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239 lines
8.2 KiB
239 lines
8.2 KiB
#ifndef _TYPES_H
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#define _TYPES_H
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#include <typeinfo>
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#include <cstdint>
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#include <type_traits>
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#include <string>
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#include <tuple>
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#ifdef _MSC_VER
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#define __restrict__ __restrict
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#endif
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template <class T>
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constexpr static inline bool is_vector(const T&) {
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return false;
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}
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template <class T>
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struct is_vector_impl : std::false_type {};
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template <class T>
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constexpr static bool is_vector_type = is_vector_impl<T>::value;
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namespace types {
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enum Type_t {
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AINT32, AFLOAT, ASTR, ADOUBLE, ALDOUBLE, AINT64, AINT128, AINT16, ADATE, ATIME, AINT8,
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AUINT32, AUINT64, AUINT128, AUINT16, AUINT8, ABOOL, VECTOR, NONE, ERROR
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};
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static constexpr const char* printf_str[] = { "%d", "%f", "%s", "%lf", "%Lf", "%ld", "%d", "%hi", "%s", "%s", "%c",
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"%u", "%lu", "%s", "%hu", "%hhu", "%s", "%s", "Vector<%s>", "NULL", "ERROR" };
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static constexpr const char* SQL_Type[] = { "INT", "REAL", "TEXT", "DOUBLE", "DOUBLE", "BIGINT", "HUGEINT", "SMALLINT", "DATE", "TIME", "TINYINT",
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"INT", "BIGINT", "HUGEINT", "SMALLINT", "TINYINT", "BIGINT", "BOOL", "BIGINT", "NULL", "ERROR"};
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// TODO: deal with data/time <=> str/uint conversion
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struct date_t {
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uint32_t val = 0;
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date_t(const char* d) {
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}
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std::string toString() const;
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};
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struct time_t {
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uint32_t val = 0;
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time_t(const char* d) {
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}
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std::string toString() const;
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};
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template <typename T>
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struct Types {
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typedef T type;
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constexpr Types() noexcept = default;
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#ifdef __SIZEOF_INT128__
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#define F_INT128(__F_) __F_(__int128_t, AINT128) \
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__F_(__uint128_t, AUINT128)
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#define ULL_Type __uint128_t
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#define LL_Type __int128_t
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#else
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#define F_INT128(__F_)
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#define ULL_Type unsigned long long
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#define LL_Type long long
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#endif
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#define ConnectTypes(f) \
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f(int, AINT32) \
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f(float, AFLOAT) \
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f(const char*, ASTR) \
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f(double, ADOUBLE) \
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f(long double, ALDOUBLE) \
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f(long, AINT64) \
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f(short, AINT16) \
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f(date_t, ADATE) \
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f(time_t, ATIME) \
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f(unsigned char, AINT8) \
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f(unsigned int, AUINT32) \
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f(unsigned long, AUINT64) \
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f(unsigned short, AUINT16) \
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f(unsigned char, AUINT8) \
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f(bool, ABOOL) \
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F_INT128(f)
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inline constexpr static Type_t getType() {
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#define TypeConnect(x, y) if constexpr(std::is_same<x, T>::value) return y; else
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ConnectTypes(TypeConnect)
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if constexpr (is_vector_type<T>)
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return VECTOR;
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else
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return NONE;
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}
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};
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#define ATypeSize(t, at) sizeof(t),
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static constexpr size_t AType_sizes[] = { ConnectTypes(ATypeSize) 1 };
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#define Cond(c, x, y) typename std::conditional<c, x, y>::type
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#define Comp(o) (sizeof(T1) o sizeof(T2))
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#define Same(x, y) (std::is_same_v<x, y>)
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#define __U(x) std::is_unsigned<x>::value
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#define Fp(x) std::is_floating_point<x>::value
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template <class T1, class T2>
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struct Coercion {
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using t1 = Cond(Comp(<= ), Cond(Comp(== ), Cond(Fp(T1), T1, Cond(Fp(T2), T2, Cond(__U(T1), T2, T1))), T2), T1);
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using t2 = Cond(Same(T1, T2), T1, Cond(Same(T1, const char*) || Same(T2, const char*), const char*, void));
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using type = Cond(Same(t2, void), Cond(Same(T1, date_t) && Same(T2, time_t) || Same(T1, time_t) && Same(T2, time_t), void, t1), t2);
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};
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#define __Eq(x) (sizeof(T) == sizeof(x))
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template<class T>
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struct GetFPTypeImpl {
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using type = Cond(__Eq(float), float, Cond(__Eq(double), double, double));
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};
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template<class T>
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using GetFPType = typename GetFPTypeImpl<typename std::decay<T>::type>::type;
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template<class T>
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struct GetLongTypeImpl {
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using type = Cond(__U(T), ULL_Type, Cond(Fp(T), double, LL_Type));
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};
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template<class T>
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using GetLongType = typename GetLongTypeImpl<typename std::decay<T>::type>::type;
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}
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#define getT(i, t) std::tuple_element_t<i, std::tuple<t...>>
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template <template<typename ...> class T, typename ...Types>
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struct applyTemplates {
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using type = T<Types...>;
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};
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template <class lT, template <typename ...> class rT>
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struct transTypes_s;
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template <template<typename ...> class lT, typename ...T, template<typename ...> class rT>
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struct transTypes_s<lT<T...>, rT> {
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using type = rT<T...>;
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};
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// static_assert(std::is_same<transTypes<std::tuple<int, float>, std::unordered_map>, std::unordered_map<int, float>>::value);
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template <class lT, template <typename ...> class rT>
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using transTypes = typename transTypes_s<lT, rT>::type;
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template <class ...Types>
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struct record_types {};
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template <class ...Types>
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using record = std::tuple<Types...>;
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template <class T>
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struct decayS {
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using type = typename std::decay<T>::type;
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};
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template<template<typename ...> class T, typename ...Types>
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struct decayS <T<Types...>>{
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using type = T<typename std::decay<Types>::type ...>;
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};
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template <class T>
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using decays = typename decayS<typename std::decay<T>::type>::type;
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template <class T>
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using decay_inner = typename decayS<T>::type;
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template <class, template <class...> class T>
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struct instance_of_impl : std::false_type {};
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template <class ...T1, template <class ...> class T2>
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struct instance_of_impl<T2<T1...>, T2> : std::true_type {};
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template <class T1, class T2>
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struct same_class_impl : std::false_type {};
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template <class ...T1s, class ...T2s, template <class...> class T1>
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struct same_class_impl<T1<T1s...>, T1<T2s...>> : std::true_type {};
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template <class T1, class T2>
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bool same_class = same_class_impl<T1, T2>::value;
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template <class T1, template <class...> class T2>
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bool instance_of = instance_of_impl<T1, T2>::value;
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template <class lT, template <typename ...> class rT>
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using transTypes = typename transTypes_s<lT, rT>::type;
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template <class lT, class vT, template <vT ...> class rT>
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struct transValues_s;
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template <class vT, template<class, vT ...> class lT, vT ...T, template<vT ...> class rT>
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struct transValues_s<lT<vT, T...>, vT, rT> {
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using type = rT<T...>;
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};
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#include <utility>
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template <class vT, int i, template <vT ...> class rT>
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using transValues = typename transValues_s<std::make_integer_sequence<vT, i>, vT, rT>::type;
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template <int i, template <int ...> class rT>
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using applyIntegerSequence = typename transValues_s<std::make_integer_sequence<int, i>, int, rT>::type;
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template <template <class ...> class T, class ...Types>
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struct decayed_impl{ typedef T<Types...> type;};
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template <template <typename ...> class VT, class ...Types>
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using decayed_t = typename decayed_impl<VT, Types...>::type;
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template <class First = void, class...Rest>
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struct get_first_impl {
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typedef First first;
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constexpr static size_t rest_len = sizeof...(Rest);
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typedef get_first_impl<Rest...> rest;
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};
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template <class ...T>
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using get_first = typename get_first_impl<T...>::first;
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template <class T>
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struct value_type_impl { typedef T type; };
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template <template <class...> class VT, class ...V>
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struct value_type_impl<VT<V...>> { typedef get_first<V...> type; };
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template <class T>
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using value_type = typename value_type_impl<T>::type;
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template <class ...T>
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using get_first = typename get_first_impl<T...>::first;
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template <class T>
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struct value_type_rec_impl { typedef T type; };
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template <template <class...> class VT, class ...V>
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struct value_type_rec_impl<VT<V...>> { typedef typename value_type_rec_impl<get_first<int>>::type type; };
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template <class T>
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using value_type_r = typename value_type_rec_impl<T>::type;
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template <class T>
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struct nullval_impl { constexpr static T value = 0; };
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template <class T>
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constexpr static T nullval = nullval_impl<T>::value;
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#include <limits>
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template <>
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struct nullval_impl<int> { constexpr static int value = std::numeric_limits<int>::min(); };
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template<>
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struct nullval_impl<float> { constexpr static float value = -std::numeric_limits<float>::quiet_NaN(); };
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template<>
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struct nullval_impl<double> { constexpr static double value = -std::numeric_limits<double>::quiet_NaN(); };
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constexpr size_t sum_type(size_t a[], size_t sz) {
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size_t ret = 0;
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for (int i = 0; i < sz; ++i)
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ret += a[i];
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return ret;
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}
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template<class Types, class ...T1>
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constexpr size_t sum_type() {
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size_t t[] = {std::is_same_v<Types, T1> ...};
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return sum_type(t, sizeof...(T1));
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}
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template<class ...T1, class ...Types>
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constexpr size_t count_type(std::tuple<Types...>* ts) {
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size_t t[] = {sum_type<Types, T1...>() ...};
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return sum_type(t, sizeof...(Types));
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}
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#endif // !_TYPES_H
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