test/SemaCXX/attr-gsl-owner-pointer-std.cpp - clang - Git at Google

 // RUN: %clang_cc1 -ast-dump %s | \
 // RUN: FileCheck --implicit-check-not OwnerAttr --implicit-check-not PointerAttr %s

 // Test attribute inference for types in the standard library.
 namespace std {
 // Attributes are inferred for a (complete) class.
 class any {
   // CHECK: CXXRecordDecl {{.*}} any
   // CHECK: OwnerAttr {{.*}}
 };

 // Attributes are inferred for instantiations of a complete template.
 template <typename T>
 class vector {
 public:
   class iterator {};
   // CHECK: ClassTemplateDecl {{.*}} vector
   // CHECK: OwnerAttr {{.*}}
   // CHECK: CXXRecordDecl {{.*}} iterator
   // CHECK: PointerAttr {{.*}}
   // CHECK: ClassTemplateSpecializationDecl {{.*}} vector
   // CHECK: TemplateArgument type 'int'
   // CHECK: OwnerAttr
   // CHECK: CXXRecordDecl {{.*}} iterator
   // CHECK: PointerAttr {{.*}}
 };
 static_assert(sizeof(vector<int>), "");           // Force instantiation.
 static_assert(sizeof(vector<int>::iterator), ""); // Force instantiation.

 // If std::container::iterator is a using declaration, attributes are inferred
 // for the underlying class.
 template <typename T>
 class __set_iterator {};
 // CHECK: ClassTemplateDecl {{.*}} __set_iterator
 // CHECK: PointerAttr
 // CHECK: ClassTemplateSpecializationDecl {{.*}} __set_iterator
 // CHECK: TemplateArgument type 'int'
 // CHECK: PointerAttr

 template <typename T>
 class set {
   // CHECK: ClassTemplateDecl {{.*}} set
   // CHECK: OwnerAttr {{.*}}
   // CHECK: ClassTemplateSpecializationDecl {{.*}} set
   // CHECK: OwnerAttr {{.*}}
 public:
   using iterator = __set_iterator<T>;
 };
 static_assert(sizeof(set<int>::iterator), ""); // Force instantiation.

 // If std::container::iterator is a typedef, attributes are inferred for the
 // underlying class.
 template <typename T>
 class __map_iterator {};
 // CHECK: ClassTemplateDecl {{.*}} __map_iterator
 // CHECK: PointerAttr
 // CHECK: ClassTemplateSpecializationDecl {{.*}} __map_iterator
 // CHECK: TemplateArgument type 'int'
 // CHECK: PointerAttr

 template <typename T>
 class map {
   // CHECK: ClassTemplateDecl {{.*}} map
   // CHECK: OwnerAttr {{.*}}
   // CHECK: ClassTemplateSpecializationDecl {{.*}} map
   // CHECK: OwnerAttr {{.*}}
 public:
   typedef __map_iterator<T> iterator;
 };
 static_assert(sizeof(map<int>::iterator), ""); // Force instantiation.

 // Inline namespaces are ignored when checking if
 // the class lives in the std namespace.
 inline namespace inlinens {
 template <typename T>
 class __unordered_map_iterator {};
 // CHECK: ClassTemplateDecl {{.*}} __unordered_map_iterator
 // CHECK: PointerAttr
 // CHECK: ClassTemplateSpecializationDecl {{.*}} __unordered_map_iterator
 // CHECK: TemplateArgument type 'int'
 // CHECK: PointerAttr

 template <typename T>
 class unordered_map {
   // CHECK: ClassTemplateDecl {{.*}} unordered_map
   // CHECK: OwnerAttr {{.*}}
   // CHECK: ClassTemplateSpecializationDecl {{.*}} unordered_map
   // CHECK: OwnerAttr {{.*}}
 public:
   typedef __unordered_map_iterator<T> iterator;
 };
 static_assert(sizeof(unordered_map<int>::iterator), ""); // Force instantiation.
 } // namespace inlinens

 // The iterator typedef is a DependentNameType.
 template <typename T>
 class __unordered_multimap_iterator {};
 // CHECK: ClassTemplateDecl {{.*}} __unordered_multimap_iterator
 // CHECK: ClassTemplateSpecializationDecl {{.*}} __unordered_multimap_iterator
 // CHECK: TemplateArgument type 'int'
 // CHECK: PointerAttr

 template <typename T>
 class __unordered_multimap_base {
 public:
   using iterator = __unordered_multimap_iterator<T>;
 };

 template <typename T>
 class unordered_multimap {
   // CHECK: ClassTemplateDecl {{.*}} unordered_multimap
   // CHECK: OwnerAttr {{.*}}
   // CHECK: ClassTemplateSpecializationDecl {{.*}} unordered_multimap
   // CHECK: OwnerAttr {{.*}}
 public:
   using _Mybase = __unordered_multimap_base<T>;
   using iterator = typename _Mybase::iterator;
 };
 static_assert(sizeof(unordered_multimap<int>::iterator), ""); // Force instantiation.

 // The canonical declaration of the iterator template is not its definition.
 template <typename T>
 class __unordered_multiset_iterator;
 // CHECK: ClassTemplateDecl {{.*}} __unordered_multiset_iterator
 // CHECK: PointerAttr
 // CHECK: ClassTemplateSpecializationDecl {{.*}} __unordered_multiset_iterator
 // CHECK: TemplateArgument type 'int'
 // CHECK: PointerAttr

 template <typename T>
 class __unordered_multiset_iterator {
   // CHECK: ClassTemplateDecl {{.*}} prev {{.*}} __unordered_multiset_iterator
   // CHECK: PointerAttr
 };

 template <typename T>
 class unordered_multiset {
   // CHECK: ClassTemplateDecl {{.*}} unordered_multiset
   // CHECK: OwnerAttr {{.*}}
   // CHECK: ClassTemplateSpecializationDecl {{.*}} unordered_multiset
   // CHECK: OwnerAttr {{.*}}
 public:
   using iterator = __unordered_multiset_iterator<T>;
 };

 static_assert(sizeof(unordered_multiset<int>::iterator), ""); // Force instantiation.

 // std::list has an implicit gsl::Owner attribute,
 // but explicit attributes take precedence.
 template <typename T>
 class [[gsl::Pointer]] list{};
 // CHECK: ClassTemplateDecl {{.*}} list
 // CHECK: PointerAttr {{.*}}
 // CHECK: ClassTemplateSpecializationDecl {{.*}} list
 // CHECK: PointerAttr {{.*}}

 static_assert(sizeof(list<int>), ""); // Force instantiation.

 // Forward declared template (Owner).
 template <
     class CharT,
     class Traits>
 class basic_regex;
 // CHECK: ClassTemplateDecl {{.*}} basic_regex
 // CHECK: OwnerAttr {{.*}}

 // Forward declared template (Pointer).
 template <class T>
 class reference_wrapper;
 // CHECK: ClassTemplateDecl {{.*}} reference_wrapper
 // CHECK: PointerAttr {{.*}}

 class some_unknown_type;
 // CHECK: CXXRecordDecl {{.*}} some_unknown_type

 } // namespace std

 namespace user {
 // If a class is not in the std namespace, we don't infer the attributes.
 class any {
 };
 } // namespace user
	// RUN: %clang_cc1 -ast-dump %s \| \
	// RUN: FileCheck --implicit-check-not OwnerAttr --implicit-check-not PointerAttr %s

	// Test attribute inference for types in the standard library.
	namespace std {
	// Attributes are inferred for a (complete) class.
	class any {
	// CHECK: CXXRecordDecl {{.*}} any
	// CHECK: OwnerAttr {{.*}}
	};

	// Attributes are inferred for instantiations of a complete template.
	template <typename T>
	class vector {
	public:
	class iterator {};
	// CHECK: ClassTemplateDecl {{.*}} vector
	// CHECK: OwnerAttr {{.*}}
	// CHECK: CXXRecordDecl {{.*}} iterator
	// CHECK: PointerAttr {{.*}}
	// CHECK: ClassTemplateSpecializationDecl {{.*}} vector
	// CHECK: TemplateArgument type 'int'
	// CHECK: OwnerAttr
	// CHECK: CXXRecordDecl {{.*}} iterator
	// CHECK: PointerAttr {{.*}}
	};
	static_assert(sizeof(vector<int>), ""); // Force instantiation.
	static_assert(sizeof(vector<int>::iterator), ""); // Force instantiation.

	// If std::container::iterator is a using declaration, attributes are inferred
	// for the underlying class.
	template <typename T>
	class __set_iterator {};
	// CHECK: ClassTemplateDecl {{.*}} __set_iterator
	// CHECK: PointerAttr
	// CHECK: ClassTemplateSpecializationDecl {{.*}} __set_iterator
	// CHECK: TemplateArgument type 'int'
	// CHECK: PointerAttr

	template <typename T>
	class set {
	// CHECK: ClassTemplateDecl {{.*}} set
	// CHECK: OwnerAttr {{.*}}
	// CHECK: ClassTemplateSpecializationDecl {{.*}} set
	// CHECK: OwnerAttr {{.*}}
	public:
	using iterator = __set_iterator<T>;
	};
	static_assert(sizeof(set<int>::iterator), ""); // Force instantiation.

	// If std::container::iterator is a typedef, attributes are inferred for the
	// underlying class.
	template <typename T>
	class __map_iterator {};
	// CHECK: ClassTemplateDecl {{.*}} __map_iterator
	// CHECK: PointerAttr
	// CHECK: ClassTemplateSpecializationDecl {{.*}} __map_iterator
	// CHECK: TemplateArgument type 'int'
	// CHECK: PointerAttr

	template <typename T>
	class map {
	// CHECK: ClassTemplateDecl {{.*}} map
	// CHECK: OwnerAttr {{.*}}
	// CHECK: ClassTemplateSpecializationDecl {{.*}} map
	// CHECK: OwnerAttr {{.*}}
	public:
	typedef __map_iterator<T> iterator;
	};
	static_assert(sizeof(map<int>::iterator), ""); // Force instantiation.

	// Inline namespaces are ignored when checking if
	// the class lives in the std namespace.
	inline namespace inlinens {
	template <typename T>
	class __unordered_map_iterator {};
	// CHECK: ClassTemplateDecl {{.*}} __unordered_map_iterator
	// CHECK: PointerAttr
	// CHECK: ClassTemplateSpecializationDecl {{.*}} __unordered_map_iterator
	// CHECK: TemplateArgument type 'int'
	// CHECK: PointerAttr

	template <typename T>
	class unordered_map {
	// CHECK: ClassTemplateDecl {{.*}} unordered_map
	// CHECK: OwnerAttr {{.*}}
	// CHECK: ClassTemplateSpecializationDecl {{.*}} unordered_map
	// CHECK: OwnerAttr {{.*}}
	public:
	typedef __unordered_map_iterator<T> iterator;
	};
	static_assert(sizeof(unordered_map<int>::iterator), ""); // Force instantiation.
	} // namespace inlinens

	// The iterator typedef is a DependentNameType.
	template <typename T>
	class __unordered_multimap_iterator {};
	// CHECK: ClassTemplateDecl {{.*}} __unordered_multimap_iterator
	// CHECK: ClassTemplateSpecializationDecl {{.*}} __unordered_multimap_iterator
	// CHECK: TemplateArgument type 'int'
	// CHECK: PointerAttr

	template <typename T>
	class __unordered_multimap_base {
	public:
	using iterator = __unordered_multimap_iterator<T>;
	};

	template <typename T>
	class unordered_multimap {
	// CHECK: ClassTemplateDecl {{.*}} unordered_multimap
	// CHECK: OwnerAttr {{.*}}
	// CHECK: ClassTemplateSpecializationDecl {{.*}} unordered_multimap
	// CHECK: OwnerAttr {{.*}}
	public:
	using _Mybase = __unordered_multimap_base<T>;
	using iterator = typename _Mybase::iterator;
	};
	static_assert(sizeof(unordered_multimap<int>::iterator), ""); // Force instantiation.

	// The canonical declaration of the iterator template is not its definition.
	template <typename T>
	class __unordered_multiset_iterator;
	// CHECK: ClassTemplateDecl {{.*}} __unordered_multiset_iterator
	// CHECK: PointerAttr
	// CHECK: ClassTemplateSpecializationDecl {{.*}} __unordered_multiset_iterator
	// CHECK: TemplateArgument type 'int'
	// CHECK: PointerAttr

	template <typename T>
	class __unordered_multiset_iterator {
	// CHECK: ClassTemplateDecl {{.}} prev {{.}} __unordered_multiset_iterator
	// CHECK: PointerAttr
	};

	template <typename T>
	class unordered_multiset {
	// CHECK: ClassTemplateDecl {{.*}} unordered_multiset
	// CHECK: OwnerAttr {{.*}}
	// CHECK: ClassTemplateSpecializationDecl {{.*}} unordered_multiset
	// CHECK: OwnerAttr {{.*}}
	public:
	using iterator = __unordered_multiset_iterator<T>;
	};

	static_assert(sizeof(unordered_multiset<int>::iterator), ""); // Force instantiation.

	// std::list has an implicit gsl::Owner attribute,
	// but explicit attributes take precedence.
	template <typename T>
	class [[gsl::Pointer]] list{};
	// CHECK: ClassTemplateDecl {{.*}} list
	// CHECK: PointerAttr {{.*}}
	// CHECK: ClassTemplateSpecializationDecl {{.*}} list
	// CHECK: PointerAttr {{.*}}

	static_assert(sizeof(list<int>), ""); // Force instantiation.

	// Forward declared template (Owner).
	template <
	class CharT,
	class Traits>
	class basic_regex;
	// CHECK: ClassTemplateDecl {{.*}} basic_regex
	// CHECK: OwnerAttr {{.*}}

	// Forward declared template (Pointer).
	template <class T>
	class reference_wrapper;
	// CHECK: ClassTemplateDecl {{.*}} reference_wrapper
	// CHECK: PointerAttr {{.*}}

	class some_unknown_type;
	// CHECK: CXXRecordDecl {{.*}} some_unknown_type

	} // namespace std

	namespace user {
	// If a class is not in the std namespace, we don't infer the attributes.
	class any {
	};
	} // namespace user