cnorxz/src/include/expressions.h


#ifndef __expressions_h__
#define __expressions_h__

#include "ranges/dynamic_range.h"
#include "multi_array_base.h"
#include "multi_array_operation.h"
#include "xfor/xfor.h"

#define Y() ,

namespace MultiArrayTools
{

    //class Expressions1;

    template <class EC>
    using DDMA = MultiArrayBase<double,DynamicRange<EC>>;

    template <class EC>
    using DDMMA = MutableMultiArrayBase<double,DynamicRange<EC>>;

    template <class EC, class MA>
    using oo = decltype(std::declval<MA>()(std::declval<const std::shared_ptr<DynamicIndex<EC>>&>()));

    template <template <class> class OpF, class... oos>
    using OO = Operation<double,OpF<double>,oos...>;

    template <class EC, template <class> class OpF, class... MAs>
    using OX = Operation<double,OpF<double>,oo<EC,MAs>...>;

    template <class EC, class Second>
    using AEXT = typename OperationMaster<double,Second,DynamicRange<EC>>::AssignmentExpr;

    template <class EC, template <class> class OpF, class... MAs>
    using AEX = AEXT<EC,OX<EC,OpF,MAs...>>;

    template <class EC, template <class> class OpF>
    using AEX_B_MM = AEX<EC,OpF,DDMMA<EC>,DDMMA<EC>>;

    template <class EC, template <class> class OpF>
    using AEX_B_MC = AEX<EC,OpF,DDMMA<EC>,DDMA<EC>>;

    template <class EC, template <class> class OpF>
    using AEX_B_CM = AEX<EC,OpF,DDMA<EC>,DDMMA<EC>>;

    template <class EC, template <class> class OpF>
    using AEX_B_CC = AEX<EC,OpF,DDMA<EC>,DDMA<EC>>;

    /*
    template <class EC>
    class ECInterface
    {
    public:

        EC& THIS() { return static_cast<EC&>(*this); }
        const EC& THIS() const { return static_cast<EC const&>(*this); }
        
        template <class Expr>
        auto ifor(size_t step, Expr ex) const
            -> decltype(THIS().ifor(step, ex))
        {
            return THIS().ifor(step, ex);
        }

        template <class Expr>
        auto iforh(size_t step, Expr ex) const
            -> decltype(THIS().iforh(step, ex))
        {
            return THIS().iforh(step, ex);
        }
    };
    */
    template <class EC, class Index>
    std::shared_ptr<EC> makeec(const std::shared_ptr<Index>& i);

#define V_IFOR_X(Expr) \
    virtual ExpressionHolder<Expr> iforx(size_t step, ExpressionHolder<Expr> ex) const = 0; \
    virtual ExpressionHolder<Expr> iforhx(size_t step, ExpressionHolder<Expr> ex) const = 0; \
    virtual ExpressionHolder<Expr> iforxi(size_t step, Expr ex) const = 0; \
    virtual ExpressionHolder<Expr> iforhxi(size_t step, Expr ex) const = 0

#define V_IFOR_A(EC,OpF) \
    V_IFOR_X(AEX_B_MM<EC Y() OpF>); \
    V_IFOR_X(AEX_B_MC<EC Y() OpF>); \
    V_IFOR_X(AEX_B_CM<EC Y() OpF>); \
    V_IFOR_X(AEX_B_CC<EC Y() OpF>)
    

    template <class Index>
    class E1;
    
    class Expressions1 //: public ECInterface<Expressions1<X>>
    {
    public:
        typedef Expressions1 EX;

	template <class Index>
        static auto make(const std::shared_ptr<Index>& i)
            -> decltype(makeec<E1<Index>>(i))
        {
            return makeec<E1<Index>>(i);
        }
	
    private:
        V_IFOR_A(EX,plus);
        V_IFOR_A(EX,minus);
        V_IFOR_A(EX,multiplies);
        V_IFOR_A(EX,divides);

    public:
        template <class Expr>
        inline ExpressionHolder<Expr> ifor(size_t step, ExpressionHolder<Expr> ex) const;

        template <class Expr>
        inline ExpressionHolder<Expr> iforh(size_t step, ExpressionHolder<Expr> ex) const;

	template <class Expr>
        inline ExpressionHolder<Expr> ifori(size_t step, Expr ex) const;

        template <class Expr>
        inline ExpressionHolder<Expr> iforhi(size_t step, Expr ex) const;

    };

    
#define D_IFOR_X(Expr,Ind) \
    ExpressionHolder<Expr> iforx(size_t step, ExpressionHolder<Expr> ex) const \
    { return ExpressionHolder<Expr>(Ind->ifor(step, ex)); } \
    ExpressionHolder<Expr> iforhx(size_t step, ExpressionHolder<Expr> ex) const \
    { return ExpressionHolder<Expr>(Ind->iforh(step, ex)); } \
    ExpressionHolder<Expr> iforxi(size_t step, Expr ex) const \
    { return ExpressionHolder<Expr>(Ind->ifor(step, ex)); } \
    ExpressionHolder<Expr> iforhxi(size_t step, Expr ex) const \
    { return ExpressionHolder<Expr>(Ind->iforh(step, ex)); }

#define D_IFOR_A(EC,OpF,Ind) \
    D_IFOR_X(AEX_B_MM<EC Y() OpF>,Ind); \
    D_IFOR_X(AEX_B_MC<EC Y() OpF>,Ind); \
    D_IFOR_X(AEX_B_CM<EC Y() OpF>,Ind); \
    D_IFOR_X(AEX_B_CC<EC Y() OpF>,Ind)

    template <class Index>
    class E1 : public Expressions1
    {
    private:

        typedef Expressions1 EX;
        
        E1() = default;
        
        std::shared_ptr<Index> mI;

        D_IFOR_A(EX,plus,mI);
        D_IFOR_A(EX,minus,mI);
        D_IFOR_A(EX,multiplies,mI);
        D_IFOR_A(EX,divides,mI);

    public:
        E1(const E1& in) = default;
        E1(E1&& in) = default;
        E1& operator=(const E1& in) = default;
        E1& operator=(E1&& in) = default;

        E1(const std::shared_ptr<Index>& i) : mI(i) {} 
    };


} // namespace MultiArrayTools

#endif
fix dynamic ifor issue (at least it compiles...) 2018-10-30 15:06:29 +01:00
			`#ifndef __expressions_h__`
			`#define __expressions_h__`

			`#include "ranges/dynamic_range.h"`
			`#include "multi_array_base.h"`
			`#include "multi_array_operation.h"`
			`#include "xfor/xfor.h"`

			`#define Y() ,`

			`namespace MultiArrayTools`
			`{`

			`//class Expressions1;`

			`template <class EC>`
			`using DDMA = MultiArrayBase<double,DynamicRange<EC>>;`

			`template <class EC>`
			`using DDMMA = MutableMultiArrayBase<double,DynamicRange<EC>>;`

			`template <class EC, class MA>`
dynamic ranges + dynamic index operation works 2018-11-01 22:11:08 +01:00			`using oo = decltype(std::declval<MA>()(std::declval<const std::shared_ptr<DynamicIndex<EC>>&>()));`
fix dynamic ifor issue (at least it compiles...) 2018-10-30 15:06:29 +01:00
			`template <template <class> class OpF, class... oos>`
			`using OO = Operation<double,OpF<double>,oos...>;`

			`template <class EC, template <class> class OpF, class... MAs>`
			`using OX = Operation<double,OpF<double>,oo<EC,MAs>...>;`
dynamic ranges + dynamic index operation works 2018-11-01 22:11:08 +01:00
			`template <class EC, class Second>`
			`using AEXT = typename OperationMaster<double,Second,DynamicRange<EC>>::AssignmentExpr;`

			`template <class EC, template <class> class OpF, class... MAs>`
			`using AEX = AEXT<EC,OX<EC,OpF,MAs...>>;`

			`template <class EC, template <class> class OpF>`
			`using AEX_B_MM = AEX<EC,OpF,DDMMA<EC>,DDMMA<EC>>;`

			`template <class EC, template <class> class OpF>`
			`using AEX_B_MC = AEX<EC,OpF,DDMMA<EC>,DDMA<EC>>;`

			`template <class EC, template <class> class OpF>`
			`using AEX_B_CM = AEX<EC,OpF,DDMA<EC>,DDMMA<EC>>;`

			`template <class EC, template <class> class OpF>`
			`using AEX_B_CC = AEX<EC,OpF,DDMA<EC>,DDMA<EC>>;`

fix dynamic ifor issue (at least it compiles...) 2018-10-30 15:06:29 +01:00			`/*`
			`template <class EC>`
			`class ECInterface`
			`{`
			`public:`

			`EC& THIS() { return static_cast<EC&>(*this); }`
			`const EC& THIS() const { return static_cast<EC const&>(*this); }`

			`template <class Expr>`
			`auto ifor(size_t step, Expr ex) const`
			`-> decltype(THIS().ifor(step, ex))`
			`{`
			`return THIS().ifor(step, ex);`
			`}`

			`template <class Expr>`
			`auto iforh(size_t step, Expr ex) const`
			`-> decltype(THIS().iforh(step, ex))`
			`{`
			`return THIS().iforh(step, ex);`
			`}`
			`};`
			`*/`
			`template <class EC, class Index>`
dynamic ranges + dynamic index operation works 2018-11-01 22:11:08 +01:00			`std::shared_ptr<EC> makeec(const std::shared_ptr<Index>& i);`
fix dynamic ifor issue (at least it compiles...) 2018-10-30 15:06:29 +01:00
			`#define V_IFOR_X(Expr) \`
dynamic ranges + dynamic index operation works 2018-11-01 22:11:08 +01:00			`virtual ExpressionHolder<Expr> iforx(size_t step, ExpressionHolder<Expr> ex) const = 0; \`
			`virtual ExpressionHolder<Expr> iforhx(size_t step, ExpressionHolder<Expr> ex) const = 0; \`
			`virtual ExpressionHolder<Expr> iforxi(size_t step, Expr ex) const = 0; \`
			`virtual ExpressionHolder<Expr> iforhxi(size_t step, Expr ex) const = 0`

			`#define V_IFOR_A(EC,OpF) \`
			`V_IFOR_X(AEX_B_MM<EC Y() OpF>); \`
			`V_IFOR_X(AEX_B_MC<EC Y() OpF>); \`
			`V_IFOR_X(AEX_B_CM<EC Y() OpF>); \`
			`V_IFOR_X(AEX_B_CC<EC Y() OpF>)`

fix dynamic ifor issue (at least it compiles...) 2018-10-30 15:06:29 +01:00
			`template <class Index>`
			`class E1;`
dynamic ranges + dynamic index operation works 2018-11-01 22:11:08 +01:00
fix dynamic ifor issue (at least it compiles...) 2018-10-30 15:06:29 +01:00			`class Expressions1 //: public ECInterface<Expressions1<X>>`
			`{`
			`public:`
			`typedef Expressions1 EX;`
dynamic ranges + dynamic index operation works 2018-11-01 22:11:08 +01:00
			`template <class Index>`
fix dynamic ifor issue (at least it compiles...) 2018-10-30 15:06:29 +01:00			`static auto make(const std::shared_ptr<Index>& i)`
			`-> decltype(makeec<E1<Index>>(i))`
			`{`
			`return makeec<E1<Index>>(i);`
			`}`
dynamic ranges + dynamic index operation works 2018-11-01 22:11:08 +01:00
fix dynamic ifor issue (at least it compiles...) 2018-10-30 15:06:29 +01:00			`private:`
dynamic ranges + dynamic index operation works 2018-11-01 22:11:08 +01:00			`V_IFOR_A(EX,plus);`
			`V_IFOR_A(EX,minus);`
			`V_IFOR_A(EX,multiplies);`
			`V_IFOR_A(EX,divides);`
fix dynamic ifor issue (at least it compiles...) 2018-10-30 15:06:29 +01:00
			`public:`
			`template <class Expr>`
dynamic ranges + dynamic index operation works 2018-11-01 22:11:08 +01:00			`inline ExpressionHolder<Expr> ifor(size_t step, ExpressionHolder<Expr> ex) const;`
fix dynamic ifor issue (at least it compiles...) 2018-10-30 15:06:29 +01:00
			`template <class Expr>`
dynamic ranges + dynamic index operation works 2018-11-01 22:11:08 +01:00			`inline ExpressionHolder<Expr> iforh(size_t step, ExpressionHolder<Expr> ex) const;`

			`template <class Expr>`
			`inline ExpressionHolder<Expr> ifori(size_t step, Expr ex) const;`

			`template <class Expr>`
			`inline ExpressionHolder<Expr> iforhi(size_t step, Expr ex) const;`
fix dynamic ifor issue (at least it compiles...) 2018-10-30 15:06:29 +01:00
			`};`


dynamic ranges + dynamic index operation works 2018-11-01 22:11:08 +01:00			`#define D_IFOR_X(Expr,Ind) \`
			`ExpressionHolder<Expr> iforx(size_t step, ExpressionHolder<Expr> ex) const \`
fix dynamic ifor issue (at least it compiles...) 2018-10-30 15:06:29 +01:00			`{ return ExpressionHolder<Expr>(Ind->ifor(step, ex)); } \`
dynamic ranges + dynamic index operation works 2018-11-01 22:11:08 +01:00			`ExpressionHolder<Expr> iforhx(size_t step, ExpressionHolder<Expr> ex) const \`
			`{ return ExpressionHolder<Expr>(Ind->iforh(step, ex)); } \`
			`ExpressionHolder<Expr> iforxi(size_t step, Expr ex) const \`
			`{ return ExpressionHolder<Expr>(Ind->ifor(step, ex)); } \`
			`ExpressionHolder<Expr> iforhxi(size_t step, Expr ex) const \`
fix dynamic ifor issue (at least it compiles...) 2018-10-30 15:06:29 +01:00			`{ return ExpressionHolder<Expr>(Ind->iforh(step, ex)); }`
dynamic ranges + dynamic index operation works 2018-11-01 22:11:08 +01:00
			`#define D_IFOR_A(EC,OpF,Ind) \`
			`D_IFOR_X(AEX_B_MM<EC Y() OpF>,Ind); \`
			`D_IFOR_X(AEX_B_MC<EC Y() OpF>,Ind); \`
			`D_IFOR_X(AEX_B_CM<EC Y() OpF>,Ind); \`
			`D_IFOR_X(AEX_B_CC<EC Y() OpF>,Ind)`

fix dynamic ifor issue (at least it compiles...) 2018-10-30 15:06:29 +01:00			`template <class Index>`
			`class E1 : public Expressions1`
			`{`
			`private:`

			`typedef Expressions1 EX;`

			`E1() = default;`

			`std::shared_ptr<Index> mI;`

dynamic ranges + dynamic index operation works 2018-11-01 22:11:08 +01:00			`D_IFOR_A(EX,plus,mI);`
			`D_IFOR_A(EX,minus,mI);`
			`D_IFOR_A(EX,multiplies,mI);`
			`D_IFOR_A(EX,divides,mI);`
fix dynamic ifor issue (at least it compiles...) 2018-10-30 15:06:29 +01:00
			`public:`
			`E1(const E1& in) = default;`
			`E1(E1&& in) = default;`
			`E1& operator=(const E1& in) = default;`
			`E1& operator=(E1&& in) = default;`

			`E1(const std::shared_ptr<Index>& i) : mI(i) {}`
			`};`


			`} // namespace MultiArrayTools`

			`#endif`