docs/ReplaceAutoPtrTransform.rst - clang-tools-extra - Git at Google

 .. index:: Replace-AutoPtr Transform

 =========================
 Replace-AutoPtr Transform
 =========================

 The Replace-AutoPtr Transform replaces the uses of the deprecated class
 ``std::auto_ptr`` by ``std::unique_ptr`` (introduced in C++11). The transfer of
 ownership, done by the copy-constructor and the assignment operator, is changed
 to match ``std::unique_ptr`` usage by using explicit calls to ``std::move()``.
 The transform is enabled with the :option:`-replace-auto_ptr` option of
 :program:`clang-modernize`.

 Migration example:

 .. code-block:: c++

   -void take_ownership_fn(std::auto_ptr<int> int_ptr);
   +void take_ownership_fn(std::unique_ptr<int> int_ptr);

    void f(int x) {
   -  std::auto_ptr<int> a(new int(x));
   -  std::auto_ptr<int> b;
   +  std::unique_ptr<int> a(new int(x));
   +  std::unique_ptr<int> b;

   -  b = a;
   -  take_ownership_fn(b);
   +  b = std::move(a);
   +  take_ownership_fn(std::move(b));
    }


 Known Limitations
 =================
 * If headers modification is not activated or if a header is not allowed to be
   changed this transform will produce broken code (compilation error), where the
   the headers' code will stay unchanged while the code using them will be
   changed.

 * Client code that declares a reference to an ``std::auto_ptr`` coming from code
   that can't be migrated (such as a header coming from a 3\ :sup:`rd` party
   library) will produce a compilation error after migration. This is because the
   type of the reference will be changed to ``std::unique_ptr`` but the type
   returned by the library won't change, binding a reference to
   ``std::unique_ptr`` from an ``std::auto_ptr``. This pattern doesn't make much
   sense and usually ``std::auto_ptr`` are stored by value (otherwise what is the
   point in using them instead of a reference or a pointer?).

   .. code-block:: c++

      // <3rd-party header...>
      std::auto_ptr<int> get_value();
      const std::auto_ptr<int> & get_ref();

      // <calling code (with migration)...>
     -std::auto_ptr<int> a(get_value());
     +std::unique_ptr<int> a(get_value()); // ok, unique_ptr constructed from auto_ptr

     -const std::auto_ptr<int> & p = get_ptr();
     +const std::unique_ptr<int> & p = get_ptr(); // won't compile

 * Non-instantiated templates aren't modified.

   .. code-block:: c++

      template <typename X>
      void f() {
          std::auto_ptr<X> p;
      }

      // only 'f<int>()' (or similar) will trigger the replacement
	.. index:: Replace-AutoPtr Transform

	=========================
	Replace-AutoPtr Transform
	=========================

	The Replace-AutoPtr Transform replaces the uses of the deprecated class
	``std::auto_ptr`` by ``std::unique_ptr`` (introduced in C++11). The transfer of
	ownership, done by the copy-constructor and the assignment operator, is changed
	to match ``std::unique_ptr`` usage by using explicit calls to ``std::move()``.
	The transform is enabled with the :option:`-replace-auto_ptr` option of
	:program:`clang-modernize`.

	Migration example:

	.. code-block:: c++

	-void take_ownership_fn(std::auto_ptr<int> int_ptr);
	+void take_ownership_fn(std::unique_ptr<int> int_ptr);

	void f(int x) {
	- std::auto_ptr<int> a(new int(x));
	- std::auto_ptr<int> b;
	+ std::unique_ptr<int> a(new int(x));
	+ std::unique_ptr<int> b;

	- b = a;
	- take_ownership_fn(b);
	+ b = std::move(a);
	+ take_ownership_fn(std::move(b));
	}


	Known Limitations
	=================
	* If headers modification is not activated or if a header is not allowed to be
	changed this transform will produce broken code (compilation error), where the
	the headers' code will stay unchanged while the code using them will be
	changed.

	* Client code that declares a reference to an ``std::auto_ptr`` coming from code
	that can't be migrated (such as a header coming from a 3\ :sup:`rd` party
	library) will produce a compilation error after migration. This is because the
	type of the reference will be changed to ``std::unique_ptr`` but the type
	returned by the library won't change, binding a reference to
	``std::unique_ptr`` from an ``std::auto_ptr``. This pattern doesn't make much
	sense and usually ``std::auto_ptr`` are stored by value (otherwise what is the
	point in using them instead of a reference or a pointer?).

	.. code-block:: c++

	// <3rd-party header...>
	std::auto_ptr<int> get_value();
	const std::auto_ptr<int> & get_ref();

	// <calling code (with migration)...>
	-std::auto_ptr<int> a(get_value());
	+std::unique_ptr<int> a(get_value()); // ok, unique_ptr constructed from auto_ptr

	-const std::auto_ptr<int> & p = get_ptr();
	+const std::unique_ptr<int> & p = get_ptr(); // won't compile

	* Non-instantiated templates aren't modified.

	.. code-block:: c++

	template <typename X>
	void f() {
	std::auto_ptr<X> p;
	}

	// only 'f<int>()' (or similar) will trigger the replacement