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The function needs to return a shared_ptr pointing to StructA.

struct StructA
{
    // complicated struct that also holds other sub-structure
    ....
};

const boost::shared_ptr<const StructA&>& GetStructA(...)
{...} #0.5

const boost::shared_ptr<const StructA>& GetStructA(...)
{...} #0

const boost::shared_ptr<StructA>& GetStructA(...)
{...} #1

const boost::shared_ptr<StructA> GetStructA(...)
{...} #2

boost::shared_ptr<const StructA> 
{...} #3

boost::shared_ptr<StructA> GetStructA(...)
{...} #4

boost::shared_ptr<StructA>& GetStructA(...)
{...} #5

boost::shared_ptr<StructA&> GetStructA(...)
{...} #6

There are so many choices and I am sure one of them is best(pls point out if there is anyone left).

Personally, I prefer to using #0

const boost::shared_ptr<const StructA&>& GetStructA(...)
{...} #0

The legacy system uses #2

const boost::shared_ptr<StructA>  GetStructA(...)
{...} #2

The reason why I prefer to choosing #0 is as follows:

  1. return const shared_ptr, so that the caller of this function should NOT change the returned shared_ptr which may point to internal data structure

  2. return by reference, so that I can avoid +/- of the reference count of shared_ptr

  3. the shared_ptr holds const StructA&, so that the caller cannot change the content of the const shared_ptr. If I were right, even if the shared_ptr is const, it cannot prevent the caller from changing the pointed data unless the data is const.

Please

  1. correct my understanding if I made any mistake
  2. provide a best return signature for this function.

Thank you

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You don't want him doing shared_ptr X = some other value or you don't want (*X) = some other value? –  RedX Jul 25 '12 at 15:26
2  
2> this is extremely dangerous, by subverting the entire purpose of shared pointers. You now have a pointer that thinks it's used 3 times, but is really used 6, and won't throw when used after 3 releases (segfault). It may also try to release itself 6 times, as the scopes close on each reference. –  ssube Jul 25 '12 at 15:28
4  
I didn't even realize it was legal to make shared pointers containing reference types... Eeevil –  jalf Jul 25 '12 at 15:33

1 Answer 1

up vote 2 down vote accepted

It will depend on what the function does:

  • Is it creating a new object of StructA? If yes, then you must return a copy of shared_ptr.
  • Is it just providing access to a StructA object that you know will not expire under the returned referece? Then you could return const& on it (but don't - see below)

As you yourself suspect, const& on shared_ptr won't prevent non-const access to the object it points to - it just means that shared_ptr object itself is constant and cannot be reset or pointed to some other object. The semantics of shared_ptr, in this case, are the same as with semantics of the plain pointers.

I used to use const& idiom a lot when returning access pointers. But at the end it can lead to very subtle bugs especially in multithreaded code (I'm careful but I still got bitten). So peachykeen's comment above is spot on and I follow that idiom for all new code. Not only for returns mind you but also when a function argument is a shared_ptr. At the end you really want to know that whenever you have an object pointed by a shared_ptr - you really have it and not just a reference of a shared_ptr of a long dead object.

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