65816-llvm-mos/runtime/include/c++/etl/invoke.h

///\file

/******************************************************************************
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Embedded Template Library.
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Copyright(c) 2025 John Wellbelove

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#ifndef ETL_INVOKE_INCLUDED
#define ETL_INVOKE_INCLUDED

#include "platform.h"
#include "function_traits.h"
#include "functional.h"
#include "type_traits.h"
#include "utility.h"

#if ETL_USING_CPP11

namespace etl
{
  //****************************************************************************
  // invoke implementation
  //****************************************************************************

  //****************************************************************************
  /// Pointer to member function + reference_wrapper
  template < typename TFunction, typename TRefWrapper, typename... TArgs,
             typename = etl::enable_if_t< etl::is_member_function_pointer<etl::decay_t<TFunction>>::value
                                          && etl::is_reference_wrapper<etl::decay_t<TRefWrapper>>::value>>
  ETL_CONSTEXPR auto invoke(TFunction&& f, TRefWrapper&& ref_wrapper, TArgs&&... args) -> decltype((ref_wrapper.get().*f)(etl::forward<TArgs>(args)...))
  {
    return (ref_wrapper.get().*f)(etl::forward<TArgs>(args)...);
  }

  //****************************************************************************
  /// Pointer to member function + pointer to object
  template <
    typename TFunction, typename TPtr, typename... TArgs,
    typename = etl::enable_if_t< etl::is_member_function_pointer<etl::decay_t<TFunction>>::value && etl::is_pointer<etl::decay_t<TPtr>>::value>>
  ETL_CONSTEXPR auto invoke(TFunction&& f, TPtr&& ptr, TArgs&&... args) -> decltype(((*etl::forward<TPtr>(ptr)).*f)(etl::forward<TArgs>(args)...))
  {
    return ((*etl::forward<TPtr>(ptr)).*f)(etl::forward<TArgs>(args)...);
  }

  //****************************************************************************
  /// Pointer to member function + object (or derived) reference
  template < typename TFunction, typename TObject, typename... TArgs,
             typename = etl::enable_if_t< etl::is_member_function_pointer<etl::decay_t<TFunction>>::value
                                          && !etl::is_pointer<etl::decay_t<TObject>>::value && !is_reference_wrapper<etl::decay_t<TObject>>::value>>
  ETL_CONSTEXPR auto invoke(TFunction&& f, TObject&& obj, TArgs&&... args) -> decltype((etl::forward<TObject>(obj).*f)(etl::forward<TArgs>(args)...))
  {
    return (etl::forward<TObject>(obj).*f)(etl::forward<TArgs>(args)...);
  }

  //****************************************************************************
  /// Pointer to member object + reference_wrapper
  template < typename TFunction, typename TRefWrapper,
             typename = etl::enable_if_t< etl::is_member_object_pointer<etl::decay_t<TFunction>>::value
                                          && etl::is_reference_wrapper<etl::decay_t<TRefWrapper>>::value>>
  ETL_CONSTEXPR auto invoke(TFunction&& f, TRefWrapper&& ref_wrapper) -> decltype(ref_wrapper.get().*f)
  {
    return ref_wrapper.get().*f;
  }

  //****************************************************************************
  /// Pointer to member object + pointer to object
  template <
    typename TFunction, typename TPtr,
    typename = etl::enable_if_t< etl::is_member_object_pointer<etl::decay_t<TFunction>>::value && etl::is_pointer<etl::decay_t<TPtr>>::value>>
  ETL_CONSTEXPR auto invoke(TFunction&& f, TPtr&& ptr) -> decltype(((*etl::forward<TPtr>(ptr)).*f))
  {
    return ((*etl::forward<TPtr>(ptr)).*f);
  }

  //****************************************************************************
  /// Pointer to member object + object (or derived) reference
  template < typename TFunction, typename TObject,
             typename = etl::enable_if_t< etl::is_member_object_pointer<etl::decay_t<TFunction>>::value
                                          && !etl::is_pointer<etl::decay_t<TObject>>::value && !is_reference_wrapper<etl::decay_t<TObject>>::value>>
  ETL_CONSTEXPR auto invoke(TFunction&& f, TObject&& obj) -> decltype(etl::forward<TObject>(obj).*f)
  {
    return etl::forward<TObject>(obj).*f;
  }

  //****************************************************************************
  /// reference_wrapper callable (unwrap and call directly)
  template < typename TFunction, typename... TArgs,
             typename = etl::enable_if_t< etl::is_reference_wrapper<etl::decay_t<TFunction>>::value
                                          && !etl::is_member_pointer<etl::decay_t< decltype(etl::declval<TFunction>().get())>>::value>>
  ETL_CONSTEXPR auto invoke(TFunction&& f, TArgs&&... args) -> decltype(f.get()(etl::forward<TArgs>(args)...))
  {
    return f.get()(etl::forward<TArgs>(args)...);
  }

  //****************************************************************************
  /// reference_wrapper callable wrapping a member pointer (unwrap and
  /// re-invoke)
  template < typename TFunction, typename... TArgs,
             typename = etl::enable_if_t< etl::is_reference_wrapper<etl::decay_t<TFunction>>::value
                                          && etl::is_member_pointer<etl::decay_t< decltype(etl::declval<TFunction>().get())>>::value>,
             typename = void>
  ETL_CONSTEXPR auto invoke(TFunction&& f, TArgs&&... args) -> decltype(etl::invoke(f.get(), etl::forward<TArgs>(args)...))
  {
    return etl::invoke(f.get(), etl::forward<TArgs>(args)...);
  }

  //****************************************************************************
  /// General callable (function object / lambda / function pointer)
  template < typename TFunction, typename... TArgs,
             typename = etl::enable_if_t< !etl::is_member_pointer<etl::decay_t<TFunction>>::value
                                          && !etl::is_reference_wrapper<etl::decay_t<TFunction>>::value>>
  ETL_CONSTEXPR auto invoke(TFunction&& f, TArgs&&... args) -> decltype(etl::forward<TFunction>(f)(etl::forward<TArgs>(args)...))
  {
    return etl::forward<TFunction>(f)(etl::forward<TArgs>(args)...);
  }

  //****************************************************************************
  // is_invocable implementation
  //****************************************************************************
  namespace private_invoke
  {
    //*******************************************
    // Core detection of invocability.
    // Succeeds if the invocation expression is well-formed.
    template <typename TFunction, typename... TArgs>
    struct is_invocable_expr
    {
      template <typename U>
      static auto test(int) -> decltype((void)etl::invoke(etl::declval<U>(), etl::declval<TArgs>()...), etl::true_type{});

      template <typename>
      static etl::false_type test(...);

      using type = decltype(test<TFunction>(0));

      static ETL_CONSTANT bool value = type::value;
    };

    //*******************************************
    // Core detection of invocability.
    // Succeeds if the invocation expression is well-formed.
    // Using etl::type_list for the argument list.
    template <typename TFunction, typename... TArgs>
    struct is_invocable_expr<TFunction, etl::type_list<TArgs...>>
    {
      template <typename U>
      static auto test(int) -> decltype((void)etl::invoke(etl::declval<U>(), etl::declval<TArgs>()...), etl::true_type{});

      template <typename>
      static etl::false_type test(...);

      using type = decltype(test<TFunction>(0));

      static ETL_CONSTANT bool value = type::value;
    };

    //*******************************************
    // Result type of a valid invocation.
    template <typename TFunction, typename... TArgs>
    struct invoke_result_impl
    {
      template <typename U>
      static auto test(int) -> decltype(etl::invoke(etl::declval<U>(), etl::declval<TArgs>()...));

      template <typename>
      static void test(...);

      using type = decltype(test<TFunction>(0));
    };

    //*******************************************
    // Result type of a valid invocation.
    template <typename TFunction, typename... TArgs>
    struct invoke_result_impl<TFunction, etl::type_list<TArgs...>>
    {
      template <typename U>
      static auto test(int) -> decltype(etl::invoke(etl::declval<U>(), etl::declval<TArgs>()...));

      template <typename>
      static void test(...);

      using type = decltype(test<TFunction>(0));
    };

    template <typename TFunction, typename... TArgs>
    using invoke_result_impl_t = typename invoke_result_impl<TFunction, TArgs...>::type;

    //*******************************************
    // Unwrap reference_wrapper<T> to its underlying type T&,
    // forwarding to etl::unwrap_ref_decay for reference_wrapper detection.
    template <typename TFunction, bool = etl::is_reference_wrapper<etl::decay_t<TFunction>>::value>
    struct unwrap_ref_callable
    {
      using type = TFunction;
    };

    template <typename TFunction>
    struct unwrap_ref_callable<TFunction, true>
    {
      using type = etl::unwrap_ref_decay_t<TFunction>;
    };

    template <typename TFunction>
    using unwrap_ref_callable_t = typename unwrap_ref_callable<TFunction>::type;

    //*******************************************
    // Map raw function type to pointer, and unwrap reference_wrapper
    // so that function_traits sees the actual callable type.
    template <typename TFunction>
    using effective_callable_t = etl::conditional_t< etl::is_function<etl::remove_reference_t<TFunction>>::value,
                                                     etl::add_pointer_t<etl::remove_reference_t<TFunction>>, unwrap_ref_callable_t<TFunction>>;
  } // namespace private_invoke

  //****************************************************************************
  /// invoke_result<TFunction, TArgs...>
  template <typename TFunction, typename, typename... TArgs>
  struct invoke_result
  {
    using type = void;
  };

  //*******************************************
  template <typename TFunction, typename... TArgs>
  struct invoke_result< TFunction, etl::void_t<decltype(etl::invoke(etl::declval<TFunction>(), etl::declval<TArgs>()...))>, TArgs...>
  {
  private:

    using FC = private_invoke::effective_callable_t<TFunction>;

  public:

    using type = etl::conditional_t<private_invoke::is_invocable_expr<FC, TArgs...>::value, private_invoke::invoke_result_impl_t<FC, TArgs...>, void>;
  };

  //****************************************************************************
  /// invoke_result<TFunction, etl::type_list<TArgs...>>
  template <typename TFunction, typename... TArgs>
  struct invoke_result<TFunction, etl::type_list<TArgs...>>
  {
  private:

    using FC = private_invoke::effective_callable_t<TFunction>;

  public:

    using type = etl::conditional_t<private_invoke::is_invocable_expr<FC, TArgs...>::value, private_invoke::invoke_result_impl_t<FC, TArgs...>, void>;
  };

  //*******************************************
  // Specialization to allow `etl::type_list<...>` as the second template
  // parameter.
  template <typename TFunction, typename... TArgs>
  struct invoke_result< TFunction, etl::void_t<decltype(etl::invoke(etl::declval<TFunction>(), etl::declval<TArgs>()...))>, etl::type_list<TArgs...>>
  {
    using type = decltype(etl::invoke(etl::declval<TFunction>(), etl::declval<TArgs>()...));
  };

  //*******************************************
  template <typename TFunction, typename... TArgs>
  using invoke_result_t = typename invoke_result<TFunction, void, TArgs...>::type;

  //****************************************************************************
  /// is_invocable<TFunction, TArgs...>
  template <typename TFunction, typename... TArgs>
  struct is_invocable : etl::bool_constant< private_invoke::is_invocable_expr< private_invoke::effective_callable_t<TFunction>, TArgs...>::value>
  {
  };

  //****************************************************************************
  // Specialization to allow `etl::type_list<...>` as the second template
  // parameter.
  template <typename TFunction, typename... TArgs>
  struct is_invocable<TFunction, etl::type_list<TArgs...>> : is_invocable<TFunction, TArgs...>
  {
  };

  //****************************************************************************
  // is_invocable_r<TReturn, TFunction, TArgs...>
  template <typename TReturn, typename TFunction, typename... TArgs>
  struct is_invocable_r
    : etl::conditional_t<
        etl::is_same<TReturn, void>::value, etl::is_invocable<TFunction, TArgs...>,
        etl::conditional_t< is_invocable<TFunction, TArgs...>::value,
                            etl::bool_constant<etl::is_convertible< invoke_result_t<TFunction, TArgs...>, TReturn>::value>, etl::false_type>>
  {
  };

  //****************************************************************************
  // Specialization to allow `etl::type_list<...>` as the second template
  // parameter.
  template <typename TReturn, typename TFunction, typename... TArgs>
  struct is_invocable_r<TReturn, TFunction, etl::type_list<TArgs...>> : is_invocable_r<TReturn, TFunction, TArgs...>
  {
  };

  //****************************************************************************
  // Specialization to allow `etl::type_list<...>` when there is a preceding
  // object argument.
  template <typename TFunction, typename TObject, typename... TArgs>
  struct is_invocable<TFunction, TObject, etl::type_list<TArgs...>> : is_invocable<TFunction, TObject, TArgs...>
  {
  };

  //****************************************************************************
  // Specialization for is_invocable_r with a preceding object argument.
  template <typename TReturn, typename TFunction, typename TObject, typename... TArgs>
  struct is_invocable_r<TReturn, TFunction, TObject, etl::type_list<TArgs...>> : is_invocable_r<TReturn, TFunction, TObject, TArgs...>
  {
  };

  #if ETL_USING_CPP17
  //****************************************************************************
  /// is_nothrow_invocable<TFunction, TArgs...>
  template <typename TFunction, typename... TArgs>
  struct is_nothrow_invocable
    : etl::bool_constant< etl::is_invocable<TFunction, TArgs...>::value
                          && etl::function_traits< private_invoke::effective_callable_t<TFunction>>::is_noexcept>
  {
  };

  //****************************************************************************
  /// is_nothrow_invocable_r<TReturn, TFunction, TArgs...>
  template <typename TReturn, typename TFunction, typename... TArgs>
  struct is_nothrow_invocable_r
    : etl::bool_constant< etl::is_invocable_r<TReturn, TFunction, TArgs...>::value
                          && etl::function_traits< private_invoke::effective_callable_t<TFunction>>::is_noexcept
                          && (etl::is_same<TReturn, void>::value
                              || etl::is_nothrow_convertible<invoke_result_t<TFunction, TArgs...>, TReturn>::value)>
  {
  };

  //****************************************************************************
  /// is_nothrow_invocable_r<TReturn, TFunction, etl::type_list<TArgs...>>
  template <typename TReturn, typename TFunction, typename... TArgs>
  struct is_nothrow_invocable_r<TReturn, TFunction, etl::type_list<TArgs...>>
    : etl::bool_constant< etl::is_invocable_r<TReturn, TFunction, TArgs...>::value
                          && etl::function_traits< private_invoke::effective_callable_t<TFunction>>::is_noexcept
                          && (etl::is_same<TReturn, void>::value
                              || etl::is_nothrow_convertible<invoke_result_t<TFunction, TArgs...>, TReturn>::value)>
  {
  };

  //****************************************************************************
  // Specialization to allow `etl::type_list<...>` when there is a preceding
  // object argument for the nothrow-with-return trait.
  template <typename TReturn, typename TFunction, typename TObject, typename... TArgs>
  struct is_nothrow_invocable_r<TReturn, TFunction, TObject, etl::type_list<TArgs...>> : is_nothrow_invocable_r<TReturn, TFunction, TObject, TArgs...>
  {
  };
  #endif

  #if ETL_USING_CPP17
  template <typename TFunction, typename... TArgs>
  inline constexpr bool is_invocable_v = is_invocable<TFunction, TArgs...>::value;

  template <typename TReturn, typename TFunction, typename... TArgs>
  inline constexpr bool is_invocable_r_v = is_invocable_r<TReturn, TFunction, TArgs...>::value;

  template <typename TFunction, typename... TArgs>
  inline constexpr bool is_nothrow_invocable_v = is_nothrow_invocable<TFunction, TArgs...>::value;

  template <typename TFunction, typename... TArgs>
  inline constexpr bool is_nothrow_invocable_r_v = is_nothrow_invocable_r<TFunction, TArgs...>::value;
  #endif
} // namespace etl

#endif // ETL_USING_CPP11
#endif // ETL_INVOKE_INCLUDED