4

I'm using a certain large and well-maintained open-source C++ library and came across a class definition having a constructor of the form

class SomeClass {
    SomeClass( const boost::shared_ptr<SomeOtherClass>& );
}

My question is: what's the point of passing a const boost::shared_ptr<T> by reference? Is there really a non-negligible amount of overhead associated with passing a boost::shared_ptr<T> by value, or is there some other kind of danger to passing a boost::shared_ptr<T> by value that I'm not aware of?

  • The more idiomatic way is to pass native data types by value and other things by const reference, from what I've seen at least. Bjarne mentions reference "worth it" with anything bigger than a couple of words in his Style and Technique FAQ. – chris May 5 '12 at 2:11
  • @chris: Native or custom is irrelevant. What matters is the time taken to copy. An int wrapped in a struct is still probably best done by value. – Puppy May 5 '12 at 2:18
  • @DeadMG, true, but if you're going to guess at sizes, then classes will most likely be big enough that it's worth it. Taking the time to check the size of each one you pass isn't worth the small amount of time saved. – chris May 5 '12 at 2:21
  • It doesn't matter either way until you've profiled. Until then it's religion, guesswork, and assumption. – Crazy Eddie May 5 '12 at 2:48
  • @CrazyEddie: Not religion or guesswork, assumption I'll give you, but it's a good rule of thumb. Rules of thumb are better in the general sense, unless your application's performance is so dreadfully important that profiling is a must. Even then, the time difference between pass-by-ref and pass-by-value might or might not even show up on the radar, and even if the difference is significant, are you sure you'd know how to recognize the issue if you saw it without actually trying both ways? The rule-of-thumb in this case is probably better to stick with in most cases. – phonetagger May 5 '12 at 3:15
9

Passing this by value is going to copy it which results in a reference count increment, synchronized across all threads. Definitely non-negligible.

  • 1
    I would imagine it becomes very important to pass by value in a multi-threaded environment, where those effects are actually noticed. Pass by reference and your shared pointer could be effectively deleted while you're executing the function you passed it to, since the reference doesn't count in the sharing scheme. – Crazy Eddie May 5 '12 at 8:07
1

Not only are you avoiding any (slight) overhead of copying a shared_ptr but you're also declaring your intent not to keep a copy of the pointer. I don't think you can make a copy of a shred_ptr without modifying it, and const would prevent that.

  • Indeed you can copy a shared_ptr without modifying it. Copying the shared_ptr doesn't mutate the source. – Puppy May 5 '12 at 2:19
  • @DeadMG, but it does modify the pointer object itself. We're talking about const shared_ptr<T>, not shared_ptr<const T>. I must admit I've never tried it. – Mark Ransom May 5 '12 at 2:22
  • @MarkRansom You are forgetting that we are able to define const in C++ however we want. It just so happened that the people who made shared_ptr defined const as not modifying the contained object. There could have just as easily been const as you described, not being able to modify the container. – Lalaland May 5 '12 at 2:24
  • @EthanSteinberg: Actually, const on a shared_ptr doesn't prevent you from modifying the contained object, it does prevent you from modifying the container (the shared_ptr object), as in, you can't make it point to something else. (I may have misinterpreted you) – Benjamin Lindley May 5 '12 at 2:35
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    This is very definitely wrong. – Crazy Eddie May 5 '12 at 2:46
1

If you don't need to have a copy then why make a copy? It would be another question if they proceeded to copy it in the body anyway.

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