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I would like to trigger a specific constructor for a member variable based on flags I pass to the containing class's constructor.

It's easiest if I start with a trivial example:

#include <boost/optional.hpp>
#include <boost/none.hpp>
#include <boost/utility/typed_in_place_factory.hpp>

struct state
{
  bool flag1;
  bool flag2;
  int value;
};

class A
{
public:
  A() : _a() {}
  A(boost::none_t none) : _a() {}
  A(state& st) : _a(st.value) {}
  A(const A& copy) : _a(copy._a) {}

private:
  boost::optional<int> _a;
};

class B
{
public:
  B() : _b() {}
  B(boost::none_t none) : _b() {}
  B(state& st) : _b(st.value) {}
  B(const B& copy) : _b(copy._b) {}

private:
  boost::optional<int> _b;
};

class C
{
public:
  C() : _a(boost::none_t()), _b(boost::none_t()) {}
  C(state& st) :
    _a(st.flag1 ? st : boost::none_t()),
    _b(st.flag2 ? st : boost::none_t())
  {}

private:
  boost::optional<A> _a;
  boost::optional<B> _b;
};

int main(void)
{
  state f = { true, false, 10 };
  C c(f);

  return 0;
}

So the idea is to trigger the constructor for A with state, but B with boost::none_t.
The above code does not compile because the ternary operator is expecting the same type for both possibilities, and state and boost::none_t are not the same type. Can anyone think of an elegant way around this?

I know of two solutions:

  1. Copy construct, i.e.

    _a(st.flag1 ? A(st) : A(boost::none_t())), _b(st.flag2 ? B(st) : B(boost::none_t()))

  2. Use pointers instead of boost::optional<>, then

    _a(st.flag1 ? new A(st) : new A(boost::none_t())), _b(st.flag2 ? new B(st) : new B(boost::none_t()))

#2 is not so appealing, as I'm trying to avoid dynamic memory allocation (the real example has tens of members and deeply nested structures with more members).
#1 is also not appealing as I would need to construct and then copy.

Is there a better alternative?

EDIT: state is modified by the members on construction, so I don't want to construct something with state if the flag is not set.

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3 Answers 3

You have to learn to trust your compiler's optimiser to inline this kind of thing adequately, or you'll restrict yourself from using 99% of the Standard libraries and advanced C++ facilities.

Start by looking at the boost optional API:

...
optional(bool condition, T const&);
...

Which suggests adding a matching constructor...

A(bool condition, T const& v) : _a(condition, v) { }

...and using it in your initialisation...

_a(st.flag1, st.value)
share|improve this answer
    
I do trust the optimizer to do a better job than I, but only when I understand what it's doing. I will mark your answer up for the suggestion, however it still does a copy construct, and infact is more damaging that the first option I have above (reason being that state is modified as members are constructed and with this approach, A & B are constructed with state irrespective of whether the flag is set or not.) –  Nim Nov 4 '10 at 10:23
    
@Nim: the boost docs say of that constructor: if condition is true it's equivalent to optional(v), otherwise optional(), which suggests the boolean is consulted and either the optional's bool or state set - no unnecessary copying/init of state. It copy constructs the optional but not A or B - this is more targetted and appropriate, and I fully expect the optimiser to remove this. –  Tony D Nov 4 '10 at 10:33
    
good call for this version of optional constructor! This (alone) solves the problem of the OP. The OP is not trying to build a A but an optional<A>, thus it is unnecessary to add a A constructor for this. However it means that A(st) will always be executed (before being passed to optional) and since this is guaranteed by the standard (because of the potential side-effects) this might affect the semantics of the constructor. The behavior is thus different from the ternary operator, especially since Nim precised that st is modified by A constructor. –  Matthieu M. Nov 4 '10 at 10:34
up vote 1 down vote accepted

It appears that using boost::optional<> is complicating things, using it with the copy constructed approach seems to cause both the state based and copy based constructors of A & B to be called - even with full optimization.

However, if I define the members of C as simply A _a and B _b, the copy constructor is actually optimised away, so doing

_a(st.flag1? A(st) : A()), _b(st.flag2? B(st) : B())

Is actually apparently the most optimal way of getting this to work, I just have to workaround the other functionality I was using from boost::optional<> (i.e. initialized vs. uninitialized).

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I would expect the copy constructor approach to work, because as stated it solves the issue of types for the ternary operator. However I do not know if the copy could be optimized away.

From a readability point of view though, I would prefer:

boost::optional<A> buildA(state& st) { return st.flag1 ? A(st) : A(); }
boost::optional<B> buildB(state& st) { return st.flag2 ? B(st) : B(); }

C::C(state& st): _a(buildA(st)), _b(buildB(st)) {}

which is slightly more verbose. The optimization of the copy remains a good question.

Note: why do you use a state& ? From this short example a state const& would be better since no reference is taken from st.

share|improve this answer
    
I was thinking along the lines that the copy may be optimized away as well, but wasn't so sure - is there any way to confirm? As for the reason why I'm taking a reference, in the real code, the contents of state will be modified as each member is initialised, (I left it the same here, but you are right, for this example I could have made it const!) –  Nim Nov 4 '10 at 10:08
    
@Nim: the usual way is to look at the assembly produced, which is quite tedious, but the only portable way (without execution) to look at the product of a compiler. If you use Clang, you could get a dump of the AST produced, if I remember correctly copy elision is mentioned in the AST... but no guarantee there. If you can execute the compiled code, then a trace in the copy constructor :) –  Matthieu M. Nov 4 '10 at 10:26
    
@Metthieu, hmm going to have to leave that for a learning exercise for later, with traces and even with O3 (gcc 4.4.4), I can see that both the state and copy constructors are triggered... :( –  Nim Nov 4 '10 at 10:35

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