8

EDIT: total re-edit because the original was becoming an unstructured mess :) Thanks for everyone's input so far; I hope I worked it into the text below.

Question

I'm in search for a lazily-created shareable pointer. I have a hypothetical big class Thing. Things are big and thus costly to make, but while they are used everywhere in the code (shared, passed around liberally, modified, stored for later use, etc.), they are often not actually used in the end, so delaying their actual creation until they are actually accessed is preferable. Thing thus needs to be lazily-created, plus needs to be shareable. Lets call this encapsulating pointer wrapper SharedThing.

class SharedThing {
  ...
  Thing* m_pThing;
  Thing* operator ->() {
    // ensure m_pThing is created
    ...
    // then
    return m_pThing
  );
}
...
SharedThing pThing;
...
// Myriads of obscure paths taking the pThing to all dark corners
// of the program, some paths not even touching it
...
if (condition) {
  pThing->doIt();   // last usage here
}

Requirements

  1. instantiation of the actual Things must be delayed as long as possible; Things will only get created when first dereferencing the SharedThing
  2. SharedThing must be safe to use, so rather no required factory methods
  3. SharedThing must have a shared_ptr (like) interface
  4. sharing with a not-yet-created SharedThing must actually share the to-be-created Thing, but instantiation of the Thing must again be delayed until needed
  5. working with SharedThings must be as easy as possible (preferably 100% transparent, like working with actual Things)
  6. it must be somewhat performant

So far we've come up with four options:

Option 1

typedef std::shared_ptr<Thing> SharedThing;
SharedThing newThing() {
  return make_shared<Thing>();
}
...
// SharedThing pThing; // pThing points to nullptr, though...
SharedThing pThing(new Thing()); // much better
SharedThing pThing = newThing(); // alternative
  1. 0% score; need a Thing instance from the start
  2. 0% score; you can say SharedThing pThing; but that's being a bit overly worried about things
  3. 100% score here ;)
  4. n.a. due to point 1
  5. 100% score
  6. 0% score, since creating all the Things everywhere (even when not used) is a drain on performance and it's exactly why I asked this question :)

The lack of score on points 1 and 6 is a killer here; no more option 1.

Option 2

class SharedThing: public shared_ptr<Thing> {};

and override specific members to ensure that when the shared_ptr is dereferenced, it creates the Thing just in time.

  1. maybe achievable by overriding the right members (depending on stl's implementation), but this fast becomes a mess I think
  2. 100% score
  3. 100% score, although mimicking all the constructors and operators is quite some work
  4. don't know if this is do-able...
  5. 100% score
  6. 100% score, if internally things are done smartly

This option is better than 1 and might be OK, but seems a mess and/or hackerish...

Option 3.1

class SharedThing {
  std::shared_ptr<Thing> m_pThing;
  void EnsureThingPresent() {
    if (m_pThing == nullptr) m_pThing = std::make_shared<Thing>();
  }
public:
  SharedThing(): m_pThing(nullptr) {};
  Thing* operator ->() {
    EnsureThingCreated();
    return m_pThing.get();
  }
}    

and add extra wrapper methods alike for operator * and const versions.

  1. 100% score
  2. 100% score
  3. do-able, but must create all interface members separately
  4. 0% score; when attaching to a nullptr'ed SharedThing (e.g. operator =), it needs to create the Thing first to be able to share
  5. 100% score again
  6. 50% score; 2 indirections

This one fails miserably on 4, so this one's off as well.

Option 3.2

class SharedThing {
  typedef unique_ptr<Thing> UniqueThing;
  shared_ptr<UniqueThing> m_pThing;
}

and add all other methods as in 3.1

  1. 100% score
  2. 100% score
  3. do-able, but must create all interface members separately
  4. 100% score
  5. 100% score again
  6. 25% score? we have 3 indirections here...

This seems OK apart from the suggested performance (need to test, though).

Option 4

class LazyCreatedThing {
  Thing* m_pThing;
}
typedef shared_ptr<LazyCreatedThing> SharedThing;
SharedThing makeThing() {
  return make_shared<LazyCreatedThing>();
}

and add all sorts of operator -> overloads to make LazyCreatedThing look like a Thing*

  1. 100% score
  2. same drawback as option 1 above
  3. 100% score here with no effort
  4. 100% score
  5. 0% score; dereferencing a SharedThing yields a LazyCreatedThing, so even though it might have it's operator -> for accessing the Thing, it will never get chained, resulting in (*pThing)->doIt();
  6. 25-50% score? we have 3 indirections here, or 2 if we can make use of std::make_shared

Failing miserably on 5 here makes this a no-no.

Conclusion

The best option so far thus seems 3.2; let's see what else we can come up with! :)

14
  • 1
    I'm confused, why are you creating these objects if they are not going to be used?
    – clcto
    Sep 17, 2015 at 21:33
  • 1
    Why not use a shared_ptr to the wrapper class? operator -> keeps going recursively so it should work out.
    – Claudiu
    Sep 17, 2015 at 21:40
  • Why don't you just derive from shared_ptr and shadow operator-> as well as get then?
    – Damon
    Sep 17, 2015 at 21:54
  • You don't need to mimic shared_ptrs entire interface, just the parts you're actually using. If you need a capability that isn't there, add it. The interface isn't really that large anyway. Sep 17, 2015 at 22:15
  • 1
    @Damon: I'd rather not derive from a class with a non-virtual interface - shearing, destruction throught base classes and all. Although I agree that (most/all) instances of this class are going to live on the stack, so there shouldn't be much problems there... Sep 17, 2015 at 22:23

2 Answers 2

3

I would implement LazyThing wrapper. I guess it is much easier to adapt Thing interface, rather than std::shared_ptr one.

class Thing
{
public:
    void Do()
    {
        std::cout << "THING" << std::endl;
    }
};

class LazyThing
{
public:
    void Do()
    {
        getThing().Do();
    }

private:
    Thing& getThing()
    {
        if (!thing_)
            thing_ = std::make_unique<Thing>();

        return *thing_;
    }

    std::unique_ptr<Thing> thing_;
};

Now, you can use it with any smart pointer, or even create it on the stack:

LazyThing lazy;
auto sharedLazy = std::make_shared<LazyThing>();
auto uniqueLazy = std::make_unique<LazyThing>();

Or as in your example:

typedef std::shared_ptr<LazyThing> SharedLazyThing;

SharedLazyThing newThing() {
  return std::make_shared<LazyThing>();
}
...
auto pThing = newThing();

UPDATE

If you want to guarantee shared semantic and do not bother with calling newThing() or any other factory method, just give up on shared_ptr interface. It is not needed there.

Implement SharedLazyThing as a value type with shared semantic. The tricky stuff is that you need to add yet another level of indirection to provide lazy construction of shared Thing object.

class SharedLazyThing
{
   using UniqueThing = std::unique_ptr<Thing>;

public:
   void Do()
   {
      getThing().Do();
   }

private:
   Thing& getThing()
   {
      if (!*thing_)
         *thing_ = std::make_unique<Thing>();

      return **thing_;
   }

   std::shared_ptr<UniqueThing> thing_ = std::make_shared<UniqueThing>();
};

Now, you can simply use SharedLazyThing everywhere.

SharedLazyThing thing1;
SharedLazyThing thing2(thing1);
SharedLazyThing thing3 = thing1;
9
  • I'm leaning more and more to this solution as well, but I guess I want to have my cake and eat it too :) So an intermediate proxy, but without the obligatory use of the above newThing() all over the place. Oh well; let's wait some more and see if someone comes up with a smart out-of-the-box solution? Sep 18, 2015 at 8:01
  • then again, you now have to enforce auto pThing = newThing() all over the place, instead of just using SharedThing pThing being ready to go, which the wrapper around shared_ptr enables you to do... Oh, the choices! Sep 18, 2015 at 8:14
  • The best thing about the proxy: if You contain your pointer in the proxy you can change it to unique ptr or shared pointer once and it changes consistently in your code base. Sep 18, 2015 at 8:20
  • @Stas: this is what I currently have (except I have operator *, -> etc., and not wrappers for each method on Thing) :) It gave me the 20% performance boost over an always-filled regular shared_ptr<Thing>, but I guess I really wanted a more shared_ptr look-alike solution. Can't have it both ways though, it seems. Sep 18, 2015 at 9:10
  • @CarlColijn Yes. Anyway, my point is that it is still easier to adaptThing interface, rather than shared_ptr. And, I'm not sure why you need shared_ptr like interface. If the object is always not null, *, -> and other operators are not needed.
    – Stas
    Sep 18, 2015 at 9:20
0

Maybe I misunderstand the question but couldn't it be as simple as this?

class Factory
{
private:

  std::shared_ptr<My1stType> my1st_ {};
  std::shared_ptr<My2ndType> my2nd_ {};
  std::shared_ptr<My3rdType> my3rd_ {};
  // …

public:

  std::shared_ptr<My1stType>
  get1st()
  {
    if (!this->my1st_)
      this->my1st_ = std::make_shared<My1stType>(/* … */);
    return this->my1st_;
  }

  // …
};

As shown above, this is not thread-safe, however, in case this matters to you.

4
  • Yes, I think you misunderstand the question. Sep 17, 2015 at 22:25
  • Nice, but I'd like to say SharedThing pThing; *** lots of code, function calls with refs to pThing, etc., possibly doing nothing to it *** if (condition) { pThing->x() *** here we first need the thing created *** } *** end of life of pThing; if condition didn't hold, we'd be better off if pThing never got created *** Sep 17, 2015 at 22:27
  • My suggestion being of course that you replace every pThing->doit() with factory.getThing()->doit() and instead of passing around the smart pointer, you pass around a reference to the factory.
    – 5gon12eder
    Sep 17, 2015 at 22:29
  • @5gon12eder: Unfortunately I have many such objects around simultaneously, the number also being unknown at forehand. The suggested usage pattern thus isn't really a fit for my situation. Plus that you then have a much more verbose call syntax; something I want to avoid by conforming to the regular shared_ptr interface. Sep 18, 2015 at 6:38

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