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I currently have vectors such as:

vector<MyClass*> MyVector;

and I access using


I would like to make use of shared_ptr. Does this mean all I have to do is change my vector to:

typedef shared_ptr<MyClass*> managed_myclass


and I can continue using the rest of my code as it was before?

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That better be shared_ptr<MyClass> –  K-ballo May 28 '12 at 20:35
Ok but will shared_ptr<MyClass> allow me to replicate vector<MyClass*> rather than vector<MyClass>? I am not using any polymorphism in my code. –  user997112 May 28 '12 at 20:59
shared_ptr<MyClass> is a pointer already, a shared pointer to a MyClass object. shared_ptr<MyClass*> would be a pointer to a pointer, or the raw equivalent of MyClass**. –  K-ballo May 28 '12 at 21:00
Excellent, I thought as much. Thanks K-ballo –  user997112 May 28 '12 at 21:03
@K-ballo: "would be a pointer to a pointer" would be SMART pointer to pointer. –  SigTerm May 28 '12 at 21:08

3 Answers 3

Probably just std::vector<MyClass>. Are you

  1. working with polymorphic classes or
  2. can't afford copy constructors or have a reason you can't copy and are sure this step doesn't get written out by the compiler?

If so then shared pointers are the way to go, but often people use this paradigm when it doesn't benefit them at all.

To be complete if you do change to std::vector<MyClass> you may have some ugly maintenance to do if your code later becomes polymorphic, but ideally all the change you would need is to change your typedef.

Along that point, it may make sense to wrap your entire std::vector.

class MyClassCollection {
     private : std::vector<MyClass> collection;
     public  : MyClass& at(int idx);

So you can safely swap out not only the shared pointer but the entire vector. Trade-off is harder to input to APIs that expect a vector, but those are ill-designed as they should work with iterators which you can provide for your class.

Likely this is too much work for your app (although it would be prudent if it's going to be exposed in a library facing clients) but these are valid considerations.

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I used vector<MyClass*> because I was creating a chain of recursively linked elements and I needed them to still point to eachother even if I emptied the vector. Plus the fact I want automatic memory reclamation. –  user997112 May 28 '12 at 21:02
would a linked list make more sense as a container than a vector then? –  djechlin May 28 '12 at 21:04
Seems like you had some typos and used a C# syntax: private and public should be followed by ":". –  user1149224 May 28 '12 at 22:32

vector<shared_ptr<MyClass>> MyVector; should be OK.

But if the instances of MyClass are not shared outside the vector, and you use a modern C++11 compiler, vector<unique_ptr<MyClass>> is more efficient than shared_ptr (because unique_ptr doesn't have the ref count overhead of shared_ptr).

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Should be vector<shared_ptr<MyClass> > MyVector, otherwise the compiler will take it as >> operator. –  Deqing Jul 3 '13 at 9:53
@Deqing not anymore in C++11 –  nurettin Oct 5 '13 at 8:19
@AJed Which non-confirming C++ compilers are they? –  nurettin Nov 30 '13 at 1:13
@nurettin I honestly don't know, but I cite the C++ Primer book (edition 5). They repeated this sentence many times in the book. –  AJed Nov 30 '13 at 1:17
@AJed calm down, it is a basic language feature which is in six C++11 compilers out there that I know and what you're defending is the author's subjective, unsubstantiated opinion. –  nurettin Dec 3 '13 at 15:23

Don't immediately jump to shared pointers. You might be better suited with a simple pointer container if you need to avoid copying objects.

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