizes, exs);
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}
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template <typename T, class... Indices>
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std::intptr_t ContainerIndex<T,Indices...>::container() const
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{
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@ -425,6 +425,13 @@ namespace MultiArrayTools
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}
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}
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template <class EC>
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template <class Expr>
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ExpressionHolder<Expr> DynamicIndex<EC>::pifor(size_t step, Expr ex) const
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{
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return ifor(step, ex); // no multithreading here at the moment...
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}
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/***********************
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* DynamicRange *
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***********************/
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@ -237,6 +237,9 @@ namespace MultiArrayTools
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template <class Expr>
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ExpressionHolder<Expr> iforh(size_t step, Expr ex) const;
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template <class Expr>
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ExpressionHolder<Expr> pifor(size_t step, Expr ex) const;
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};
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@ -42,7 +42,8 @@ namespace MultiArrayTools
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static constexpr size_t totalDim() { return mkTotalDim<Indices...>(); }
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static constexpr SpaceType STYPE = SpaceType::ANY;
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static constexpr bool PARALLEL = std::tuple_element<0,std::tuple<Indices...>>::type::PARALLEL;
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private:
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IndexPack mIPack;
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@ -122,6 +123,11 @@ namespace MultiArrayTools
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auto iforh(size_t step, Exprs exs) const
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-> decltype(RPackNum<sizeof...(Indices)-1>::mkForh(step, mIPack, mBlockSizes, exs));
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template <class Exprs>
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auto pifor(size_t step, Exprs exs) const
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-> decltype(RPackNum<sizeof...(Indices)-1>::mkPFor(step, mIPack, mBlockSizes, exs));
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};
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/*************************
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@ -459,6 +465,14 @@ namespace MultiArrayTools
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return RPackNum<sizeof...(Indices)-1>::mkForh(step, mIPack, mBlockSizes, exs);
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}
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template <class... Indices>
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template <class Exprs>
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auto MultiIndex<Indices...>::pifor(size_t step, Exprs exs) const
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-> decltype(RPackNum<sizeof...(Indices)-1>::mkPFor(step, mIPack, mBlockSizes, exs))
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{
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return RPackNum<sizeof...(Indices)-1>::mkPFor(step, mIPack, mBlockSizes, exs);
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}
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/*************************
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* MultiRangeFactory *
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*************************/
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@ -299,6 +299,17 @@ namespace MultiArrayHelper
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->iforh( step*std::get<NN+1>(ba), RPackNum<N-1>::mkForh(step, ipack, ba, exs) );
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}
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template <class IndexPack, class BlockArray, class Exprs>
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static auto mkPFor(size_t step, const IndexPack& ipack, const BlockArray& ba, Exprs exs)
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-> decltype(std::get<std::tuple_size<IndexPack>::value-N-1>(ipack)
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->pifor( 0, RPackNum<N-1>::mkFor(step, ipack, ba, exs) ) )
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{
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constexpr size_t NN = std::tuple_size<IndexPack>::value-N-1;
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return std::get<NN>(ipack)
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->pifor( step*std::get<NN+1>(ba), RPackNum<N-1>::mkFor(step, ipack, ba, exs) );
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// mkFor is correct here, because we want to multithread only the FIRST index!!
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}
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template <class Index>
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static inline void getStepSizeX(const Index& ii, std::intptr_t j, size_t& ss, size_t& sx)
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{
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@ -562,6 +573,16 @@ namespace MultiArrayHelper
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->iforh( step*std::get<NN+1>(ba), exs);
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}
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template <class IndexPack, class BlockArray, class Exprs>
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static auto mkPFor(size_t step, const IndexPack& ipack, const BlockArray& ba, Exprs exs)
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-> decltype(std::get<std::tuple_size<IndexPack>::value-1>(ipack)
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->pifor(0,exs) )
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{
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constexpr size_t NN = std::tuple_size<IndexPack>::value-1;
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return std::get<NN>(ipack)
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->pifor( step*std::get<NN+1>(ba), exs);
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}
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template <class Index>
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static inline void getStepSizeX(const Index& ii, std::intptr_t j, size_t& ss, size_t& sx)
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{
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@ -47,7 +47,8 @@ namespace MultiArrayTools
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static constexpr size_t sDim() { return 1; }
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static constexpr SpaceType STYPE = TYPE;
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static constexpr bool PARALLEL = true;
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// ==== >>>>> STATIC POLYMORPHISM <<<<< ====
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IndexType type() const;
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@ -89,6 +90,10 @@ namespace MultiArrayTools
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auto iforh(size_t step, Expr ex) const
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-> For<SingleIndex<U,TYPE>,Expr,ForType::HIDDEN>;
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template <class Expr>
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auto pifor(size_t step, Expr ex) const
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-> PFor<SingleIndex<U,TYPE>,Expr>;
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private:
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std::shared_ptr<RangeType> mExplicitRangePtr;
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const U* mMetaPtr;
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@ -428,6 +433,15 @@ namespace MultiArrayTools
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return For<SingleIndex<U,TYPE>,Expr,ForType::HIDDEN>(this, step, ex);
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}
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template <typename U, SpaceType TYPE>
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template <class Expr>
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auto SingleIndex<U,TYPE>::pifor(size_t step, Expr ex) const
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-> PFor<SingleIndex<U,TYPE>,Expr>
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{
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//static const size_t LAYER = typename Expr::LAYER;
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return PFor<SingleIndex<U,TYPE>,Expr>(this, step, ex);
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}
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/********************
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* SingleRange *
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@ -492,6 +492,7 @@ namespace MultiArrayHelper
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inline void PFor<IndexClass,Expr>::operator()(size_t mlast,
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ExtType last) const
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{
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CHECK;
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typedef typename IndexClass::RangeType RangeType;
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int pos = 0;
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size_t mnpos = 0;
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@ -511,6 +512,7 @@ namespace MultiArrayHelper
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template <class IndexClass, class Expr>
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inline void PFor<IndexClass,Expr>::operator()(size_t mlast) const
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{
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CHECK;
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typedef typename IndexClass::RangeType RangeType;
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const ExtType last;
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int pos = 0;
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@ -134,18 +134,20 @@ namespace {
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typedef MultiRangeFactory<SR,SR,SR,SR,SR,SR,SR,SR> SR8F;
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typedef SR8F::oType SR8;
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static const size_t s = 65536*1000;
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static const size_t os = 3000;
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static const size_t s = 65536*os;
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OpTest_Spin()
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{
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data.resize(s);
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for(size_t i = 0; i != s; ++i){
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double arg = static_cast<double>( i - s ) - 0.1;
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data[i] = sin(arg)/arg;
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data[i] = sin(arg);
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//VCHECK(data[i]);
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}
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SRF f;
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sr = std::dynamic_pointer_cast<SR>(f.create());
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CRF cf(1000);
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CRF cf(os);
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cr = std::dynamic_pointer_cast<CR>(cf.create());
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}
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@ -164,23 +166,24 @@ namespace {
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MultiArray<double,CR,SR,SR> res1( cr, sr, sr );
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auto ii = MAT::getIndex<CR>(cr);
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auto jj = MAT::getIndex<CR>(cr);
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auto alpha = MAT::getIndex<SR>();
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auto beta = MAT::getIndex<SR>();
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auto gamma = MAT::getIndex<SR>();
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auto delta = MAT::getIndex<SR>();
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auto deltap = MAT::getIndex<SR>();
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auto mix = MAT::mkMIndex( alpha, beta, gamma );
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auto mix = MAT::mkMIndex( alpha, beta, gamma, jj );
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std::clock_t begin = std::clock();
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//for(size_t i = 0; i != 1000; ++i){
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res1(ii ,delta, deltap) += ma(ii, delta, alpha, alpha, beta, beta, gamma, gamma, deltap).c(mix);
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//for(size_t i = 0; i != os; ++i){
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res1(ii ,delta, deltap).par() += ma(ii, delta, alpha, alpha, beta, beta, gamma, gamma, deltap).c(mix);
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//}
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std::clock_t end = std::clock();
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std::cout << "MultiArray time: " << static_cast<double>( end - begin ) / CLOCKS_PER_SEC
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<< std::endl;
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std::vector<double> vres(4*4*1000);
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std::vector<double> vres(4*4*os);
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for(size_t d = 0; d != 4; ++d){
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for(size_t p = 0; p != 4; ++p){
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const size_t tidx = d*4 + p;
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@ -188,20 +191,22 @@ namespace {
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}
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}
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std::clock_t begin2 = std::clock();
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for(size_t i = 0; i != 1000; ++i){
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for(size_t a = 0; a != 4; ++a){
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for(size_t b = 0; b != 4; ++b){
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for(size_t c = 0; c != 4; ++c){
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for(size_t d = 0; d != 4; ++d){
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for(size_t p = 0; p != 4; ++p){
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const size_t tidx = i*4*4 + d*4 + p;
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const size_t sidx = i*65536 + d*4*4*4*4*4*4*4 + a*5*4*4*4*4*4 + b*5*4*4*4 + c*5*4 + p;
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vres[tidx] += data[sidx];
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}
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}
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}
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}
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}
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for(size_t j = 0; j != os; ++j) {
|
||||
for(size_t i = 0; i != os; ++i){
|
||||
for(size_t a = 0; a != 4; ++a){
|
||||
for(size_t b = 0; b != 4; ++b){
|
||||
for(size_t c = 0; c != 4; ++c){
|
||||
for(size_t d = 0; d != 4; ++d){
|
||||
for(size_t p = 0; p != 4; ++p){
|
||||
const size_t tidx = i*4*4 + d*4 + p;
|
||||
const size_t sidx = i*65536 + d*4*4*4*4*4*4*4 + a*5*4*4*4*4*4 + b*5*4*4*4 + c*5*4 + p;
|
||||
vres[tidx] += data[sidx];
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
std::clock_t end2 = std::clock();
|
||||
|
||||
|
|
|
|||
Loading…
Reference in a new issue