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Consider the case where a function foo(MyClass* mc) is supposed to retain a copy of mc into an internal data structure, and guarantee that the object will be deleted when no longer used.

void foo(MyClass* mc) // acquires ownership of mc; may throw
{
  // code that may throw
  bar(mc); // acquires mc; may also throw
}

The problem arises when this function executes code that might throw (for instance, an OutOfMemory exception). If the exception is raised before the pointer was saved to the data structure, the object should obviously be freed before the function unwinds since the caller is no more responsible for it (the caller doesn't even know if the pointer was actually saved in the data structure or not).

One could use RAII to handle this with scope guards, but it seems very clumsy, and produces some overhead (it has to be done in every single function that acquires a pointer).

Would one really need to do this every time a dynamically-allocated object is acquired, or is there a neater way to do it?!

template <class T>
struct VerifyAcq {
  T* ptr;
  bool done;
  VerifyAcq(T* ptr):ptr(ptr) { done = false; }
  ~VerifyAcq() {
    if (!done) delete ptr;
  }
};

void foo(MyClass* mc) // acquires mc; may throw
{
  VerifyAcq<MyClass> va(mc);
  // code that may throw
  bar(mc); // acquires mc; may throw; must implement the same mechanism!
  va.done = true;
}
// Note: there might be no public way of "undoing" what bar has done (no rollbak)
// and even if there was, what if it could also throw?...

The exception cannot be caught by the caller in order to delete the pointer, because before throwing an exception, the function may have successfully added the pointer to the data structure, and freeing the object would make the data structure unsound (dangling pointer).

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"and produces some overhead " The alternative is to not produce "overhead" and leak, no? There is no "overhead" when the cost you pay is the cost required for the goal to be attained. Question: do you control these functions, i.e., can you fix their interfaces? –  R. Martinho Fernandes Dec 6 '12 at 13:21
    
The alternative would be to do a function level try block with an all catching catch block... Which isn't much of an alternative, IMHO –  StoryTeller Dec 6 '12 at 13:25

2 Answers 2

up vote 4 down vote accepted

When I started reading the code, I stopped at this point:

void foo(MyClass* mc) // acquires ownership of mc; may throw

A comment is not the best way to document ownership acquisition. The best way to do that is to use the type system.

 void foo(std::unique_ptr<MyClass> mc) // no comment required

Fixing the interfaces also ends up solving the problem.

(If you don't have unique_ptr in your standard library, there are alternatives like for example, Howard Hinnant's emulation in C++03).

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Nice, I forgot smart pointers could handle this kind of cases. I assume 'bar' would have the same prototype, and would be called with something like: bar(std::unique_ptr<MyClass>(mc.release)); // ? –  LP_ Dec 6 '12 at 13:46

You have the right idea when mentioning RAII.

In the scenario you mention, you indicate that the deletion should only happen when the bar function somehow failed to store the pointer. A shared pointer like boost::shared_ptr works very well for that :

void foo(boost::shared_ptr<MyClass> mc)
{
    // code that may throw
    bar(mc); // acquires mc; may also throw
}

void bar(boost::shared_ptr<MyClass> mc)
{
    // code that may store the shared_ptr somewhere
}

As long as there's at least one shared pointer active for the resource (the pointer), it will not be deleted. As soon as the last shared pointer is destroyed or reset, the resource is deleted.

For example : if the bar function stores the shared pointer, then no deletion will happen when the foo function ends. Alternatively, if the bar function fails to store the shared pointer, then deletion will happen when foo ends (assuming no other shared pointers are active for the resource).

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