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I have a getter object that returns an object of type Type, defined as follows:

typedef boost::variant<int, std::string> Empty;

It is often the case that I will have neither an int nor a string to return and will have to instead return an empty state. How do you think I return this state?

a) typedef an Empty type and add it to the variant: boost::variant<int, std::string, Empty>.

b) return Type()

c) Cast an exception

d) return a boost::shared_ptr, which points to NULL in the case of empty.

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This "empty type" is provided by boost::empty and in fact, a variant's .empty() function will return true if and only if the current value is of the boost::empty type. In all other cases, it will return false. – Xeo Oct 8 '12 at 6:38

3 Answers 3

up vote 4 down vote accepted

The correct answer is to use boost::blank for a variant that can have nothing in it. Thus, your variant typedef looks like this:

typedef boost::variant<boost::blank, int, std::string> Empty;

blank is designed specifically for this, and variant has special code based on it. By using it, you get a no-memory-allocation guarantee on copying (if the members don't allocate on copy). So that's good.

Since your variant can be "empty", it is important that all of your processing visitors can handle it. It's often more convenient to add an additional visitor pathway than to have a number of conditionals based on an optional or something. The different code pathways will be localized to the visitors, which often makes more sense than an optional<variant>.

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Wrap it in a boost::optional, this has a simple test (convertible to boolean) to determine if there is a valid value assigned - then you don't need to pollute your variant with an "empty" state. e.g.

boost::optional<boost::variant<... > > some_func()

Remember to use in place construction in your function when you actually need to return something.

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It is a common approach if there is a possibility that the method can't return an object - make the method returning a bool:

bool get_value(Type& type) {
  if ( /*check variant emptyness*/) // one can use this -
    return false;
  // else assign type 

Comments on your solutions:

a) if you will return Empty you will still have to do a check after a method call. So why adding more types if there is a built-in bool already.

b) Type() can have the same value as a legal variable

c) exception is for something exceptional, but from your description "it is often"

d) your problem is that you can't use Type and at the same time can't return boost::variant, so adding one more type with additional ownership issues brings more questions on what is going on without solving initial issue of clean interface.

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It’s a common approach, but not a particularly clean one. Use the return type to return data, not output arguments. – Konrad Rudolph Oct 8 '12 at 6:48
The approach is clean since it uses just built-in bool and user will be aware of the use model since he will not be able to compile Type type = instance.get_value(). If the requester doesn't want to disclose that he stores a value in boost::variant (this is a detail of implementation) I can't get the solution of using boost::optional or checking for Empty and so on. These solutions are not flexible and overkill. – Riga Oct 8 '12 at 7:59
Sorry but your argument just doesn’t follow. The proper way of doing this is to use the return value, end of story. There are several different ways of accomplishing that goal (notably empty variant, using an option type, or, as a pedestrian approach, using a pair<result_type, bool>, like e.g. std::set::insert does). All of those are cleaner and don’t leak implementation details, despite what you’ve claimed. None of these solutions are “not flexible”. None of these solutions are “overkill” (what does that even mean? Syntactically they are certainly less burdensome than your code). – Konrad Rudolph Oct 8 '12 at 8:41
The fact is that pair<result_type, bool> requires more code to work with on user side than my approach. And there is no advantage to have this in return value because you still have to check availability of a value before assignment. Not flexible means if you usually return not a "boost::variant" but a concrete type – Riga Oct 8 '12 at 9:14
Wrong. The fundamental difference is that your code requires a variable to be declared and initialised beforehand. This places not only a syntactical hurdle, it also changes the semantics in some cases. For instance, it prevents the variable from being const. Re “more flexible”, my last comment has given three solutions, two of which work for all types. And with the variant, you do not have to check for availability of the value before using it, if you are using the variant properly. That is one if its main strengths. – Konrad Rudolph Oct 8 '12 at 9:17

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