gcc/testsuite/g++.dg/torture/pr53752.C - gcc - Git at Google

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

 typedef unsigned int uint32_t;
 typedef unsigned long int uint64_t;
 namespace mpl_ {
     template< typename T, T N > struct integral_c {
 	static const T value = N;
     };
 }
 namespace mpl {
     using namespace mpl_;
 };
 template <class T, T val> struct integral_constant : public mpl::integral_c<T, val> {
     typedef integral_constant<bool,false> type;
 };
 template< typename T > struct is_lvalue_reference : public ::integral_constant<bool,false> {
 };
 template< typename T > struct is_rvalue_reference : public ::integral_constant<bool,false> {
 };
 namespace type_traits {
     template <bool b1, bool b2, bool b3 = false, bool b4 = false, bool b5 = false, bool b6 = false, bool b7 = false> struct ice_or;
     template <> struct ice_or<false, false, false, false, false, false, false> {
 	static const bool value = false;
     };
 }
 template <typename T> struct is_reference_impl {
     static const bool value = (::type_traits::ice_or< ::is_lvalue_reference<T>::value, ::is_rvalue_reference<T>::value >::value)                  ;
 };
 template< typename T > struct is_reference : public ::integral_constant<bool,::is_reference_impl<T>::value> {
 };
 struct na {
 };
 namespace mpl {
     template<       bool C     , typename T1     , typename T2     > struct if_c {
 	typedef T2 type;
     };
     template<       typename T1 = na     , typename T2 = na     , typename T3 = na     > struct if_ {
 	typedef if_c<           static_cast<bool>(T1::value)         , T2         , T3         > almost_type_;
 	typedef typename almost_type_::type type;
     };
 }
 namespace optional_detail {
     template<class T> struct types_when_isnt_ref {
 	typedef T & reference_type ;
     }
     ;
     template<class T> struct types_when_is_ref {
     }
     ;
     struct optional_tag {
     }
     ;
     template<class T> class optional_base : public optional_tag {
 	typedef types_when_isnt_ref<T> types_when_not_ref ;
 	typedef types_when_is_ref<T> types_when_ref ;
     protected :
 	typedef typename is_reference<T>::type is_reference_predicate ;
 	typedef typename mpl::if_<is_reference_predicate,types_when_ref,types_when_not_ref>::type types ;
 	typedef typename types::reference_type reference_type ;
     }
     ;
 }
 template<class T> class optional : public optional_detail::optional_base<T> {
     typedef optional_detail::optional_base<T> base ;
 public :
     typedef typename base::reference_type reference_type ;
     reference_type operator *() {
     }
 };
 namespace noncopyable_ {
     class noncopyable   {
     };
 }
 typedef noncopyable_::noncopyable noncopyable;
 template<class T> class shared_ptr {
 public:
     T * operator-> () const     {
     }
 };
 typedef uint64_t block_address;
 class transaction_manager : noncopyable {
 public:
     typedef shared_ptr<transaction_manager> ptr;
 };
 template <typename ValueType>  class NoOpRefCounter {
 };
 struct uint64_traits {
 };
 namespace btree_detail {
     class shadow_spine : private noncopyable {
     public:
 	shadow_spine(transaction_manager::ptr tm)     : tm_(tm) {
 	}
 	transaction_manager::ptr tm_;
     };
 }
 template <unsigned Levels, typename ValueTraits>  class btree {
 public:
     typedef shared_ptr<btree<Levels, ValueTraits> > ptr;
     typedef uint64_t key[Levels];
     typedef typename ValueTraits::value_type value_type;
     typedef optional<value_type> maybe_value;
     btree(typename transaction_manager::ptr tm,         typename ValueTraits::ref_counter rc);
     maybe_value lookup(key const &key) const;
     void insert(key const &key, typename ValueTraits::value_type const &value);
     template <typename ValueTraits2>   bool   insert_location(btree_detail::shadow_spine &spine,     block_address block,     uint64_t key,     int *index);
     typename transaction_manager::ptr tm_;
     block_address root_;
     typename ValueTraits::ref_counter rc_;
 };
 template <unsigned Levels, typename ValueTraits> void btree<Levels, ValueTraits>:: insert(key const &key,        typename ValueTraits::value_type const &value) {
     using namespace btree_detail;
     block_address block = root_;
     int index = 0;
     shadow_spine spine(tm_);
     for (unsigned level = 0;
 	 level < Levels - 1;
 	 ++level) {
 	bool need_insert = insert_location<uint64_traits>(spine, block, key[level], &index);
 	if (need_insert) {
 	    btree<Levels - 1, ValueTraits> new_tree(tm_, rc_);
 	}
     }
 }
 struct device_details_disk {
 }
 __attribute__ ((packed));
 struct device_details {
 };
 struct device_details_traits {
     typedef device_details value_type;
     typedef NoOpRefCounter<device_details> ref_counter;
 };
 typedef uint32_t thin_dev_t;
 typedef btree<1, device_details_traits> detail_tree;
 struct metadata {
     typedef shared_ptr<metadata> ptr;
     detail_tree::ptr details_;
 };
 class thin_pool;
 class thin {
     void set_snapshot_time(uint32_t time);
     thin_dev_t dev_;
     thin_pool *pool_;
 };
 class thin_pool {
 public:
     metadata::ptr md_;
 };
 void thin::set_snapshot_time(uint32_t time) {
     uint64_t key[1] = {
 	dev_ };
     optional<device_details> mdetail = pool_->md_->details_->lookup(key);
     pool_->md_->details_->insert(key, *mdetail);
 }
	// { dg-do compile }
	// { dg-options "-g -Wno-return-type" }

	typedef unsigned int uint32_t;
	typedef unsigned long int uint64_t;
	namespace mpl_ {
	template< typename T, T N > struct integral_c {
	static const T value = N;
	};
	}
	namespace mpl {
	using namespace mpl_;
	};
	template <class T, T val> struct integral_constant : public mpl::integral_c<T, val> {
	typedef integral_constant<bool,false> type;
	};
	template< typename T > struct is_lvalue_reference : public ::integral_constant<bool,false> {
	};
	template< typename T > struct is_rvalue_reference : public ::integral_constant<bool,false> {
	};
	namespace type_traits {
	template <bool b1, bool b2, bool b3 = false, bool b4 = false, bool b5 = false, bool b6 = false, bool b7 = false> struct ice_or;
	template <> struct ice_or<false, false, false, false, false, false, false> {
	static const bool value = false;
	};
	}
	template <typename T> struct is_reference_impl {
	static const bool value = (::type_traits::ice_or< ::is_lvalue_reference<T>::value, ::is_rvalue_reference<T>::value >::value) ;
	};
	template< typename T > struct is_reference : public ::integral_constant<bool,::is_reference_impl<T>::value> {
	};
	struct na {
	};
	namespace mpl {
	template< bool C , typename T1 , typename T2 > struct if_c {
	typedef T2 type;
	};
	template< typename T1 = na , typename T2 = na , typename T3 = na > struct if_ {
	typedef if_c< static_cast<bool>(T1::value) , T2 , T3 > almost_type_;
	typedef typename almost_type_::type type;
	};
	}
	namespace optional_detail {
	template<class T> struct types_when_isnt_ref {
	typedef T & reference_type ;
	}
	;
	template<class T> struct types_when_is_ref {
	}
	;
	struct optional_tag {
	}
	;
	template<class T> class optional_base : public optional_tag {
	typedef types_when_isnt_ref<T> types_when_not_ref ;
	typedef types_when_is_ref<T> types_when_ref ;
	protected :
	typedef typename is_reference<T>::type is_reference_predicate ;
	typedef typename mpl::if_<is_reference_predicate,types_when_ref,types_when_not_ref>::type types ;
	typedef typename types::reference_type reference_type ;
	}
	;
	}
	template<class T> class optional : public optional_detail::optional_base<T> {
	typedef optional_detail::optional_base<T> base ;
	public :
	typedef typename base::reference_type reference_type ;
	reference_type operator *() {
	}
	};
	namespace noncopyable_ {
	class noncopyable {
	};
	}
	typedef noncopyable_::noncopyable noncopyable;
	template<class T> class shared_ptr {
	public:
	T * operator-> () const {
	}
	};
	typedef uint64_t block_address;
	class transaction_manager : noncopyable {
	public:
	typedef shared_ptr<transaction_manager> ptr;
	};
	template <typename ValueType> class NoOpRefCounter {
	};
	struct uint64_traits {
	};
	namespace btree_detail {
	class shadow_spine : private noncopyable {
	public:
	shadow_spine(transaction_manager::ptr tm) : tm_(tm) {
	}
	transaction_manager::ptr tm_;
	};
	}
	template <unsigned Levels, typename ValueTraits> class btree {
	public:
	typedef shared_ptr<btree<Levels, ValueTraits> > ptr;
	typedef uint64_t key[Levels];
	typedef typename ValueTraits::value_type value_type;
	typedef optional<value_type> maybe_value;
	btree(typename transaction_manager::ptr tm, typename ValueTraits::ref_counter rc);
	maybe_value lookup(key const &key) const;
	void insert(key const &key, typename ValueTraits::value_type const &value);
	template <typename ValueTraits2> bool insert_location(btree_detail::shadow_spine &spine, block_address block, uint64_t key, int *index);
	typename transaction_manager::ptr tm_;
	block_address root_;
	typename ValueTraits::ref_counter rc_;
	};
	template <unsigned Levels, typename ValueTraits> void btree<Levels, ValueTraits>:: insert(key const &key, typename ValueTraits::value_type const &value) {
	using namespace btree_detail;
	block_address block = root_;
	int index = 0;
	shadow_spine spine(tm_);
	for (unsigned level = 0;
	level < Levels - 1;
	++level) {
	bool need_insert = insert_location<uint64_traits>(spine, block, key[level], &index);
	if (need_insert) {
	btree<Levels - 1, ValueTraits> new_tree(tm_, rc_);
	}
	}
	}
	struct device_details_disk {
	}
	__attribute__ ((packed));
	struct device_details {
	};
	struct device_details_traits {
	typedef device_details value_type;
	typedef NoOpRefCounter<device_details> ref_counter;
	};
	typedef uint32_t thin_dev_t;
	typedef btree<1, device_details_traits> detail_tree;
	struct metadata {
	typedef shared_ptr<metadata> ptr;
	detail_tree::ptr details_;
	};
	class thin_pool;
	class thin {
	void set_snapshot_time(uint32_t time);
	thin_dev_t dev_;
	thin_pool *pool_;
	};
	class thin_pool {
	public:
	metadata::ptr md_;
	};
	void thin::set_snapshot_time(uint32_t time) {
	uint64_t key[1] = {
	dev_ };
	optional<device_details> mdetail = pool_->md_->details_->lookup(key);
	pool_->md_->details_->insert(key, *mdetail);
	}