+exttype (xfor_devel) ; remove references ; TODO : rootSteps problem

2018-02-12 00:11:24 +01:00 · 2018-02-12 00:11:24 +01:00 · 203db8253a
commit 203db8253a
parent 5c96e47f69
8 changed files with 240 additions and 131 deletions
--- a/src/multi_array_operation.h
+++ b/src/multi_array_operation.h
@ -95,19 +95,20 @@ namespace MultiArrayTools
 	public:
 	    static size_t layer() { return 0; }
-	    static const size_t LAYER = 0;
+	    static constexpr size_t LAYER = 0;
-	    static const size_t SIZE = OpClass::SIZE;
+	    static constexpr size_t SIZE = OpClass::SIZE;
-	    typedef decltype(mSec.rootSteps()) ETuple;
+	    typedef decltype(mSec.rootSteps()) ExtType;
 	    AssignmentExpr(OperationMaster& m, const OpClass& sec);
 	    AssignmentExpr(const AssignmentExpr& in) = default;
 	    AssignmentExpr(AssignmentExpr&& in) = default;
 	    //AssignmentExpr& operator=(const AssignmentExpr&& in) = default;
-	    //inline void operator()(size_t start = 0);
+	    inline void operator()(size_t start = 0);
-	    inline void operator()(size_t start, const ETuple& last);
+	    inline void operator()(size_t start, ExtType last);
-	    ETuple rootSteps(std::intptr_t iPtrNum = 0);
+	    auto rootSteps(std::intptr_t iPtrNum = 0) -> ExtType;
 	};
@ -178,7 +179,7 @@ namespace MultiArrayTools
 	std::tuple<size_t> rootSteps(std::intptr_t iPtrNum = 0) const; // nullptr for simple usage with decltype
 	template <class Expr>
-	Expr&& loop(Expr&& exp) const;
+	Expr loop(Expr exp) const;
    private:
@ -230,7 +231,7 @@ namespace MultiArrayTools
 	std::tuple<size_t> rootSteps(std::intptr_t iPtrNum = 0) const; // nullptr for simple usage with decltype
 	template <class Expr>
-	Expr&& loop(Expr&& exp) const;
+	Expr loop(Expr exp) const;
    private:
@ -322,8 +323,8 @@ namespace MultiArrayTools
 	    -> decltype(PackNum<sizeof...(Ops)-1>::mkStepTuple(iPtrNum, mOps));
 	template <class Expr>
-	auto loop(Expr&& exp) const
+	auto loop(Expr exp) const
-	    -> decltype(PackNum<sizeof...(Ops)-1>::mkLoop( mOps, std::forward<Expr>( exp ) ))&&;
+	    -> decltype(PackNum<sizeof...(Ops)-1>::mkLoop( mOps, exp));
    };
@ -488,13 +489,13 @@ namespace MultiArrayTools
    template <typename T, class OpClass, class... Ranges>
    inline void OperationMaster<T,OpClass,Ranges...>::AssignmentExpr::
-    operator()(size_t start, const ETuple& last)
+    operator()(size_t start, ExtType last)
    {
-	mM.get(start) = mSec.template get<ETuple,OpClass::SIZE-1>(last);
+	mM.get(start) = mSec.template get<ExtType,OpClass::SIZE-1>(last);
    }
    template <typename T, class OpClass, class... Ranges>
-    typename OperationMaster<T,OpClass,Ranges...>::AssignmentExpr::ETuple
+    typename OperationMaster<T,OpClass,Ranges...>::AssignmentExpr::ExtType
    OperationMaster<T,OpClass,Ranges...>::AssignmentExpr::
    rootSteps(std::intptr_t iPtrNum)
    {
@ -681,9 +682,9 @@ namespace MultiArrayTools
    template <typename T, class... Ranges>
    template <class Expr>
-    Expr&& ConstOperationRoot<T,Ranges...>::loop(Expr&& exp) const
+    Expr ConstOperationRoot<T,Ranges...>::loop(Expr exp) const
    {
-	return std::forward<Expr>(exp);
+	return exp;
    }
    /***********************
@ -784,9 +785,9 @@ namespace MultiArrayTools
    template <typename T, class... Ranges>
    template <class Expr>
-    Expr&& OperationRoot<T,Ranges...>::loop(Expr&& exp) const
+    Expr OperationRoot<T,Ranges...>::loop(Expr exp) const
    {
-	return std::forward<Expr>(exp);
+	return exp;
    }
    /*******************
@ -842,13 +843,10 @@ namespace MultiArrayTools
    template <typename T, class OpFunction, class... Ops>
    template <class Expr>
-    auto Operation<T,OpFunction,Ops...>::loop(Expr&& exp) const
+    auto Operation<T,OpFunction,Ops...>::loop(Expr exp) const
-	-> decltype(PackNum<sizeof...(Ops)-1>::mkLoop( mOps, std::forward<Expr>( exp ) ))&&
+	-> decltype(PackNum<sizeof...(Ops)-1>::mkLoop( mOps, exp ))
    {
-	typedef decltype(PackNum<sizeof...(Ops)-1>::mkLoop( mOps, std::forward<Expr>( exp ) ) )
+	return PackNum<sizeof...(Ops)-1>::mkLoop( mOps, exp );
 	    LType;
 	return std::forward<LType>
 	    ( PackNum<sizeof...(Ops)-1>::mkLoop( mOps, std::forward<Expr>( exp ) ) );
    }
@ -904,11 +902,9 @@ namespace MultiArrayTools
    template <typename T, class Op, class IndexType>
    template <class Expr>
-    auto Contraction<T,Op,IndexType>::loop(Expr&& exp) const -> decltype(mInd->iforh(exp))&&
+    auto Contraction<T,Op,IndexType>::loop(Expr exp) const -> decltype(mInd->iforh(exp))
    {
-	typedef decltype(mInd->iforh(exp)) LType;
+	return mInd->iforh(exp);
 	LType&& loop = mInd->iforh(exp);
 	return std::forward<LType>( loop );
    }
 }
--- a/src/ranges/container_range.h
+++ b/src/ranges/container_range.h
@ -90,11 +90,11 @@ namespace MultiArrayTools
 	void print(size_t offset);
 	template <class Exprs>
-	auto ifor(Exprs&& exs) const
+	auto ifor(Exprs exs) const
 	    -> decltype(RPackNum<sizeof...(Indices)-1>::mkFor(mIPack, exs));
 	template <class Exprs>
-	auto iforh(Exprs&& exs) const
+	auto iforh(Exprs exs) const
 	    -> decltype(RPackNum<sizeof...(Indices)-1>::mkForh(mIPack, exs));
    };
@ -377,7 +377,7 @@ namespace MultiArrayTools
    template <class... Indices>
    template <class Exprs>
-    auto ContainerIndex<Indices...>::ifor(Exprs&& exs) const
+    auto ContainerIndex<Indices...>::ifor(Exprs exs) const
 	-> decltype(RPackNum<sizeof...(Indices)-1>::mkFor(mIPack, exs))
    {
 	return RPackNum<sizeof...(Indices)-1>::mkFor(mIPack, exs);
@ -385,7 +385,7 @@ namespace MultiArrayTools
    template <class... Indices>
    template <class Exprs>
-    auto ContainerIndex<Indices...>::iforh(Exprs&& exs) const
+    auto ContainerIndex<Indices...>::iforh(Exprs exs) const
 	-> decltype(RPackNum<sizeof...(Indices)-1>::mkForh(mIPack, exs))
    {
 	return RPackNum<sizeof...(Indices)-1>::mkForh(mIPack, exs);
--- a/src/ranges/multi_range.h
+++ b/src/ranges/multi_range.h
@ -106,11 +106,11 @@ namespace MultiArrayTools
 	void print(size_t offset);
 	template <class Exprs>
-	auto ifor(Exprs&& exs) const
+	auto ifor(Exprs exs) const
 	    -> decltype(RPackNum<sizeof...(Indices)-1>::mkFor(mIPack, exs));
 	template <class Exprs>
-	auto iforh(Exprs&& exs) const
+	auto iforh(Exprs exs) const
 	    -> decltype(RPackNum<sizeof...(Indices)-1>::mkForh(mIPack, exs));
    };
@ -422,7 +422,7 @@ namespace MultiArrayTools
    template <class... Indices>
    template <class Exprs>
-    auto MultiIndex<Indices...>::ifor(Exprs&& exs) const
+    auto MultiIndex<Indices...>::ifor(Exprs exs) const
 	-> decltype(RPackNum<sizeof...(Indices)-1>::mkFor(mIPack, exs))
    {
 	return RPackNum<sizeof...(Indices)-1>::mkFor(mIPack, exs);
@ -430,7 +430,7 @@ namespace MultiArrayTools
    template <class... Indices>
    template <class Exprs>
-    auto MultiIndex<Indices...>::iforh(Exprs&& exs) const
+    auto MultiIndex<Indices...>::iforh(Exprs exs) const
 	-> decltype(RPackNum<sizeof...(Indices)-1>::mkForh(mIPack, exs))
    {
 	return RPackNum<sizeof...(Indices)-1>::mkForh(mIPack, exs);
--- a/src/ranges/rpack_num.h
+++ b/src/ranges/rpack_num.h
@ -234,7 +234,7 @@ namespace MultiArrayHelper
 	}
 	template <class IndexPack, class Exprs>
-	static auto mkFor(const IndexPack& ipack, Exprs&& exs)
+	static auto mkFor(const IndexPack& ipack, Exprs exs)
 	    -> decltype(std::get<std::tuple_size<IndexPack>::value-N-1>(ipack)
 			->ifor( RPackNum<N-1>::mkFor(ipack, exs) ) )
 	{
@ -243,7 +243,7 @@ namespace MultiArrayHelper
 	}
 	template <class IndexPack, class Exprs>
-	static auto mkForh(const IndexPack& ipack, Exprs&& exs)
+	static auto mkForh(const IndexPack& ipack, Exprs exs)
 	    -> decltype(std::get<std::tuple_size<IndexPack>::value-N-1>(ipack)
 			->iforh( RPackNum<N-1>::mkForh(ipack, exs) ) )
 	{
@ -415,7 +415,7 @@ namespace MultiArrayHelper
 	}
 	template <class IndexPack, class Exprs>
-	static auto mkFor(const IndexPack& ipack, Exprs&& exs)
+	static auto mkFor(const IndexPack& ipack, Exprs exs)
 	    -> decltype(std::get<std::tuple_size<IndexPack>::value-1>(ipack)
 			->ifor(exs) )
 	{
@ -423,7 +423,7 @@ namespace MultiArrayHelper
 	}
 	template <class IndexPack, class Exprs>
-	static auto mkForh(const IndexPack& ipack, Exprs&& exs)
+	static auto mkForh(const IndexPack& ipack, Exprs exs)
 	    -> decltype(std::get<std::tuple_size<IndexPack>::value-1>(ipack)
 			->iforh(exs) )
 	{
--- a/src/ranges/single_range.h
+++ b/src/ranges/single_range.h
@ -66,11 +66,11 @@ namespace MultiArrayTools
 	void print(size_t offset);
 	template <class Expr>
-	auto ifor(Expr&& ex) const
+	auto ifor(Expr ex) const
 	    -> For<SingleIndex<U,TYPE>,Expr>;
 	template <class Expr>
-	auto iforh(Expr&& ex) const
+	auto iforh(Expr ex) const
 	    -> For<SingleIndex<U,TYPE>,Expr,ForType::HIDDEN>;
    };
@ -108,7 +108,7 @@ namespace MultiArrayTools
 	friend SingleRangeFactory<U,TYPE>;
-	static const bool defaultable = false;
+	static constexpr bool defaultable = false;
    protected:
@ -255,20 +255,20 @@ namespace MultiArrayTools
    template <typename U, SpaceType TYPE>
    template <class Expr>
-    auto SingleIndex<U,TYPE>::ifor(Expr&& ex) const
+    auto SingleIndex<U,TYPE>::ifor(Expr ex) const
 	-> For<SingleIndex<U,TYPE>,Expr>
    {
 	//static const size_t LAYER = typename Expr::LAYER; 
-	return For<SingleIndex<U,TYPE>,Expr>(this, std::forward<Expr>( ex ));
+	return For<SingleIndex<U,TYPE>,Expr>(this, ex);
    }
    template <typename U, SpaceType TYPE>
    template <class Expr>
-    auto SingleIndex<U,TYPE>::iforh(Expr&& ex) const
+    auto SingleIndex<U,TYPE>::iforh(Expr ex) const
 	-> For<SingleIndex<U,TYPE>,Expr,ForType::HIDDEN>
    {
 	//static const size_t LAYER = typename Expr::LAYER; 
-	return For<SingleIndex<U,TYPE>,Expr,ForType::HIDDEN>(this, std::forward<Expr>( ex ));
+	return For<SingleIndex<U,TYPE>,Expr,ForType::HIDDEN>(this, ex);
    }
--- a/src/xfor/exttype.h
+++ b/src/xfor/exttype.h
@ -0,0 +1,178 @@
 #ifndef __exttype_h__
 #define __exttype_h__
 #include <array>
 namespace XFOR
 {
    template <class X>
    class MExt
    {
    private:
 	size_t mExt = 0u;
 	X mNext;
    public:
 	static constexpr size_t NUM = X::NUM + 1;
 	MExt() = default;
 	MExt(const MExt& in) = default;
 	MExt& operator=(const MExt& in) = default;
 	MExt(MExt&& in) = default;
 	MExt& operator=(MExt&& in) = default;
 	inline MExt(size_t ext, X next);
 	template <size_t N>
 	inline MExt(const std::array<size_t,N>& arr);
 	inline size_t val() const;
 	inline const X& next() const;
 	inline MExt operator+(const MExt& in) const;
 	inline MExt operator*(size_t in) const;
    };    
    template <>
    class MExt<void>
    {
    private:
 	size_t mExt = 0u;
    public:
 	static constexpr size_t NUM = 0;
 	MExt() = default;
 	MExt(const MExt& in) = default;
 	MExt& operator=(const MExt& in) = default;
 	MExt(MExt&& in) = default;
 	MExt& operator=(MExt&& in) = default;
 	inline MExt(size_t ext);
 	template <size_t N>
 	inline MExt(const std::array<size_t,N>& arr);
 	inline size_t val() const;
 	inline MExt operator+(const MExt& in) const;
 	inline MExt operator*(size_t in) const;
    };    
    template <size_t I>
    struct Getter
    {
 	template <class ExtType>
 	static inline size_t get(const ExtType& et)
 	{
 	    return Getter<I-1>::get(et.next());
 	}
 	template <class ExtType>
 	static inline auto getX(const ExtType& et)
 	    -> decltype(Getter<I-1>::get(et.next()))
 	{
 	    return Getter<I-1>::getX(et.next());
 	}	
    };
    template <>
    struct Getter<0>
    {
 	template <class ExtType>
 	static inline size_t get(const ExtType& et)
 	{
 	    return et.get();
 	}
 	template <class ExtType>
 	static inline auto getX(const ExtType& et)
 	    -> decltype(et.next())
 	{
 	    return et.next();
 	}	
    };
 } // end namespace XFOR
 /* ========================= *
 * ---   TEMPLATE CODE   --- *
 * ========================= */
 namespace XFOR
 {
    template <class X>
    inline MExt<X>::MExt(size_t ext, X next) : mExt(ext), mNext(next) {}
    template <class X>
    template <size_t N>
    inline MExt<X>::MExt(const std::array<size_t,N>& arr) :
 	mExt(std::get<NUM>(arr)), mNext(arr) {}
    template <class X>
    inline size_t MExt<X>::val() const
    {
 	return mExt;
    }
    template <class X>
    inline const X& MExt<X>::next() const
    {
 	return mNext;
    }
    template <class X>
    inline MExt<X> MExt<X>::operator+(const MExt<X>& in) const
    {
 	return MExt<X>(mExt + in.val(), mNext + in.next());
    }
    template <class X>
    inline MExt<X> MExt<X>::operator*(size_t in) const
    {
 	return MExt<X>(mExt * in, mNext * in);
    }
    //template <>
    inline MExt<void>::MExt(size_t ext) : mExt(ext) {}
    //template <>
    template <size_t N>
    inline MExt<void>::MExt(const std::array<size_t,N>& arr) :
 	mExt(std::get<NUM>(arr)) {}
    //template <>
    inline size_t MExt<void>::val() const
    {
 	return mExt;
    }
    //template <>
    inline MExt<void> MExt<void>::operator+(const MExt<void>& in) const
    {
 	return MExt<void>(mExt + in.val());
    }
    //template <>
    inline MExt<void> MExt<void>::operator*(size_t in) const
    {
 	return MExt<void>(mExt * in);
    }
 } // end namespace XFOR
 #endif
--- a/src/xfor/for_params.h
+++ b/src/xfor/for_params.h
@ -1,63 +0,0 @@
 #ifndef __for_params_h__
 #define __for_params_h__
 namespace MultiArrayHelper
 {
    template <typename P>
    class ForParam
    {
    private:
 	size_t mVal;
 	P mNext;
    public:
 	ForParam(const ForParam& last, const ForParam& ext, size_t pos);
 	inline const P& next() const;
 	inline const size_t& val() const;
    };
    template <>
    class ForParam<void>
    {
    private:
 	size_t mVal;
    public:
 	ForParam(const ForParam& last, const ForParam& ext, size_t pos);
 	inline const size_t& val() const;
    };
    template <typename P>
    ForParam<P>::ForParam(const ForParam& last, const ForParam& ext, size_t pos) :
 	mVal(last.val() + pos * ext.val()), mNext(last.next(), ext.next(), pos) {}
    template <>
    ForParam<void>::ForParam(const ForParam& last, const ForParam& ext, size_t pos) :
 	mVal(last.val() + pos * ext.val()) {}
    template <typename P>
    inline const P& ForParam<P>::next() const
    {
 	return mNext;
    }
    template <typename P>
    inline const size_t& ForParam<P>::val() const
    {
 	return mVal;
    }
    template <>
    inline const size_t& ForParam<void>::val() const
    {
 	return mVal;
    }
 } // end namespace MultiArrayHelper
 #endif
--- a/src/xfor/xfor.h
+++ b/src/xfor/xfor.h
@ -7,7 +7,7 @@
 #include <tuple>
 #include "xfor/for_utils.h"
 #include "xfor/for_type.h"
-#include "xfor/for_params.h"
+#include "xfor/exttype.h"
 namespace MultiArrayHelper
 {
@ -46,29 +46,30 @@ namespace MultiArrayHelper
 	size_t mMax;
 	Expr mExpr;
-	typedef decltype(mExpr.rootSteps()) FParType;
+	typedef decltype(mExpr.rootSteps()) ExtType;
-	FParType mExt;
+	ExtType mExt;
    public:
-	static size_t layer() { return Expr::layer() + 1; }
+	static constexpr size_t LAYER = Expr::LAYER + 1;
-	static const size_t LAYER = Expr::LAYER + 1;
+	static constexpr size_t SIZE = Expr::SIZE;
 	static const size_t SIZE = std::remove_reference<Expr>::type::SIZE;
 	For(const For& in) = default;
 	For& operator=(const For& in) = default;
 	For(For&& in) = default;
 	For& operator=(For&& in) = default;
 	For(const std::shared_ptr<IndexClass>& indPtr,
-	    Expr&& expr);
+	    Expr expr);
 	For(const IndexClass* indPtr,
-	    Expr&& expr);
+	    Expr expr);
-	inline void operator()(size_t mlast, const FParType& last) const;
+	inline void operator()(size_t mlast, ExtType last) const;
 	inline void operator()(size_t mlast = 0) const;
-	FParType rootSteps(std::intptr_t iPtrNum = 0) const;
+	auto rootSteps(std::intptr_t iPtrNum = 0) const -> ExtType;
    };
@ -92,7 +93,7 @@ namespace MultiArrayHelper
    template <class IndexClass, class Expr, ForType FT>
    For<IndexClass,Expr,FT>::For(const std::shared_ptr<IndexClass>& indPtr,
-			      Expr&& expr) :
+				 Expr expr) :
 	mIndPtr(indPtr.get()), mSPos(mIndPtr->pos()), mMax(mIndPtr->max()), mExpr(expr),
 	mExt(expr.rootSteps( reinterpret_cast<std::intptr_t>( mIndPtr.get() )))
    {
@ -103,7 +104,7 @@ namespace MultiArrayHelper
    template <class IndexClass, class Expr, ForType FT>
    For<IndexClass,Expr,FT>::For(const IndexClass* indPtr,
-			      Expr&& expr) :
+				 Expr expr) :
 	mIndPtr(indPtr), mSPos(mIndPtr->pos()), mMax(mIndPtr->max()),
 	mExpr(std::forward<Expr>( expr )),
 	mExt(expr.rootSteps( reinterpret_cast<std::intptr_t>( mIndPtr ) ))
@ -115,13 +116,11 @@ namespace MultiArrayHelper
    template <class IndexClass, class Expr, ForType FT>
    inline void For<IndexClass,Expr,FT>::operator()(size_t mlast,
-						    const FParType& last) const
+						    const ExtType last) const
    {
 	for(size_t pos = mSPos; pos != mMax; ++pos){
 	    //const size_t mnpos = mlast * max + pos;
 	    const size_t mnpos = PosForward<FT>::value(mlast, mMax, pos);
-	    //const FParType npos = std::move( XFPackNum<SIZE-1>::mkPos(pos, mExt, last) );
+	    const ExtType npos = last + mExt*pos;
 	    const FParType npos(mlast, mExt, pos);
 	    mExpr(mnpos, npos);
 	}
    }
@ -129,18 +128,17 @@ namespace MultiArrayHelper
    template <class IndexClass, class Expr, ForType FT>
    inline void For<IndexClass,Expr,FT>::operator()(size_t mlast) const
    {
-	const FParType last;
+	const ExtType last;
 	for(size_t pos = mSPos; pos != mMax; ++pos){
 	    //const size_t mnpos = mlast * max + pos;
 	    const size_t mnpos = PosForward<FT>::value(mlast, mMax, pos);
-	    //const FParType npos = std::move( XFPackNum<SIZE-1>::mkPos(pos, mExt, last) );
+	    const ExtType npos = last + mExt*pos;
 	    const FParType npos(mlast, mExt, pos);
 	    mExpr(mnpos, npos);
 	}
    }
    template <class IndexClass, class Expr, ForType FT>
-    typename For<IndexClass,Expr,FT>::FParType For<IndexClass,Expr,FT>::rootSteps(std::intptr_t iPtrNum) const
+    auto For<IndexClass,Expr,FT>::rootSteps(std::intptr_t iPtrNum) const
 	-> ExtType
    {
 	return mExpr.rootSteps(iPtrNum);
    }