173 lines
4.8 KiB
C++
173 lines
4.8 KiB
C++
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#ifndef __cxz_access_h__
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#define __cxz_access_h__
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namespace CNORXZ
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{
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namespace
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{
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using namespace CNORXZInternal;
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}
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template <class T>
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struct VType
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{
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typedef T type;
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static constexpr size_t MULT = sizeof(type)/sizeof(T);
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};
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template <>
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struct VType<double>
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{
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typedef v256 type;
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static constexpr size_t MULT = sizeof(type)/sizeof(double);
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};
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template <template <typename...> class F,typename... Ts>
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inline auto mkVFuncPtr(const std::shared_ptr<F<Ts...>>& f)
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{
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return std::shared_ptr<F<typename VType<Ts>::type...>>();
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// empty, implement corresponding constructors...!!!
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}
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template <template <typename...> class F,typename... Ts>
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inline auto mkVFunc(const F<Ts...>& f)
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{
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return F<typename VType<Ts>::type...>();
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// empty, implement corresponding constructors...!!!
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}
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template <class F>
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using VFunc = decltype(mkVFunc(std::declval<F>()));
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//template <class F>
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//using VFunc = F;
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template <typename T, class F, class... Indices>
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class OpAccess
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{
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private:
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std::tuple<std::shared_ptr<Indices>...> mInds;
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public:
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static constexpr bool ISSTATIC = false;
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template <typename Op, class ExtType>
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inline void operator()(T*& t, size_t pos, const Op& op, ExtType e)
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{
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F::selfApply(t[pos](mInds), op.get(e)); // s.th. like that
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// TODO for classes related to the r.h.s.:
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// forward get(e) to elements returned by get(e) until basic types are reached
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// (also same for rootSteps etc...) !!!!
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// introduce traits !!!!
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// !!!!
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}
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};
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// static polymorphism
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template <class AccessClass>
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class AccessTemplate
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{
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public:
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typedef AccessClass AC;
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AccessTemplate(const AccessTemplate& in) = default;
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AccessTemplate(AccessTemplate&& in) = default;
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AccessTemplate& operator=(const AccessTemplate& in) = default;
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AccessTemplate& operator=(AccessTemplate&& in) = default;
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AccessClass& THIS() { return static_cast<AccessClass&>(*this); }
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const AccessClass& THIS() const { return static_cast<const AccessClass&>(*this); }
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inline auto get(size_t pos);
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inline auto get(size_t pos) const;
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inline auto oget(size_t pos) const;
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template <class F, typename Op, class ExtType>
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inline void exec(size_t pos, const Op& op, ExtType e) const;
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protected:
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AccessTemplate() = default;
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};
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template <typename T>
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class PointerAccess : public AccessTemplate<PointerAccess<T>>
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{
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public:
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typedef T value_type;
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typedef T in_type;
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static constexpr size_t VSIZE = sizeof(value_type) / sizeof(in_type);
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friend class AccessTemplate<PointerAccess<T>>;
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private:
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PointerAccess() = default;
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T* mPtr = nullptr;
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T* mOrigPtr = nullptr;
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public:
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PointerAccess(T* ptr, T* origPtr) : mPtr(ptr), mOrigPtr(origPtr) {}
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PointerAccess(const PointerAccess& in) = default;
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PointerAccess(PointerAccess&& in) = default;
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PointerAccess& operator=(const PointerAccess& in) = default;
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PointerAccess& operator=(PointerAccess&& in) = default;
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T* get(size_t pos) { return mPtr+pos; }
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T* get(size_t pos) const { return mPtr+pos; }
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PointerAccess<T>& set(size_t pos) { mPtr = mOrigPtr + pos; return *this; }
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T* oget(size_t pos) const { return mOrigPtr+pos; }
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template <class F, typename Op, class ExtType>
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inline void exec(size_t pos, const Op& op, ExtType e) const
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{
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F::selfApply(*get(pos),op.get(e));
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}
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};
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template <typename T>
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class VPointerAccess : public AccessTemplate<VPointerAccess<T>>
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{
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public:
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typedef typename VType<T>::type value_type;
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typedef T in_type;
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static constexpr size_t VSIZE = sizeof(value_type) / sizeof(in_type);
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friend class AccessTemplate<VPointerAccess<T>>;
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private:
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VPointerAccess() = default;
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T* mPtr = nullptr;
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T* mOrigPtr = nullptr;
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public:
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VPointerAccess(T* ptr, T* origPtr) : mPtr(ptr), mOrigPtr(origPtr) {}
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VPointerAccess(const PointerAccess<T>& in) : mPtr(in.get(0)), mOrigPtr(in.oget(0)) {}
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VPointerAccess(const VPointerAccess& in) = default;
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VPointerAccess(VPointerAccess&& in) = default;
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VPointerAccess& operator=(const VPointerAccess& in) = default;
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VPointerAccess& operator=(VPointerAccess&& in) = default;
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value_type* get(size_t pos) { return reinterpret_cast<value_type*>(mPtr+pos); }
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value_type* get(size_t pos) const { return reinterpret_cast<value_type*>(mPtr+pos); }
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VPointerAccess<T>& set(size_t pos) { mPtr = mOrigPtr + pos; return *this; }
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value_type* oget(size_t pos) const { return reinterpret_cast<value_type*>(mOrigPtr+pos); }
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template <class F, typename Op, class ExtType>
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inline void exec(size_t pos, const Op& op, ExtType e) const
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{
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F::selfApply(*get(pos),op.template vget<value_type>(e));
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}
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};
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} // namespace CNORXZ
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#endif
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