gcc/testsuite/g++.dg/torture/pr80171.C - gcc - Git at Google

 // { dg-do compile }
 // { dg-additional-options "-Wno-return-type" }

 template <typename> struct remove_reference;
 template <typename _Tp> struct remove_reference<_Tp &> { typedef _Tp type; };
 template <typename _Tp> typename remove_reference<_Tp>::type move(_Tp &&p1) {
   return static_cast<typename remove_reference<_Tp>::type &&>(p1);
 }
 void *operator new(__SIZE_TYPE__, void *p2) { return p2; }
 struct Trans_NS__v1_GenericTlv {
   virtual int getMinimumValueLength();
   virtual unsigned long getValueLength() const;
 };
 struct IPv4NeighborAddressSubTlv;
 struct Trans_NS__v1_GenericTlvBase : Trans_NS__v1_GenericTlv {
   virtual bool operator==(const IPv4NeighborAddressSubTlv &) const;
 };
 struct Trans_NS__v1_GenericUnsupportedTlv;
 template <typename> struct backup_holder {
   Trans_NS__v1_GenericUnsupportedTlv *backup_;
   Trans_NS__v1_GenericUnsupportedTlv &get() { return *backup_; }
 };
 template <typename> struct make_reference_content {
   typedef IPv4NeighborAddressSubTlv type;
 };
 template <typename> struct unwrap_recursive {
   typedef IPv4NeighborAddressSubTlv type;
 };
 template <typename> struct begin_impl;
 template <typename Sequence> struct begin {
   typedef typename Sequence::tag tag_;
   typedef typename begin_impl<tag_>::template apply<Sequence>::type type;
 };
 struct long_ {
   static const int value = 0;
 };
 template <typename> struct O1_size_impl;
 template <typename Sequence>
 struct O1_size
     : O1_size_impl<typename Sequence::tag>::template apply<Sequence> {};
 template <typename F, typename T2>
 struct apply_wrap2 : F::template apply<int, T2> {};
 template <int, typename, typename> struct iter_fold_impl;
 template <typename First, typename ForwardOp>
 struct iter_fold_impl<0, First, ForwardOp> {
   typedef typename apply_wrap2<ForwardOp, First>::type state;
 };
 template <typename Sequence, typename ForwardOp> struct iter_fold {
   typedef
       typename iter_fold_impl<O1_size<Sequence>::value,
                               typename begin<Sequence>::type, ForwardOp>::state
           type;
 };
 template <typename> struct deref;
 template <typename T1> struct pair { typedef T1 first; };
 struct make_initializer_node {
   template <typename, typename Iterator> struct apply {
     struct initializer_node {
       typedef typename deref<Iterator>::type recursive_enabled_T;
       static int
       initialize(void *p1,
                  typename unwrap_recursive<recursive_enabled_T>::type) {
         new (p1) typename make_reference_content<recursive_enabled_T>::type;
       }
     };
     typedef pair<initializer_node> type;
   };
 };
 struct l_item {
   typedef int tag;
   typedef l_item type;
   typedef long_ size;
   typedef int item;
 };
 template <> struct O1_size_impl<int> {
   template <typename List> struct apply : List::size {};
 };
 template <typename> struct l_iter;
 template <typename Node> struct deref<l_iter<Node>> {
   typedef typename Node::item type;
 };
 template <> struct begin_impl<int> {
   template <typename List> struct apply {
     typedef l_iter<typename List::type> type;
   };
 };
 template <typename, typename, typename, typename, typename, typename, typename>
 struct list : l_item {};
 template <typename... T> struct make_variant_list { typedef list<T...> type; };
 template <typename T> T cast_storage(void *p1) { return *static_cast<T *>(p1); }
 struct visitation_impl_step {
   typedef Trans_NS__v1_GenericUnsupportedTlv type;
 };
 template <typename Visitor, typename VoidPtrCV, typename T>
 void visitation_impl_invoke_impl(Visitor p1, VoidPtrCV p2, T *) {
   backup_holder<Trans_NS__v1_GenericUnsupportedTlv> __trans_tmp_8 =
       cast_storage<backup_holder<T>>(p2);
   p1.internal_visit(__trans_tmp_8, 0);
 }
 template <typename Visitor, typename VoidPtrCV, typename T,
           typename NoBackupFlag>
 void visitation_impl_invoke(Visitor p1, VoidPtrCV p2, T p3, NoBackupFlag) {
   visitation_impl_invoke_impl(p1, p2, p3);
 }
 template <typename Which, typename step0, typename Visitor, typename VoidPtrCV,
           typename NoBackupFlag>
 void visitation_impl(Visitor p1, VoidPtrCV p2, NoBackupFlag, Which, step0 *) {
   visitation_impl_invoke(p1, p2, static_cast<typename step0::type *>(0), 0);
 }
 struct move_into {
   move_into(void *);
   template <typename T> void internal_visit(backup_holder<T> p1, int) {
     T __trans_tmp_2 = p1.get();
     new (0) T(__trans_tmp_2);
   }
 };
 template <typename, typename... TN> struct variant {
   struct initializer : iter_fold<typename make_variant_list<int, TN...>::type,
                                  make_initializer_node>::type::first {};
   template <typename T> void convert_construct(T p1, int) {
     void *__trans_tmp_9 = this;
     initializer::initialize(__trans_tmp_9, p1);
   }
   template <typename T> variant(T p1) { convert_construct(p1, 0); }
   variant(variant &&p1) {
     move_into visitor(0);
     p1.internal_apply_visitor(visitor);
   }
   template <typename Visitor> void internal_apply_visitor(Visitor p1) {
     void *__trans_tmp_10 = this;
     visitation_impl(p1, __trans_tmp_10, 0, 0,
                     static_cast<visitation_impl_step *>(0));
   }
 };
 template <class...> struct generic_element_tlvs;
 template <typename TlvConfig, class UnsupportedTlvClass, class TlvF,
           class... TlvR>
 struct generic_element_tlvs<TlvConfig, UnsupportedTlvClass, TlvF, TlvR...> {
   typedef variant<UnsupportedTlvClass, TlvF, TlvR...> variant_type;
 };
 template <typename, typename> struct Trans_NS__v1_GenericTlvContainer {
   template <class TlvClass> void addTlv(const TlvClass &);
 };
 template <typename TlvConfig, typename ElementTlvs>
 template <class TlvClass>
 void Trans_NS__v1_GenericTlvContainer<TlvConfig, ElementTlvs>::addTlv(
     const TlvClass &p1) {
   typename ElementTlvs::variant_type wrap(p1);
   move(wrap);
 }
 template <typename ElementTlvs>
 struct Trans_NS__v1_GenericContainerEntryBase
     : Trans_NS__v1_GenericTlvContainer<int, ElementTlvs> {};
 template <class>
 struct Trans_NS__v1_GenericFixedLengthTlvBase : Trans_NS__v1_GenericTlvBase {
   unsigned long getValueLength() const;
 };
 struct Trans_NS__v1_GenericUnsupportedTlv : Trans_NS__v1_GenericTlv {
   long getHeaderLengthconst;
 };
 using isis_tlv_config = int;
 template <class... TlvClasses>
 using isis_element_tlvs =
     generic_element_tlvs<isis_tlv_config, Trans_NS__v1_GenericUnsupportedTlv,
                          TlvClasses...>;
 template <int, class, typename ElementTlvs>
 using ContainerEntryBase = Trans_NS__v1_GenericContainerEntryBase<ElementTlvs>;
 template <int, class ImplClass, int>
 using FixedLengthTlvBase = Trans_NS__v1_GenericFixedLengthTlvBase<ImplClass>;
 struct IPv4NeighborAddressSubTlv
     : FixedLengthTlvBase<0, IPv4NeighborAddressSubTlv, 0> {
   bool operator==(const IPv4NeighborAddressSubTlv &) const;
 };
 void test() {
   ContainerEntryBase<
       0, int,
       isis_element_tlvs<
           FixedLengthTlvBase<0, int, 0>, FixedLengthTlvBase<0, int, 0>,
           IPv4NeighborAddressSubTlv, FixedLengthTlvBase<0, int, 0>,
           FixedLengthTlvBase<0, int, 0>, FixedLengthTlvBase<0, int, 0>>>
       isEntry;
   IPv4NeighborAddressSubTlv nbAddressSubTlv;
   isEntry.addTlv(nbAddressSubTlv);
 }
	// { dg-do compile }
	// { dg-additional-options "-Wno-return-type" }

	template <typename> struct remove_reference;
	template <typename _Tp> struct remove_reference<_Tp &> { typedef _Tp type; };
	template <typename _Tp> typename remove_reference<_Tp>::type move(_Tp &&p1) {
	return static_cast<typename remove_reference<_Tp>::type &&>(p1);
	}
	void operator new(__SIZE_TYPE__, void p2) { return p2; }
	struct Trans_NS__v1_GenericTlv {
	virtual int getMinimumValueLength();
	virtual unsigned long getValueLength() const;
	};
	struct IPv4NeighborAddressSubTlv;
	struct Trans_NS__v1_GenericTlvBase : Trans_NS__v1_GenericTlv {
	virtual bool operator==(const IPv4NeighborAddressSubTlv &) const;
	};
	struct Trans_NS__v1_GenericUnsupportedTlv;
	template <typename> struct backup_holder {
	Trans_NS__v1_GenericUnsupportedTlv *backup_;
	Trans_NS__v1_GenericUnsupportedTlv &get() { return *backup_; }
	};
	template <typename> struct make_reference_content {
	typedef IPv4NeighborAddressSubTlv type;
	};
	template <typename> struct unwrap_recursive {
	typedef IPv4NeighborAddressSubTlv type;
	};
	template <typename> struct begin_impl;
	template <typename Sequence> struct begin {
	typedef typename Sequence::tag tag_;
	typedef typename begin_impl<tag_>::template apply<Sequence>::type type;
	};
	struct long_ {
	static const int value = 0;
	};
	template <typename> struct O1_size_impl;
	template <typename Sequence>
	struct O1_size
	: O1_size_impl<typename Sequence::tag>::template apply<Sequence> {};
	template <typename F, typename T2>
	struct apply_wrap2 : F::template apply<int, T2> {};
	template <int, typename, typename> struct iter_fold_impl;
	template <typename First, typename ForwardOp>
	struct iter_fold_impl<0, First, ForwardOp> {
	typedef typename apply_wrap2<ForwardOp, First>::type state;
	};
	template <typename Sequence, typename ForwardOp> struct iter_fold {
	typedef
	typename iter_fold_impl<O1_size<Sequence>::value,
	typename begin<Sequence>::type, ForwardOp>::state
	type;
	};
	template <typename> struct deref;
	template <typename T1> struct pair { typedef T1 first; };
	struct make_initializer_node {
	template <typename, typename Iterator> struct apply {
	struct initializer_node {
	typedef typename deref<Iterator>::type recursive_enabled_T;
	static int
	initialize(void *p1,
	typename unwrap_recursive<recursive_enabled_T>::type) {
	new (p1) typename make_reference_content<recursive_enabled_T>::type;
	}
	};
	typedef pair<initializer_node> type;
	};
	};
	struct l_item {
	typedef int tag;
	typedef l_item type;
	typedef long_ size;
	typedef int item;
	};
	template <> struct O1_size_impl<int> {
	template <typename List> struct apply : List::size {};
	};
	template <typename> struct l_iter;
	template <typename Node> struct deref<l_iter<Node>> {
	typedef typename Node::item type;
	};
	template <> struct begin_impl<int> {
	template <typename List> struct apply {
	typedef l_iter<typename List::type> type;
	};
	};
	template <typename, typename, typename, typename, typename, typename, typename>
	struct list : l_item {};
	template <typename... T> struct make_variant_list { typedef list<T...> type; };
	template <typename T> T cast_storage(void p1) { return static_cast<T *>(p1); }
	struct visitation_impl_step {
	typedef Trans_NS__v1_GenericUnsupportedTlv type;
	};
	template <typename Visitor, typename VoidPtrCV, typename T>
	void visitation_impl_invoke_impl(Visitor p1, VoidPtrCV p2, T *) {
	backup_holder<Trans_NS__v1_GenericUnsupportedTlv> __trans_tmp_8 =
	cast_storage<backup_holder<T>>(p2);
	p1.internal_visit(__trans_tmp_8, 0);
	}
	template <typename Visitor, typename VoidPtrCV, typename T,
	typename NoBackupFlag>
	void visitation_impl_invoke(Visitor p1, VoidPtrCV p2, T p3, NoBackupFlag) {
	visitation_impl_invoke_impl(p1, p2, p3);
	}
	template <typename Which, typename step0, typename Visitor, typename VoidPtrCV,
	typename NoBackupFlag>
	void visitation_impl(Visitor p1, VoidPtrCV p2, NoBackupFlag, Which, step0 *) {
	visitation_impl_invoke(p1, p2, static_cast<typename step0::type *>(0), 0);
	}
	struct move_into {
	move_into(void *);
	template <typename T> void internal_visit(backup_holder<T> p1, int) {
	T __trans_tmp_2 = p1.get();
	new (0) T(__trans_tmp_2);
	}
	};
	template <typename, typename... TN> struct variant {
	struct initializer : iter_fold<typename make_variant_list<int, TN...>::type,
	make_initializer_node>::type::first {};
	template <typename T> void convert_construct(T p1, int) {
	void *__trans_tmp_9 = this;
	initializer::initialize(__trans_tmp_9, p1);
	}
	template <typename T> variant(T p1) { convert_construct(p1, 0); }
	variant(variant &&p1) {
	move_into visitor(0);
	p1.internal_apply_visitor(visitor);
	}
	template <typename Visitor> void internal_apply_visitor(Visitor p1) {
	void *__trans_tmp_10 = this;
	visitation_impl(p1, __trans_tmp_10, 0, 0,
	static_cast<visitation_impl_step *>(0));
	}
	};
	template <class...> struct generic_element_tlvs;
	template <typename TlvConfig, class UnsupportedTlvClass, class TlvF,
	class... TlvR>
	struct generic_element_tlvs<TlvConfig, UnsupportedTlvClass, TlvF, TlvR...> {
	typedef variant<UnsupportedTlvClass, TlvF, TlvR...> variant_type;
	};
	template <typename, typename> struct Trans_NS__v1_GenericTlvContainer {
	template <class TlvClass> void addTlv(const TlvClass &);
	};
	template <typename TlvConfig, typename ElementTlvs>
	template <class TlvClass>
	void Trans_NS__v1_GenericTlvContainer<TlvConfig, ElementTlvs>::addTlv(
	const TlvClass &p1) {
	typename ElementTlvs::variant_type wrap(p1);
	move(wrap);
	}
	template <typename ElementTlvs>
	struct Trans_NS__v1_GenericContainerEntryBase
	: Trans_NS__v1_GenericTlvContainer<int, ElementTlvs> {};
	template <class>
	struct Trans_NS__v1_GenericFixedLengthTlvBase : Trans_NS__v1_GenericTlvBase {
	unsigned long getValueLength() const;
	};
	struct Trans_NS__v1_GenericUnsupportedTlv : Trans_NS__v1_GenericTlv {
	long getHeaderLengthconst;
	};
	using isis_tlv_config = int;
	template <class... TlvClasses>
	using isis_element_tlvs =
	generic_element_tlvs<isis_tlv_config, Trans_NS__v1_GenericUnsupportedTlv,
	TlvClasses...>;
	template <int, class, typename ElementTlvs>
	using ContainerEntryBase = Trans_NS__v1_GenericContainerEntryBase<ElementTlvs>;
	template <int, class ImplClass, int>
	using FixedLengthTlvBase = Trans_NS__v1_GenericFixedLengthTlvBase<ImplClass>;
	struct IPv4NeighborAddressSubTlv
	: FixedLengthTlvBase<0, IPv4NeighborAddressSubTlv, 0> {
	bool operator==(const IPv4NeighborAddressSubTlv &) const;
	};
	void test() {
	ContainerEntryBase<
	0, int,
	isis_element_tlvs<
	FixedLengthTlvBase<0, int, 0>, FixedLengthTlvBase<0, int, 0>,
	IPv4NeighborAddressSubTlv, FixedLengthTlvBase<0, int, 0>,
	FixedLengthTlvBase<0, int, 0>, FixedLengthTlvBase<0, int, 0>>>
	isEntry;
	IPv4NeighborAddressSubTlv nbAddressSubTlv;
	isEntry.addTlv(nbAddressSubTlv);
	}