libcxx/test/support/deduction_guides_sfinae_checks.h - llvm-project - Git at Google

 //===----------------------------------------------------------------------===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 #ifndef TEST_SUPPORT_DEDUCTION_GUIDES_SFINAE_CHECKS_H
 #define TEST_SUPPORT_DEDUCTION_GUIDES_SFINAE_CHECKS_H

 #include <initializer_list>
 #include <memory>
 #include <type_traits>
 #include <utility>

 #include "test_macros.h"

 // `SFINAEs_away` template variable checks whether the template arguments for
 // a given template class `Instantiated` can be deduced from the given
 // constructor parameter types `CtrArgs` using CTAD.

 template<template<typename ...> class Instantiated, class ...CtrArgs,
     class = decltype(Instantiated(std::declval<CtrArgs>()...))>
 std::false_type SFINAEs_away_impl(int);

 template<template<typename ...> class Instantiated, class ...CtrArgs>
 std::true_type SFINAEs_away_impl(...);

 template<template<typename ...> class Instantiated, class ...CtrArgs>
 constexpr bool SFINAEs_away =
     decltype(SFINAEs_away_impl<Instantiated, CtrArgs...>(0))::value;

 // For sequence containers the deduction guides should be SFINAE'd away when
 // given:
 // - "bad" input iterators (that is, a type not qualifying as an input
 //   iterator);
 // - a bad allocator.
 template<template<typename ...> class Container, typename InstantiatedContainer>
 constexpr void SequenceContainerDeductionGuidesSfinaeAway() {
   using Alloc = std::allocator<int>;
   using Iter = int*;

   struct BadAlloc {};
   // Note: the only requirement in the Standard is that integral types cannot be
   // considered input iterators; however, this doesn't work for sequence
   // containers because they have constructors of the form `(size_type count,
   // const value_type& value)`. These constructors would be used when passing
   // two integral types and would deduce `value_type` to be an integral type.
 #ifdef _LIBCPP_VERSION
   using OutputIter = std::insert_iterator<InstantiatedContainer>;
 #endif // _LIBCPP_VERSION

   // (iter, iter)
   //
   // Cannot deduce from (BAD_iter, BAD_iter)
   LIBCPP_STATIC_ASSERT(SFINAEs_away<Container, OutputIter, OutputIter>);

   // (iter, iter, alloc)
   //
   // Cannot deduce from (BAD_iter, BAD_iter, alloc)
   LIBCPP_STATIC_ASSERT(SFINAEs_away<Container, OutputIter, OutputIter, Alloc>);
   // Cannot deduce from (iter, iter, BAD_alloc)
   static_assert(SFINAEs_away<Container, Iter, Iter, BadAlloc>);

   // (alloc)
   //
   // Cannot deduce from (alloc)
   static_assert(SFINAEs_away<Container, Alloc>);
 }

 // For associative containers the deduction guides should be SFINAE'd away when
 // given:
 // - "bad" input iterators (that is, a type not qualifying as an input
 //   iterator);
 // - a bad allocator;
 // - an allocator in place of a comparator.

 template<template<typename ...> class Container, typename InstantiatedContainer>
 constexpr void AssociativeContainerDeductionGuidesSfinaeAway() {
   using ValueType = typename InstantiatedContainer::value_type;
   using Comp = std::less<int>;
   using Alloc = std::allocator<ValueType>;
   using Iter = ValueType*;
   using InitList = std::initializer_list<ValueType>;

   struct BadAlloc {};
   // The only requirement in the Standard is that integral types cannot be
   // considered input iterators, beyond that it is unspecified.
   using BadIter = int;
 #ifdef _LIBCPP_VERSION
   using OutputIter = std::insert_iterator<InstantiatedContainer>;
 #endif // _LIBCPP_VERSION
   using AllocAsComp = Alloc;

   // (iter, iter)
   //
   // Cannot deduce from (BAD_iter, BAD_iter)
   static_assert(SFINAEs_away<Container, BadIter, BadIter>);
   LIBCPP_STATIC_ASSERT(SFINAEs_away<Container, OutputIter, OutputIter>);

   // (iter, iter, comp)
   //
   // Cannot deduce from (BAD_iter, BAD_iter, comp)
   static_assert(SFINAEs_away<Container, BadIter, BadIter, Comp>);
   LIBCPP_STATIC_ASSERT(SFINAEs_away<Container, OutputIter, OutputIter, Comp>);

   // (iter, iter, comp, alloc)
   //
   // Cannot deduce from (BAD_iter, BAD_iter, comp, alloc)
   static_assert(SFINAEs_away<Container, BadIter, BadIter, Comp, Alloc>);
   LIBCPP_STATIC_ASSERT(
       SFINAEs_away<Container, OutputIter, OutputIter, Comp, Alloc>);
   // Cannot deduce from (iter, iter, ALLOC_as_comp, alloc)
   static_assert(SFINAEs_away<Container, Iter, Iter, AllocAsComp, Alloc>);
   // Cannot deduce from (iter, iter, comp, BAD_alloc)
   static_assert(SFINAEs_away<Container, Iter, Iter, Comp, BadAlloc>);

   // (iter, iter, alloc)
   //
   // Cannot deduce from (BAD_iter, BAD_iter, alloc)
   static_assert(SFINAEs_away<Container, BadIter, BadIter, Alloc>);
   LIBCPP_STATIC_ASSERT(SFINAEs_away<Container, OutputIter, OutputIter, Alloc>);
   // Note: (iter, iter, BAD_alloc) is interpreted as (iter, iter, comp)
   // instead and fails upon instantiation. There is no requirement to SFINAE
   // away bad comparators.

   // (init_list, comp, alloc)
   //
   // Cannot deduce from (init_list, ALLOC_as_comp, alloc)
   static_assert(SFINAEs_away<Container, InitList, AllocAsComp, Alloc>);
   // Cannot deduce from (init_list, comp, BAD_alloc)
   static_assert(SFINAEs_away<Container, InitList, Comp, BadAlloc>);

   // (init_list, alloc)
   //
   // Note: (init_list, BAD_alloc) is interpreted as (init_list, comp) instead
   // and fails upon instantiation. There is no requirement to SFINAE away bad
   // comparators.
 }

 // For unordered containers the deduction guides should be SFINAE'd away when
 // given:
 // - "bad" input iterators (that is, a type not qualifying as an input
 //   iterator);
 // - a bad allocator;
 // - a bad hash functor (an integral type in place of a hash);
 // - an allocator in place of a hash functor;
 // - an allocator in place of a predicate.
 template<template<typename ...> class Container, typename InstantiatedContainer>
 constexpr void UnorderedContainerDeductionGuidesSfinaeAway() {
   using ValueType = typename InstantiatedContainer::value_type;
   using Pred = std::equal_to<int>;
   using Hash = std::hash<int>;
   using Alloc = std::allocator<ValueType>;
   using Iter = ValueType*;
   using InitList = std::initializer_list<ValueType>;

   using BadHash = int;
   struct BadAlloc {};
   // The only requirement in the Standard is that integral types cannot be
   // considered input iterators, beyond that it is unspecified.
   using BadIter = int;
 #ifdef _LIBCPP_VERSION
   using OutputIter = std::insert_iterator<InstantiatedContainer>;
 #endif // _LIBCPP_VERSION
   using AllocAsHash = Alloc;
   using AllocAsPred = Alloc;

   // (iter, iter)
   //
   // Cannot deduce from (BAD_iter, BAD_iter)
   static_assert(SFINAEs_away<Container, BadIter, BadIter>);
   LIBCPP_STATIC_ASSERT(SFINAEs_away<Container, OutputIter, OutputIter>);

   // (iter, iter, buckets)
   //
   // Cannot deduce from (BAD_iter, BAD_iter, buckets)
   static_assert(SFINAEs_away<Container, BadIter, BadIter, size_t>);
   LIBCPP_STATIC_ASSERT(SFINAEs_away<Container, OutputIter, OutputIter, size_t>);

   // (iter, iter, buckets, hash)
   //
   // Cannot deduce from (BAD_iter, BAD_iter, buckets, hash)
   static_assert(SFINAEs_away<Container, BadIter, BadIter, size_t, Hash>);
   LIBCPP_STATIC_ASSERT(
       SFINAEs_away<Container, OutputIter, OutputIter, size_t, Hash>);
   // Cannot deduce from (iter, iter, buckets, BAD_hash)
   static_assert(SFINAEs_away<Container, Iter, Iter, size_t, BadHash>);
   // Note: (iter, iter, buckets, ALLOC_as_hash) is allowed -- it just calls
   // (iter, iter, buckets, alloc)

   // (iter, iter, buckets, hash, pred)
   //
   // Cannot deduce from (BAD_iter, BAD_iter, buckets, hash, pred)
   static_assert(SFINAEs_away<Container, BadIter, BadIter, size_t, Hash, Pred>);
   LIBCPP_STATIC_ASSERT(
       SFINAEs_away<Container, OutputIter, OutputIter, size_t, Hash, Pred>);
   // Cannot deduce from (iter, iter, buckets, BAD_hash, pred)
   static_assert(SFINAEs_away<Container, Iter, Iter, size_t, BadHash, Pred>);
   // Cannot deduce from (iter, iter, buckets, ALLOC_as_hash, pred)
   static_assert(SFINAEs_away<Container, Iter, Iter, size_t, AllocAsHash, Pred>);
   // Note: (iter, iter, buckets, hash, ALLOC_as_pred) is allowed -- it just
   // calls (iter, iter, buckets, hash, alloc)

   // (iter, iter, buckets, hash, pred, alloc)
   //
   // Cannot deduce from (BAD_iter, BAD_iter, buckets, hash, pred, alloc)
   static_assert(
       SFINAEs_away<Container, BadIter, BadIter, size_t, Hash, Pred, Alloc>);
   LIBCPP_STATIC_ASSERT(SFINAEs_away<Container, OutputIter, OutputIter,
       size_t, Hash, Pred, Alloc>);
   // Cannot deduce from (iter, iter, buckets, BAD_hash, pred, alloc)
   static_assert(
       SFINAEs_away<Container, Iter, Iter, size_t, BadHash, Pred, Alloc>);
   // Cannot deduce from (iter, iter, buckets, ALLOC_as_hash, pred, alloc)
   static_assert(
       SFINAEs_away<Container, Iter, Iter, size_t, AllocAsHash, Pred, Alloc>);
   // Cannot deduce from (iter, iter, buckets, hash, ALLOC_as_pred, alloc)
   static_assert(
       SFINAEs_away<Container, Iter, Iter, size_t, Hash, AllocAsPred, Alloc>);
   // Cannot deduce from (iter, iter, buckets, hash, pred, BAD_alloc)
   static_assert(
       SFINAEs_away<Container, Iter, Iter, size_t, Hash, Pred, BadAlloc>);

   // (iter, iter, buckets, alloc)
   //
   // Cannot deduce from (BAD_iter, BAD_iter, buckets, alloc)
   static_assert(SFINAEs_away<Container, BadIter, BadIter, size_t, Alloc>);
   LIBCPP_STATIC_ASSERT(
       SFINAEs_away<Container, OutputIter, OutputIter, size_t, Alloc>);
   // Note: (iter, iter, buckets, BAD_alloc) is interpreted as (iter, iter,
   // buckets, hash), which is valid because the only requirement for the hash
   // parameter is that it's not integral.

   // (iter, iter, alloc)
   //
   // Cannot deduce from (BAD_iter, BAD_iter, alloc)
   static_assert(SFINAEs_away<Container, BadIter, BadIter, Alloc>);
   LIBCPP_STATIC_ASSERT(SFINAEs_away<Container, OutputIter, OutputIter, Alloc>);
   // Cannot deduce from (iter, iter, BAD_alloc)
   static_assert(SFINAEs_away<Container, Iter, Iter, BadAlloc>);

   // (iter, iter, buckets, hash, alloc)
   //
   // Cannot deduce from (BAD_iter, BAD_iter, buckets, hash, alloc)
   static_assert(SFINAEs_away<Container, BadIter, BadIter, size_t, Hash, Alloc>);
   LIBCPP_STATIC_ASSERT(
       SFINAEs_away<Container, OutputIter, OutputIter, size_t, Hash, Alloc>);
   // Cannot deduce from (iter, iter, buckets, BAD_hash, alloc)
   static_assert(SFINAEs_away<Container, Iter, Iter, size_t, BadHash, Alloc>);
   // Cannot deduce from (iter, iter, buckets, ALLOC_as_hash, alloc)
   static_assert(
       SFINAEs_away<Container, Iter, Iter, size_t, AllocAsHash, Alloc>);
   // Note: (iter, iter, buckets, hash, BAD_alloc) is interpreted as (iter, iter,
   // buckets, hash, pred), which is valid because there are no requirements for
   // the predicate.

   // (init_list, buckets, hash)
   //
   // Cannot deduce from (init_list, buckets, BAD_hash)
   static_assert(SFINAEs_away<Container, InitList, size_t, BadHash>);
   // Note: (init_list, buckets, ALLOC_as_hash) is interpreted as (init_list,
   // buckets, alloc), which is valid.

   // (init_list, buckets, hash, pred)
   //
   // Cannot deduce from (init_list, buckets, BAD_hash, pred)
   static_assert(SFINAEs_away<Container, InitList, size_t, BadHash, Pred>);
   // Cannot deduce from (init_list, buckets, ALLOC_as_hash, pred)
   static_assert(SFINAEs_away<Container, InitList, size_t, AllocAsHash, Pred>);
   // Note: (init_list, buckets, hash, ALLOC_as_pred) is interpreted as
   // (init_list, buckets, hash, alloc), which is valid.

   // (init_list, buckets, hash, pred, alloc)
   //
   // Cannot deduce from (init_list, buckets, BAD_hash, pred, alloc)
   static_assert(
       SFINAEs_away<Container, InitList, size_t, BadHash, Pred, Alloc>);
   // Cannot deduce from (init_list, buckets, ALLOC_as_hash, pred, alloc)
   static_assert(
       SFINAEs_away<Container, InitList, size_t, AllocAsHash, Pred, Alloc>);
   // Cannot deduce from (init_list, buckets, hash, ALLOC_as_pred, alloc)
   static_assert(
       SFINAEs_away<Container, InitList, size_t, Hash, AllocAsPred, Alloc>);
   // Cannot deduce from (init_list, buckets, hash, pred, BAD_alloc)
   static_assert(
       SFINAEs_away<Container, InitList, size_t, Hash, Pred, BadAlloc>);

   // (init_list, buckets, alloc)
   //
   // Note: (init_list, buckets, BAD_alloc) is interpreted as (init_list,
   // buckets, hash), which is valid because the only requirement for the hash
   // parameter is that it's not integral.

   // (init_list, buckets, hash, alloc)
   //
   // Cannot deduce from (init_list, buckets, BAD_hash, alloc)
   static_assert(SFINAEs_away<Container, InitList, size_t, BadHash, Alloc>);
   // Cannot deduce from (init_list, buckets, ALLOC_as_hash, alloc)
   static_assert(SFINAEs_away<Container, InitList, size_t, AllocAsHash, Alloc>);

   // (init_list, alloc)
   //
   // Cannot deduce from (init_list, BAD_alloc)
   static_assert(SFINAEs_away<Container, InitList, BadAlloc>);
 }

 #endif // TEST_SUPPORT_DEDUCTION_GUIDES_SFINAE_CHECKS_H
	//===----------------------------------------------------------------------===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	#ifndef TEST_SUPPORT_DEDUCTION_GUIDES_SFINAE_CHECKS_H
	#define TEST_SUPPORT_DEDUCTION_GUIDES_SFINAE_CHECKS_H

	#include <initializer_list>
	#include <memory>
	#include <type_traits>
	#include <utility>

	#include "test_macros.h"

	// `SFINAEs_away` template variable checks whether the template arguments for
	// a given template class `Instantiated` can be deduced from the given
	// constructor parameter types `CtrArgs` using CTAD.

	template<template<typename ...> class Instantiated, class ...CtrArgs,
	class = decltype(Instantiated(std::declval<CtrArgs>()...))>
	std::false_type SFINAEs_away_impl(int);

	template<template<typename ...> class Instantiated, class ...CtrArgs>
	std::true_type SFINAEs_away_impl(...);

	template<template<typename ...> class Instantiated, class ...CtrArgs>
	constexpr bool SFINAEs_away =
	decltype(SFINAEs_away_impl<Instantiated, CtrArgs...>(0))::value;

	// For sequence containers the deduction guides should be SFINAE'd away when
	// given:
	// - "bad" input iterators (that is, a type not qualifying as an input
	// iterator);
	// - a bad allocator.
	template<template<typename ...> class Container, typename InstantiatedContainer>
	constexpr void SequenceContainerDeductionGuidesSfinaeAway() {
	using Alloc = std::allocator<int>;
	using Iter = int*;

	struct BadAlloc {};
	// Note: the only requirement in the Standard is that integral types cannot be
	// considered input iterators; however, this doesn't work for sequence
	// containers because they have constructors of the form `(size_type count,
	// const value_type& value)`. These constructors would be used when passing
	// two integral types and would deduce `value_type` to be an integral type.
	#ifdef _LIBCPP_VERSION
	using OutputIter = std::insert_iterator<InstantiatedContainer>;
	#endif // _LIBCPP_VERSION

	// (iter, iter)
	//
	// Cannot deduce from (BAD_iter, BAD_iter)
	LIBCPP_STATIC_ASSERT(SFINAEs_away<Container, OutputIter, OutputIter>);

	// (iter, iter, alloc)
	//
	// Cannot deduce from (BAD_iter, BAD_iter, alloc)
	LIBCPP_STATIC_ASSERT(SFINAEs_away<Container, OutputIter, OutputIter, Alloc>);
	// Cannot deduce from (iter, iter, BAD_alloc)
	static_assert(SFINAEs_away<Container, Iter, Iter, BadAlloc>);

	// (alloc)
	//
	// Cannot deduce from (alloc)
	static_assert(SFINAEs_away<Container, Alloc>);
	}

	// For associative containers the deduction guides should be SFINAE'd away when
	// given:
	// - "bad" input iterators (that is, a type not qualifying as an input
	// iterator);
	// - a bad allocator;
	// - an allocator in place of a comparator.

	template<template<typename ...> class Container, typename InstantiatedContainer>
	constexpr void AssociativeContainerDeductionGuidesSfinaeAway() {
	using ValueType = typename InstantiatedContainer::value_type;
	using Comp = std::less<int>;
	using Alloc = std::allocator<ValueType>;
	using Iter = ValueType*;
	using InitList = std::initializer_list<ValueType>;

	struct BadAlloc {};
	// The only requirement in the Standard is that integral types cannot be
	// considered input iterators, beyond that it is unspecified.
	using BadIter = int;
	#ifdef _LIBCPP_VERSION
	using OutputIter = std::insert_iterator<InstantiatedContainer>;
	#endif // _LIBCPP_VERSION
	using AllocAsComp = Alloc;

	// (iter, iter)
	//
	// Cannot deduce from (BAD_iter, BAD_iter)
	static_assert(SFINAEs_away<Container, BadIter, BadIter>);
	LIBCPP_STATIC_ASSERT(SFINAEs_away<Container, OutputIter, OutputIter>);

	// (iter, iter, comp)
	//
	// Cannot deduce from (BAD_iter, BAD_iter, comp)
	static_assert(SFINAEs_away<Container, BadIter, BadIter, Comp>);
	LIBCPP_STATIC_ASSERT(SFINAEs_away<Container, OutputIter, OutputIter, Comp>);

	// (iter, iter, comp, alloc)
	//
	// Cannot deduce from (BAD_iter, BAD_iter, comp, alloc)
	static_assert(SFINAEs_away<Container, BadIter, BadIter, Comp, Alloc>);
	LIBCPP_STATIC_ASSERT(
	SFINAEs_away<Container, OutputIter, OutputIter, Comp, Alloc>);
	// Cannot deduce from (iter, iter, ALLOC_as_comp, alloc)
	static_assert(SFINAEs_away<Container, Iter, Iter, AllocAsComp, Alloc>);
	// Cannot deduce from (iter, iter, comp, BAD_alloc)
	static_assert(SFINAEs_away<Container, Iter, Iter, Comp, BadAlloc>);

	// (iter, iter, alloc)
	//
	// Cannot deduce from (BAD_iter, BAD_iter, alloc)
	static_assert(SFINAEs_away<Container, BadIter, BadIter, Alloc>);
	LIBCPP_STATIC_ASSERT(SFINAEs_away<Container, OutputIter, OutputIter, Alloc>);
	// Note: (iter, iter, BAD_alloc) is interpreted as (iter, iter, comp)
	// instead and fails upon instantiation. There is no requirement to SFINAE
	// away bad comparators.

	// (init_list, comp, alloc)
	//
	// Cannot deduce from (init_list, ALLOC_as_comp, alloc)
	static_assert(SFINAEs_away<Container, InitList, AllocAsComp, Alloc>);
	// Cannot deduce from (init_list, comp, BAD_alloc)
	static_assert(SFINAEs_away<Container, InitList, Comp, BadAlloc>);

	// (init_list, alloc)
	//
	// Note: (init_list, BAD_alloc) is interpreted as (init_list, comp) instead
	// and fails upon instantiation. There is no requirement to SFINAE away bad
	// comparators.
	}

	// For unordered containers the deduction guides should be SFINAE'd away when
	// given:
	// - "bad" input iterators (that is, a type not qualifying as an input
	// iterator);
	// - a bad allocator;
	// - a bad hash functor (an integral type in place of a hash);
	// - an allocator in place of a hash functor;
	// - an allocator in place of a predicate.
	template<template<typename ...> class Container, typename InstantiatedContainer>
	constexpr void UnorderedContainerDeductionGuidesSfinaeAway() {
	using ValueType = typename InstantiatedContainer::value_type;
	using Pred = std::equal_to<int>;
	using Hash = std::hash<int>;
	using Alloc = std::allocator<ValueType>;
	using Iter = ValueType*;
	using InitList = std::initializer_list<ValueType>;

	using BadHash = int;
	struct BadAlloc {};
	// The only requirement in the Standard is that integral types cannot be
	// considered input iterators, beyond that it is unspecified.
	using BadIter = int;
	#ifdef _LIBCPP_VERSION
	using OutputIter = std::insert_iterator<InstantiatedContainer>;
	#endif // _LIBCPP_VERSION
	using AllocAsHash = Alloc;
	using AllocAsPred = Alloc;

	// (iter, iter)
	//
	// Cannot deduce from (BAD_iter, BAD_iter)
	static_assert(SFINAEs_away<Container, BadIter, BadIter>);
	LIBCPP_STATIC_ASSERT(SFINAEs_away<Container, OutputIter, OutputIter>);

	// (iter, iter, buckets)
	//
	// Cannot deduce from (BAD_iter, BAD_iter, buckets)
	static_assert(SFINAEs_away<Container, BadIter, BadIter, size_t>);
	LIBCPP_STATIC_ASSERT(SFINAEs_away<Container, OutputIter, OutputIter, size_t>);

	// (iter, iter, buckets, hash)
	//
	// Cannot deduce from (BAD_iter, BAD_iter, buckets, hash)
	static_assert(SFINAEs_away<Container, BadIter, BadIter, size_t, Hash>);
	LIBCPP_STATIC_ASSERT(
	SFINAEs_away<Container, OutputIter, OutputIter, size_t, Hash>);
	// Cannot deduce from (iter, iter, buckets, BAD_hash)
	static_assert(SFINAEs_away<Container, Iter, Iter, size_t, BadHash>);
	// Note: (iter, iter, buckets, ALLOC_as_hash) is allowed -- it just calls
	// (iter, iter, buckets, alloc)

	// (iter, iter, buckets, hash, pred)
	//
	// Cannot deduce from (BAD_iter, BAD_iter, buckets, hash, pred)
	static_assert(SFINAEs_away<Container, BadIter, BadIter, size_t, Hash, Pred>);
	LIBCPP_STATIC_ASSERT(
	SFINAEs_away<Container, OutputIter, OutputIter, size_t, Hash, Pred>);
	// Cannot deduce from (iter, iter, buckets, BAD_hash, pred)
	static_assert(SFINAEs_away<Container, Iter, Iter, size_t, BadHash, Pred>);
	// Cannot deduce from (iter, iter, buckets, ALLOC_as_hash, pred)
	static_assert(SFINAEs_away<Container, Iter, Iter, size_t, AllocAsHash, Pred>);
	// Note: (iter, iter, buckets, hash, ALLOC_as_pred) is allowed -- it just
	// calls (iter, iter, buckets, hash, alloc)

	// (iter, iter, buckets, hash, pred, alloc)
	//
	// Cannot deduce from (BAD_iter, BAD_iter, buckets, hash, pred, alloc)
	static_assert(
	SFINAEs_away<Container, BadIter, BadIter, size_t, Hash, Pred, Alloc>);
	LIBCPP_STATIC_ASSERT(SFINAEs_away<Container, OutputIter, OutputIter,
	size_t, Hash, Pred, Alloc>);
	// Cannot deduce from (iter, iter, buckets, BAD_hash, pred, alloc)
	static_assert(
	SFINAEs_away<Container, Iter, Iter, size_t, BadHash, Pred, Alloc>);
	// Cannot deduce from (iter, iter, buckets, ALLOC_as_hash, pred, alloc)
	static_assert(
	SFINAEs_away<Container, Iter, Iter, size_t, AllocAsHash, Pred, Alloc>);
	// Cannot deduce from (iter, iter, buckets, hash, ALLOC_as_pred, alloc)
	static_assert(
	SFINAEs_away<Container, Iter, Iter, size_t, Hash, AllocAsPred, Alloc>);
	// Cannot deduce from (iter, iter, buckets, hash, pred, BAD_alloc)
	static_assert(
	SFINAEs_away<Container, Iter, Iter, size_t, Hash, Pred, BadAlloc>);

	// (iter, iter, buckets, alloc)
	//
	// Cannot deduce from (BAD_iter, BAD_iter, buckets, alloc)
	static_assert(SFINAEs_away<Container, BadIter, BadIter, size_t, Alloc>);
	LIBCPP_STATIC_ASSERT(
	SFINAEs_away<Container, OutputIter, OutputIter, size_t, Alloc>);
	// Note: (iter, iter, buckets, BAD_alloc) is interpreted as (iter, iter,
	// buckets, hash), which is valid because the only requirement for the hash
	// parameter is that it's not integral.

	// (iter, iter, alloc)
	//
	// Cannot deduce from (BAD_iter, BAD_iter, alloc)
	static_assert(SFINAEs_away<Container, BadIter, BadIter, Alloc>);
	LIBCPP_STATIC_ASSERT(SFINAEs_away<Container, OutputIter, OutputIter, Alloc>);
	// Cannot deduce from (iter, iter, BAD_alloc)
	static_assert(SFINAEs_away<Container, Iter, Iter, BadAlloc>);

	// (iter, iter, buckets, hash, alloc)
	//
	// Cannot deduce from (BAD_iter, BAD_iter, buckets, hash, alloc)
	static_assert(SFINAEs_away<Container, BadIter, BadIter, size_t, Hash, Alloc>);
	LIBCPP_STATIC_ASSERT(
	SFINAEs_away<Container, OutputIter, OutputIter, size_t, Hash, Alloc>);
	// Cannot deduce from (iter, iter, buckets, BAD_hash, alloc)
	static_assert(SFINAEs_away<Container, Iter, Iter, size_t, BadHash, Alloc>);
	// Cannot deduce from (iter, iter, buckets, ALLOC_as_hash, alloc)
	static_assert(
	SFINAEs_away<Container, Iter, Iter, size_t, AllocAsHash, Alloc>);
	// Note: (iter, iter, buckets, hash, BAD_alloc) is interpreted as (iter, iter,
	// buckets, hash, pred), which is valid because there are no requirements for
	// the predicate.

	// (init_list, buckets, hash)
	//
	// Cannot deduce from (init_list, buckets, BAD_hash)
	static_assert(SFINAEs_away<Container, InitList, size_t, BadHash>);
	// Note: (init_list, buckets, ALLOC_as_hash) is interpreted as (init_list,
	// buckets, alloc), which is valid.

	// (init_list, buckets, hash, pred)
	//
	// Cannot deduce from (init_list, buckets, BAD_hash, pred)
	static_assert(SFINAEs_away<Container, InitList, size_t, BadHash, Pred>);
	// Cannot deduce from (init_list, buckets, ALLOC_as_hash, pred)
	static_assert(SFINAEs_away<Container, InitList, size_t, AllocAsHash, Pred>);
	// Note: (init_list, buckets, hash, ALLOC_as_pred) is interpreted as
	// (init_list, buckets, hash, alloc), which is valid.

	// (init_list, buckets, hash, pred, alloc)
	//
	// Cannot deduce from (init_list, buckets, BAD_hash, pred, alloc)
	static_assert(
	SFINAEs_away<Container, InitList, size_t, BadHash, Pred, Alloc>);
	// Cannot deduce from (init_list, buckets, ALLOC_as_hash, pred, alloc)
	static_assert(
	SFINAEs_away<Container, InitList, size_t, AllocAsHash, Pred, Alloc>);
	// Cannot deduce from (init_list, buckets, hash, ALLOC_as_pred, alloc)
	static_assert(
	SFINAEs_away<Container, InitList, size_t, Hash, AllocAsPred, Alloc>);
	// Cannot deduce from (init_list, buckets, hash, pred, BAD_alloc)
	static_assert(
	SFINAEs_away<Container, InitList, size_t, Hash, Pred, BadAlloc>);

	// (init_list, buckets, alloc)
	//
	// Note: (init_list, buckets, BAD_alloc) is interpreted as (init_list,
	// buckets, hash), which is valid because the only requirement for the hash
	// parameter is that it's not integral.

	// (init_list, buckets, hash, alloc)
	//
	// Cannot deduce from (init_list, buckets, BAD_hash, alloc)
	static_assert(SFINAEs_away<Container, InitList, size_t, BadHash, Alloc>);
	// Cannot deduce from (init_list, buckets, ALLOC_as_hash, alloc)
	static_assert(SFINAEs_away<Container, InitList, size_t, AllocAsHash, Alloc>);

	// (init_list, alloc)
	//
	// Cannot deduce from (init_list, BAD_alloc)
	static_assert(SFINAEs_away<Container, InitList, BadAlloc>);
	}

	#endif // TEST_SUPPORT_DEDUCTION_GUIDES_SFINAE_CHECKS_H