Adrian Hedqvist
ec131d8bda
* Implemented lua using kaguya, only for config files for now * Moved color struct to its own header * statically link glew instead of including the source in the project * Other stuff that I don't remember
104 lines
4.5 KiB
C++
104 lines
4.5 KiB
C++
// Copyright satoren
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// Distributed under the Boost Software License, Version 1.0. (See
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// accompanying file LICENSE_1_0.txt or copy at
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// http://www.boost.org/LICENSE_1_0.txt)
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#pragma once
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#include <string>
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#include "kaguya/config.hpp"
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#include "kaguya/utility.hpp"
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#include "kaguya/preprocess.hpp"
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namespace kaguya {
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namespace fntuple {
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#if KAGUYA_USE_CPP11 && !defined(KAGUYA_FUNCTION_MAX_OVERLOADS)
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// In Clang with libstdc++.
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// std::tuple elements is limited to 16 for template depth limit
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using std::tuple;
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using std::get;
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using std::tuple_element;
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using std::tuple_size;
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#else
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using util::null_type;
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// boost::tuple is max
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#define KAGUYA_PP_STRUCT_TDEF_REP(N) KAGUYA_PP_CAT(typename A, N) = null_type
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#define KAGUYA_PP_STRUCT_TEMPLATE_DEF_REPEAT(N) \
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KAGUYA_PP_REPEAT_ARG(N, KAGUYA_PP_STRUCT_TDEF_REP)
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template <KAGUYA_PP_STRUCT_TEMPLATE_DEF_REPEAT(
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KAGUYA_PP_INC(KAGUYA_FUNCTION_MAX_OVERLOADS))>
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struct tuple {};
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#undef KAGUYA_PP_STRUCT_TDEF_REP
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#undef KAGUYA_PP_STRUCT_TEMPLATE_DEF_REPEAT
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#define KAGUYA_FUNCTION_TUPLE_ELEMENT(N) \
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KAGUYA_PP_CAT(A, N) KAGUYA_PP_CAT(elem, N);
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#define KAGUYA_FUNCTION_TUPLE_ELEMENT_INIT(N) \
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KAGUYA_PP_CAT(elem, N)(KAGUYA_PP_CAT(a, N))
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#define KAGUYA_FUNCTION_TUPLE_IMPL_DEF(N) \
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template <KAGUYA_PP_TEMPLATE_DEF_REPEAT(N)> \
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struct tuple<KAGUYA_PP_TEMPLATE_ARG_REPEAT(N)> { \
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KAGUYA_PP_REPEAT(N, KAGUYA_FUNCTION_TUPLE_ELEMENT) \
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tuple(KAGUYA_PP_ARG_DEF_REPEAT(N)) \
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: KAGUYA_PP_REPEAT_ARG(N, KAGUYA_FUNCTION_TUPLE_ELEMENT_INIT) {} \
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};
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KAGUYA_PP_REPEAT_DEF(KAGUYA_FUNCTION_MAX_OVERLOADS,
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KAGUYA_FUNCTION_TUPLE_IMPL_DEF)
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template <typename Tuple> struct tuple_size;
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#define KAGUYA_TUPLE_SIZE_DEF(N) \
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template <KAGUYA_PP_TEMPLATE_DEF_REPEAT(N)> \
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struct tuple_size<tuple<KAGUYA_PP_TEMPLATE_ARG_REPEAT(N)> > { \
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static const size_t value = N; \
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};
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KAGUYA_TUPLE_SIZE_DEF(0)
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KAGUYA_PP_REPEAT_DEF(KAGUYA_FUNCTION_MAX_OVERLOADS, KAGUYA_TUPLE_SIZE_DEF)
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#undef KAGUYA_TUPLE_SIZE_DEF
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template <std::size_t remain, class result, bool flag = remain <= 0>
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struct tuple_element {};
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#define KAGUYA_TUPLE_ELEMENT_DEF(N) \
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template <std::size_t remain, \
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class arg KAGUYA_PP_TEMPLATE_DEF_REPEAT_CONCAT(N)> \
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struct tuple_element< \
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remain, tuple<arg KAGUYA_PP_TEMPLATE_ARG_REPEAT_CONCAT(N)>, true> { \
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typedef arg type; \
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}; \
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template <std::size_t remain, \
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class arg KAGUYA_PP_TEMPLATE_DEF_REPEAT_CONCAT(N)> \
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struct tuple_element< \
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remain, tuple<arg KAGUYA_PP_TEMPLATE_ARG_REPEAT_CONCAT(N)>, false> \
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: tuple_element<remain - 1, tuple<KAGUYA_PP_TEMPLATE_ARG_REPEAT(N)> > { \
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};
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KAGUYA_PP_REPEAT_DEF(KAGUYA_FUNCTION_MAX_OVERLOADS, KAGUYA_TUPLE_ELEMENT_DEF)
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#undef KAGUYA_TUPLE_SIZE_DEF
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template <size_t S, typename T> struct tuple_get_helper;
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#define KAGUYA_TUPLE_GET_DEF(N) \
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template <typename T> struct tuple_get_helper<N, T> { \
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static typename tuple_element<N - 1, T>::type &get(T &t) { \
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return t.KAGUYA_PP_CAT(elem, N); \
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} \
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static const typename tuple_element<N - 1, T>::type &cget(const T &t) { \
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return t.KAGUYA_PP_CAT(elem, N); \
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} \
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};
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KAGUYA_PP_REPEAT_DEF(KAGUYA_FUNCTION_MAX_OVERLOADS, KAGUYA_TUPLE_GET_DEF)
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template <size_t S, typename T> typename tuple_element<S, T>::type &get(T &t) {
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return tuple_get_helper<S + 1, T>::get(t);
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}
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template <size_t S, typename T>
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const typename tuple_element<S, T>::type &get(const T &t) {
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return tuple_get_helper<S + 1, T>::cget(t);
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}
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#endif
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}
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}
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