14

This question asks for a clean way of implementing a static factory method in C++, and this answer describes a clear way to do so. Return Value Optimization would save us from making an unnecesary copy of Object, thus making this way of creating an Object as efficient as directly invoking a constructor. The overhead of copying i to id inside a private constructor is negligible because it's a small int.

However, the question and answer don't cover a more complex case when Object contains an instance variable that is an instance of class Foo (that requires complex initialization logic) rather than a small primitive type. Suppose I want to construct Foo using the arguments passed to Object. A solution using a constructor would look something like:

class Object {
    Foo foo;

public:
    Object(const FooArg& fooArg) {
        // Create foo using fooArg here
        foo = ...
    }
}

An alternative with a static factory method analogous to the quoted answer would be, as it appears to me:

class Object {
    Foo foo;

    explicit Object(const Foo& foo_):
        foo(foo_)
    {

    }

public:
    static Object FromFooArg(const FooArg& fooArg) {
        // Create foo using fooArg here
        Foo foo = ...
        return Object(foo);
    }
}

Here, the overhead of copying foo_ to foo is no longer necessarily negligible, since Foo can be an arbitrarily complex class. Moreover, as far as I understand (C++ newbie here so I may be wrong), this code implicitly requires for a copy constructor to be defined for Foo.

What would be a similarly clean but also efficient way of implementing this pattern in this case?

To anticipate possible questions about why this is relevant, I consider having constructors with logic more complicated than just copying the arguments to be an anti-pattern. I expect the constructor to:

  • be guaranteed to work and not throw exceptions,
  • and not do heavy calculations under the hood.

Thus, I prefer to put complex initialization logic into static methods. Moreover, this approach provides additional benefits such as overloading by static factory method name even when the input argument types are the same, and the possibility of clearly stating what is being done inside in the name of the method.

5
  • 2
    Since C++11 you do have move semantics available to you. But it's a complex topic; best answered by a good book like Stroustrup. Nicely written question though; +1.
    – Bathsheba
    Jun 20, 2018 at 6:59
  • Strictly speaking, your first version with the public c'tor is expensive also. You default initialize foo (I assume all initialization is expensive), then you create another Foo object, and assign it to the default constructed one. Jun 20, 2018 at 7:03
  • @StoryTeller Hmm, I had no idea that was necessarily the case. I thought that in the first version, if I do foo = Foo(fooArg), then only that constructor gets invoked and no copying occurs. My knowledge of C++ is really shallow jumping in from Java. Anyway, my main applied concern is about copying rather than initialization (which can be cheap even for potentially large objects, e.g. empty array initialization).
    – Vossler
    Jun 20, 2018 at 7:13
  • 1
    @Vossler - I'd advise to tread carefully here. The C++ object model is very different to Java's. Initialization of members and copying are not quite as disjoint as they are in Java. Jun 20, 2018 at 7:16
  • What is wrong with a constructor that initializes its foo directly from a fooArg? Such a constructor can, of course, also be perused by a factory.
    – Walter
    Jun 20, 2018 at 8:53

2 Answers 2

8

Thanks to move constructor, you might do:

class Object {
    Foo foo;

    explicit Object(Foo&& foo_) : foo(std::move(foo_)) {}

public:
    static Object FromFooArg(const FooArg& fooArg) {
        // Create foo using fooArg here
        Foo foo = ...
        return Object(std::move(foo));
    }
};

If Foo is not movable, wrapping it in smart pointer is a possibility:

class Object {
    std::unique_ptr<Foo> foo;

    explicit Object(std::unique_ptr<Foo>&& foo_) : foo(std::move(foo_)) {}

public:
    static Object FromFooArg(const FooArg& fooArg) {
        // Create foo using fooArg here
        std::unique_ptr<Foo> foo = ...
        return Object(std::move(foo));
    }
};
4
  • Thanks! I am probably biased towards these solutions b/c this more or less imitates Java pass-by-reference style, which is more familiar to me. Two questions about this: 1) a closer Java clone would be using std::shared_ptr instead of std::unique_ptr in solution 2, right? And then we kind of imitate Java's reference-counting garbage collection? 2) while this feels good, the verbosity and complexity of such a simple operation feels off. If I follow this idiom generally, I would then have to wrap everything into smart pointers, right? Am I doing it wrong in C++?
    – Vossler
    Jun 20, 2018 at 10:34
  • Well, C++ is not Java. Using shared_ptr all over the place incurs a cost and also makes it difficult to reason about deterministic destruction.
    – dandan78
    Jun 20, 2018 at 11:15
  • @Vossler: garbage collection != reference counting, but yes using shared_ptr would be more like Java.
    – Jarod42
    Jun 20, 2018 at 12:03
  • Why do you need a heap allocation if you have copy elision to do the job for you? If Foo is expensive to construct you will pay the cost once. Jun 20, 2018 at 12:13
6

What is wrong with initializing the instance in the constructor directly from the arguments needed to do so?

class Object
{
    Foo foo;                         // or const Foo foo, disallowing assignment

public:

    explicit Object(FooCtorArgs const&fooArg,
                    const AdditionalData*data = nullptr)
      : foo(fooArg)                  // construct instance foo directly from args
    {
        foo.post_construction(data); // optional; doesn't work with const foo
    }

    static Object FromFooArg(FooCtorArgs const&fooArg,
                             const AdditionalData*data = nullptr)
    { 
        return Object{fooArg,data};  // copy avoided by return value optimization
    }
};

AFAICT, there is no need to copy/move anything, even if you need to adjust foo post construction.

9
  • While this is useful to me, this only works in the particular case when Foo has a constructor directly from FooArg (right?..). If, instead, in FromFooArg I default-initialize foo and fill it manually using some computations from fooArg (or other arguments in the general case), then you would have to fall back to my original snippet. Besides, this solution kind of soft-violates my motivation of not having constructors doing complex initialization logic (it depends on FooArg also adhering to this convention).
    – Vossler
    Jun 20, 2018 at 10:22
  • That concern is a red herring. In this case, you can just fill in the Object::foo instance, either in the factory or in the constructor of Object, see edit. However, a well designed class Foo should not need such post-construction initialization.
    – Walter
    Jun 20, 2018 at 10:45
  • @ÖöTiib Please read my original question - neither the text nor the code indicate that I assume Foo has a constructor directly from FooArg. If you consider the original question to be poorly formulated, then you are justified in downvoting it, but your implication that my comment to this answer enforces some ad-hoc constraint on Foo is wrong.
    – Vossler
    Jun 20, 2018 at 10:54
  • @Vossler How else? Your Object is constructible from FooArg only and has Foo component so that clearly implies that Foo is constructible from FooArg only as well. Otherwise information does flow in sideways from some unsaid-out dependencies.
    – Öö Tiib
    Jun 20, 2018 at 10:59
  • @ÖöTiib Foo is indeed constructible from FooArg, yet there does not have to be a direct constructor defined. Who said I have control over the implementation of Foo?
    – Vossler
    Jun 20, 2018 at 11:07

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