In an effort to write better code, I've committed to using boost's smart pointers.

Should a boost::shared_ptr always be initialized like so?

boost::shared_ptr<TypeX> px(new TypeX);

My confusion has risen from a code block similar to this:

void MyClass::FillVector()
    boost::shared_ptr<TypeX> tempX;
    if(//Condition a)
        boost::shared_ptr<TypeX> intermediateX(new TypeA);
        tempX = intermediateX;
        boost::shared_ptr<TypeX> intermediateX(new TypeB);
        tempX = intermediateX;
    _typeXVec.push_back(tempX); // member std::vector< boost::shared_ptr<TypeX> >

Is there an accepted way to skip that intermediate shared_ptr while keeping it in scope to push back to _typeXVec?

Thank you.

Edit: Wanted to clarify that TypeA and TypeB are both children of TypeX.

  • You could use a ternary operator I believe: boost::shared_ptr<TypeX> tempX((condition ? new TypeA : New TypeB)); – Jesse Good Aug 3 '12 at 0:05
  • @JesseGood that was one of my thoughts, but what if it's a switch with multiple conditions? I guess I was curious if there was an obvious best practice here I simply wasn't familiar with. – Drism Aug 3 '12 at 0:09
boost::shared_ptr<X> p;
if( condition ) {
  p.reset( new A() );
}else {
  p.reset( new B() );
  • How would one do this with a weak_ptr? – Drism Aug 9 '12 at 2:49

Should a boost::shared_ptr always be initialized like so?

Yes, per the Boost shared_ptr Best Practices.

This is not the only safe way to have a smart pointer take ownership of a dynamically allocated object, but it is a common pattern that can be used practically everywhere. It's easy for anyone who is familiar with this pattern to look at the code and know that it is correct.

(So, for example, I'm pretty sure that tempX.reset(new TypeA); would also be safe, but I'm not 100% sure. I'd have to check the documentation, and I'd probably want to check the implementation. Then I'd have to think through all of the possible failure cases and see that all of them are handled correctly. If you follow the pattern, you and the people who maintain the code later don't have to waste time thinking through these issues.)

One note, however: rather than the assignment, however, I would recommend either of the following:

using std::swap;
swap(tempX, intermediateX);

tempX = std::move(intermediateX);

These remove the need for the unnecessary atomic reference count update required by assignment.

  • In other words, I want to spend my time writing code and knowing it is correct, not worrying about whether my code is correct. – James McNellis Aug 3 '12 at 0:02
  • Well, or the maintainer will wonder what inspired this misguided piece of verbosity and just change it to shared_ptr::reset which is perfectly safe, as it is the equivalent to that operation or even make_shared, – pmr Aug 3 '12 at 0:12
  • @pmr: Anyone that is familiar with smart pointer usage would immediately recognize this pattern. make_shared is a viable alternative. – James McNellis Aug 3 '12 at 1:59

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.