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silly boy

main
Brett 2025-04-21 15:00:57 -04:00
parent 8d3a088049
commit f0e9475dcc
3 changed files with 49 additions and 71 deletions
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2
CMakeLists.txt
View File

@ -1,6 +1,6 @@
cmake_minimum_required(VERSION 3.20)
include(cmake/color.cmake)
set(BLT_VERSION 5.4.4)
set(BLT_VERSION 5.4.5)
set(BLT_TARGET BLT)

116
include/blt/std/variant.h
View File

@ -66,99 +66,94 @@ namespace blt
using return_type = std::conditional_t<can_invoke::value, std::invoke_result_t<Func, Type>, void>;
};
template <typename T, typename Func>
template <typename T, typename Func, size_t Index, bool HasValue>
struct passthrough_value
{
using type = T;
using func = Func;
bool has_value = false;
explicit passthrough_value(const bool has_value): has_value(has_value)
{
}
constexpr static size_t index = Index;
explicit operator bool() const
{
return has_value;
return HasValue;
}
};
template <typename Type, typename... Funcs>
struct first_invoke_member_func
{
constexpr static auto find_func()
template <size_t... Indexes>
constexpr static auto find_func(std::index_sequence<Indexes...>)
{
return (... || []()
{
using Meta = member_func_meta<Type, Funcs>;
if constexpr (Meta::can_invoke::value)
{
return passthrough_value<typename Meta::return_type, Funcs>{true};
return passthrough_value<typename Meta::return_type, Funcs, Indexes, true>{};
}
return passthrough_value<void, Funcs>{false};
return passthrough_value<void, Funcs, Indexes, false>{};
}());
}
using result = decltype(find_func());
using result = decltype(find_func(std::index_sequence_for<Funcs...>()));
using return_type = typename result::type;
using func_type = typename result::func;
constexpr static size_t function_index = result::index;
};
template <typename Type, typename... Args>
struct member_func_detail;
template <typename Type, typename First, typename... Rest>
struct member_func_detail<Type, First, Rest...>
template <typename FuncTuple, typename ArgTuple>
struct member_func_detail
{
template <typename Func>
using return_type = std::invoke_result_t<Func, Type>;
};
template <typename Func>
using can_invoke = std::is_invocable<Func, Type>;
template <typename... Funcs, typename... Args>
struct member_func_detail<std::tuple<Funcs...>, std::tuple<Args...>>
{
using result_types = std::tuple<first_invoke_member_func<Args, Funcs...>...>;
using base_type = typename decltype(std::get<0>(std::declval<result_types>))::type;
template <typename Func>
using result_or_void = std::conditional<can_invoke<Func>::value, return_type<Func>, void>;
template <typename T>
using get_type = typename T::type;
constexpr static bool all_has_void = std::conjunction_v<std::is_void<result_or_void<Rest>>...>;
template <typename T>
using is_base = std::is_same<typename T::type, base_type>;
using ret_type = std::conditional_t<all_has_void, void, decltype(std::get<0>(
std::declval<filter_void_t<return_type<First>, return_type<Rest>...>>()))>;
template <typename T>
using is_base_or_void = std::disjunction<std::is_void<typename T::type>, is_base<typename T::type>>;
constexpr static bool all_has_ret = std::conjunction_v<std::is_same<ret_type, result_or_void<Rest>>...>;
constexpr static bool ret_or_void = std::conjunction_v<std::disjunction<
std::is_same<ret_type, result_or_void<Rest>>, std::is_void<result_or_void<Rest>>>...>;
template <template<typename...> typename Functor, template<typename> typename PerType, size_t... Indexes>
constexpr static auto for_each_type(std::index_sequence<Indexes...>)
{
return std::declval<Functor<PerType<decltype(std::get<Indexes>(std::declval<result_types>()))>...>>;
}
constexpr static bool all_has_void = for_each_type<std::conjunction_v, std::is_void>(std::index_sequence_for<Args...>());
constexpr static bool all_has_ret = for_each_type<std::conjunction_v, is_base>(std::index_sequence_for<Args...>());
constexpr static bool all_has_ret_or_void = for_each_type<std::conjunction_v, is_base_or_void>(std::index_sequence_for<Args...>());
using non_void_types = typename decltype(for_each_type<filter_void_t, get_type>(std::index_sequence_for<Args...>()))::type;
template <size_t... Indexes>
static constexpr auto make_variant(std::index_sequence<Indexes...>)
{
if constexpr (all_has_void)
return;
using tuple_type = filter_void_t<First, Rest...>;
using variant = variant_t<decltype(std::get<Indexes>(std::declval<tuple_type>()))...>;
using variant = variant_t<decltype(std::get<Indexes>(std::declval<non_void_types>()))...>;
return std::declval<variant>();
}
using variant_type = decltype(make_variant(std::index_sequence_for<First, Rest...>{}));
static constexpr auto make_return_type()
{
if constexpr (all_has_void)
return;
if constexpr (all_has_ret)
return std::declval<ret_type>();
if constexpr (ret_or_void)
return std::declval<std::optional<ret_type>>();
return std::declval<variant_type>();
return std::declval<base_type>();
if constexpr (all_has_ret_or_void)
return std::declval<std::optional<base_type>>();
return make_variant(std::make_index_sequence<std::tuple_size_v<non_void_types>>{});
}
};
template <typename Type>
struct member_func_detail<Type>
{
};
}
/*
@ -280,9 +275,9 @@ namespace blt
* @param visitees user lambdas
*/
template <typename... Visitee>
constexpr void visit_empty(Visitee&&... visitees)
constexpr auto visit(Visitee&&... visitees) -> decltype(detail::member_func_detail<std::tuple<Visitee...>, std::tuple<Types...>>::make_return_type())
{
std::visit(lambda_visitor{
return std::visit(lambda_visitor{
std::forward<Visitee>(visitees)...,
[](auto)
{
@ -302,31 +297,14 @@ namespace blt
});
}
template <typename Default, typename... Visitee>
constexpr auto visit_lambda(Default&& default_lambda, Visitee&&... visitees) -> decltype(auto)
{
return std::visit(lambda_visitor{
std::forward<Visitee>(visitees)...,
[default_lambda=std::forward<Default>(default_lambda)](auto&& value)
{
return std::forward<Default>(default_lambda)(std::forward<decltype(value)>(value));
}
});
}
/**
* Call a set of member functions on the types stored in the variant. If a type has more than one of these functions declared on it,
* the implementation will use the first member function provided. By default, if the stored value doesn't have any of the member functions,
* nothing will happen, if should_throw boolean is true, then the implementation will throw a runtime error.
* @tparam should_throw Controls if the implementation should throw if the type stored in the variant doesn't have any matching member function
* @return Result of calling the member functions. All functions should return the same value, otherwise this won't compile.
*/
template <typename... MemberFuncs>
constexpr auto call_member(const MemberFuncs... funcs)
{
static_assert(std::conjunction_v<std::is_member_function_pointer<std::decay_t<MemberFuncs>>...>,
"Must provide only pointers to member functions!");
return std::visit([=](auto&& value)
using meta_t = detail::member_func_detail<std::tuple<MemberFuncs...>, std::tuple<Types...>>;
using result_t = decltype(meta_t::make_return_type());
return std::visit([=](auto&& value) -> result_t
{
using ValueType = std::decay_t<decltype(value)>;
@ -340,10 +318,10 @@ namespace blt
using ReturnType = std::invoke_result_t<FuncType, ValueType>;
if constexpr (std::is_invocable_v<FuncType, ValueType>)
{
return std::make_optional(((value).*(func))());
return ((value).*(func))();
}
return std::optional<ReturnType>{};
}(cast_member_ptr<std::remove_reference_t<decltype(value)>>(std::forward<decltype(funcs)>(funcs)))));
return std::declval<result_t>();
}(cast_member_ptr<std::decay_t<decltype(value)>>(std::forward<decltype(funcs)>(funcs)))));
}, m_variant);
}

2
libraries/parallel-hashmap

@ -1 +1 @@
Subproject commit 8a889d3699b3c09ade435641fb034427f3fd12b6
Subproject commit d88c5e15079047777b418132ece5879e7c9aaa2b