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To give a concrete context, I am talking about an OO designed system with quite some complexity, e.g. over 100 classes. This is a typical project like most in my experience, current one and where my confusions come from.

I am from a Java/C# background. Honestly, I admit those languages brainwashed me. So I get confusions about using copy, reference or pointer. I did great in C and Computer Architecture course back in college, have read books like c++ primer, effective c++. I have no problem understanding copy/reference/pointer individually, but not quite fluent and confident to make proper use of them in practice.

Here are two cases, for simplicity, just ignore other concepts like move, const, overloads, inheritance, smart pointer etc. Most of my problems are about copy or reference? copy or pointer?

  1. As class member field. In Java or C#, things are more like pointer: A and B can have the same/different C member, If you have same C in A and B, when you change C in A, C in B also get changed. It is common that one object shared by more than one objects. Is pointer a must in this case? But using pointers introduce much more complexity in C++ code, even with smart pointer.

  2. As class method return. Looks like reference is preferred. It avoids copy and the behavior is what I am used to: return Foo& from a method while the actual Foo is in one class and possibly shared among classes. Whatever made to that Foo& later on apply to its owner and other users. But how do I guarantee the reference is valid? It is unlike Java/C# with GC, as long as it is been used, it is there. Is it possible I get an Foo& to a Bar's member, then lots of things may happen to that Foo&, through class or functions but some how the Bar get destroyed: end of scope on stack or deleted on heap? C++ object lifetime are deterministic, ironically, that makes me uncertain about whether a reference's object is still alive!

To sum up, the mix of possible unnecessary copies, pointer's memory management and uncertainty of object lifetime is my trouble. Are there any guidelines and good practices for my problem?

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closed as too broad by Ken White, Mitch Wheat, Aurelius, Kerrek SB, mkaes Mar 31 '14 at 16:39

There are either too many possible answers, or good answers would be too long for this format. Please add details to narrow the answer set or to isolate an issue that can be answered in a few paragraphs.If this question can be reworded to fit the rules in the help center, please edit the question.

I am pleased that you got that of your chest – Ed Heal Jan 25 '14 at 0:17
I have to speak out. It makes me upset and depressed for the last few days, since when I started to work on my c++ project! – Ryan Jan 25 '14 at 0:22
You need to start thinking in terms of object ownership (what object is owned by which other object) and once you get it nailed down, most problems will just disappear. – n.m. Jan 25 '14 at 0:28
@n.m. You are probably right. But in real cases ownership may not quite clear, or something nobody really owns it but uses it. – Ryan Jan 25 '14 at 0:37
Some objects are owned jointly (shared), nothing wrong with that, but you need to know which ones, and why. – n.m. Jan 25 '14 at 1:35
up vote 2 down vote accepted

Basic cases

  • shared large member data -> std::shared_ptr
  • scoped large member data -> std::unique_ptr
  • shared/scoped small member data -> value
  • required large input arguments -> const reference
  • required small argument -> value
  • required input/output arguments -> reference
  • optional argument -> pointer / smart pointer
  • large argument with shared ownership -> std::shared_ptr const&
  • large argument with ownership transfer -> std::unique_ptr&&
  • small return value -> value
  • large return value strictly not going out of scope never -> const reference
  • large return value not going out of scope soon where performance penalty of returning by value is not tolerable and wrapping to a smart pointer is not practical -> const reference
  • large return value with shared ownership -> std::shared_ptr
  • large return value with ownership transfer -> std::unique_ptr

Somewhat less trivial cases (addition)

  • copy on write container -> std::shared_ptr
  • returning large shared object without ownership transfer -> std::weak_ptr
  • returning large value when a copy is required at destination and the type has a copy constructor taking rvalue reference as an argument -> value
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scoped large member data -> std::unique_ptr. Why prefer this over just a member object? – Ryan Jan 25 '14 at 0:26
function large return value strictly not going out of scope never -> const reference. How do I know it is never? – Ryan Jan 25 '14 at 0:27
Actually: Almost every data member: value. Not a reference, not a pointer, not a smart pointer. Shared data member? Almost always a reference or a raw pointer (no ownership!). Ownership required but sometimes empty? Only here std::unique_ptr (never empty: value). Ownership totally unclear? Redesign. Too lazy? std::shared_ptr. – Konrad Rudolph Jan 25 '14 at 0:27
scoped large member data - it will most probably be allocated on heap, everything allocated on heap is probably better to wrap into a smart pointer to mechanically prevent memory leaks – bobah Jan 25 '14 at 0:28
@bobah You basic rules are clear and helpful! – Ryan Jan 25 '14 at 0:29

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