Syntax guidelines for taking ownership and releasing objects in C++

问题

I want to know - are there any guidelines about syntax of C++ (non-)member functions, that allows me to understand (without comments, if possible) the ownership policy of its arguments and return value. By ownership I mean, that the owner is responsible for the destruction of the owned object.

I distinguish the following rules about arguments:

• take ownership
• don't take ownership
• share

and about return value:

• release ('return by value' is in this group)
• don't release
• share

For example, passing object by reference doesn't take it's ownership:

void func(object & obj) { ... }

Such guidelines may use standard constructions like unique_ptr, shared_ptr, etc. If there are no such guidelines, then the examples of possible syntax misunderstandings are welcome too.

回答1:

I can't see why using smart pointers doesn't suffice. I can't think of anything else that I wouldn't categorize as code smell. Using smart pointers over raw pointers makes ownership and responsebilities perfectly clear:

• auto_ptr/unique_ptr - single owner, ownership is transferred
• shared_ptr - multiple owners, ownership may be transferred
• scoped_ptr - single owner, ownership cannot be transferred
• weak_ptr - observer (but shared_ptr may be created from weak_ptr)

I think that these suffice to clearly show the responsibilities, e.g.

void func(std::auto_ptr<Class> input) {...} // func() takes ownership of input
void func(std::shared_ptr<Class> input) {...} // func() and caller share ownership
std::auto_ptr<Class> func() {...} // caller takes ownership of returned value
std::shared_ptr<Class> func() {...} // func() and caller shares ownership of returned object
std::weak_ptr<Class> func() {...} // func() owns created object, but caller may observe it

As you mention, references are also great in this sense. Note if there's a need to free the pointers using some custom mechanism, shared_ptr and unique_ptr supports custom deleters. auto_ptr does not have this capability.

Note! If you are using C++ pre-11, you'll have to resort to boost::shared_ptr and boost:weak_ptr.

回答2:

If I understand you, then Boost call_traits might be what you are looking for:

The example (copied from the docs goes):

template <class T>
struct contained
{
   // define our typedefs first, arrays are stored by value
   // so value_type is not the same as result_type:
   typedef typename boost::call_traits<T>::param_type       param_type;
   typedef typename boost::call_traits<T>::reference        reference;
   typedef typename boost::call_traits<T>::const_reference  const_reference;
   typedef T                                                value_type;
   typedef typename boost::call_traits<T>::value_type       result_type;

   // stored value:
   value_type v_;

   // constructors:
   contained() {}
   contained(param_type p) : v_(p){}
   // return byval:
   result_type value() { return v_; }
   // return by_ref:
   reference get() { return v_; }
   const_reference const_get()const { return v_; }
   // pass value:
   void call(param_type p){}

};

Not much clearer than param_type, reference_type and return_type to indicate what is meant.

回答3:

I just use this syntax for parameters where needed:

example constructor declaration:

t_array(const t_ownership_policy::t_take& policy, THESpecialType* const arg);

In use at the callsite:

t_array array(t_ownership_policy::Take, THESpecialTypeCreate(...));

Where t_ownership_policy::t_take is just a dummy overload disambiguator typename.

In this system, there are multiple policies, each with separate types. I favored unique types per policy because a typed enumeration (for example) does not support initialization as easily, and it's too easy to pass an unsupported policy to a function or constructor. 'Polymorphic' policies can reduce symbol count, but it's a pain because it pushes error detection to runtime.

For 'returning':

void func(t_container<t_type>& outValue);

Where t_container is whichever pointer container type you choose. Then the container type already implements the necessary boilerplate. This container may be something like a shared_ptr, or some specialization you have written.

and for more elaborate types, i'll often use syntax like so:

void func(t_special_container& outValue) {
  ...
  outValue.take(ptr);
  - or -
  outValue.copy(ptr);

来源：https://stackoverflow.com/questions/7992600/syntax-guidelines-for-taking-ownership-and-releasing-objects-in-c