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I need to use a shared_ptr here because I can't change the API.

Foo1 *foo1 = new Foo1(...);
shared_ptr<Foo2> foo2(foo1);

Is the shared_ptr here going to handle freeing the memory used by foo1? If I understand correctly, I shouldn't have to call delete on foo1 correct?

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Yes, you're correct - that's the whole point of shared_ptr. I don't understand why you're not using shared_ptr<Foo2> = new Foo1 though. –  Mark Ransom Oct 3 '12 at 16:43
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When the shared_ptr's reference count hits 0, it will destruct the Foo1 object it holds, but if you allocate memory in the Foo1 object, you have to make sure the destructor behaves as you expect. –  birryree Oct 3 '12 at 16:43
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How are the types Foo1 and Foo2 related? There had better be a valid conversion between the two. –  Loki Astari Oct 3 '12 at 17:04

3 Answers 3

up vote 9 down vote accepted

Yes. You are correct, but the correct way to initialise foo2 is:

std::shared_ptr<Foo2> foo2 = std::make_shared<Foo1>();  

Herb Sutter discusses the reasons why you should use std::make_shared<>() here: http://herbsutter.com/gotw/_103/

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Note that this also discusses reasons to not use std::make_shared. –  Pete Becker Oct 3 '12 at 16:50
    
I've updated the link to point to Herb Sutter's GotW#103 instead, as that gives a better breakdown of what the function actually does. –  Mark Ingram Oct 3 '12 at 16:55
    
The original link had a more complete analysis of when to use and when not to use std::make_shared. The new link only says that std::make_shared is wonderful. –  Pete Becker Oct 3 '12 at 17:29

You shouldn't call delete on foo1.

Better you shouldn't create foo1. Only foo2:

shared_ptr<Foo2> foo2(new Foo1(...));

std::shared_ptr is a smart pointer that retains shared ownership of an object through a pointer.

If you do not need this pointer to be shared - consider to use std::unique_ptr

std::unique_ptr is a smart pointer that: retains sole ownership of an object through a pointer, and destroys the pointed-to object when the unique_ptr goes out of scope.

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Excellent suggestion to not create foo1. –  CPlayer Oct 3 '12 at 16:57

Correct. The smart pointers provide ownership semantics. In particular, the semantics provided by std::shared_ptr are such that the object will be deleted once the last shared_ptr pointing to it is destroyed. shared_ptr keeps a reference count (how many shared_ptrs are referring to the object) and when it reaches 0, it deletes the object.

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