How do I pass smart pointers into functions?

Question

When passing objects into functions, do the same rules apply to smart pointers as to other objects that contain dynamic memory?

When I pass, for example, a std::vector<std::string> into a function I always consider the following options:

1. I'm going to change the state of the vector object, but I do not want those changes reflected after the function has finished, AKA make a copy.

    void function(std::vector<std::string> vec);

2. I'm going to change the state of the vector object, and I do want those changes reflected after the function has finished, AKA make a reference.

    void function(std::vector<std::string> & vec);

3. This object is pretty big, so I'd better pass a reference, but tell the compiler not to let me change it.

    void function(std::vector<std::string> const& vec);

Now is this the same logic with smart pointers? And when should I consider move semantics? Some guidelines on how I should pass smart pointers is what I desire most.

Answer 1

Smart pointers have pointer semantics , not value semantics (well, not the way you mean it). Think of shared_ptr<T> as a T* ; treat it as such (well, except for the reference counting and automatic deletion). Copying a smart pointer does not copy the object it points to, just like copying a T* does not copy the T it points to.

You can't copy a unique_ptr at all. The whole point of the class is that it cannot be copied; if it could, then it wouldn't be a unique (ie: singular) pointer to an object. You have to either pass it by some form of reference or by moving it.

Smart pointers are all about ownership of what they point to. Who owns this memory and who will be responsible for deleting it. unique_ptr represents unique ownership: exactly one piece of code owns this memory. You can transfer ownership (via move ), but in so doing, you lose ownership of the memory. shared_ptr represents shared ownership.

In all cases, the use of a smart pointer in a parameter list represents transferring ownership . Therefore, if a function takes a smart pointer, then it is going to claim ownership of that object. If a function isn't supposed to take ownership, then it shouldn't be taking a smart pointer at all; use a reference ( T& ) or if you have need of nullability, a pointer but never store it.

If you are passing someone a unique_ptr , you are giving them ownership . Which means, by the nature of unique ownership, you are losing ownership of the memory. Thus, there's almost no reason to ever pass a unique_ptr by anything except by value.

Similarly, if you want to share ownership of some object, you pass in a shared_ptr . Whether you do it by reference or by value is up to you. Since you're sharing ownership, it's going to make a copy anyway (presumably), so you might as well take it by value. The function can use std::move to move it into class members or the like.

Answer 2

If the function isn't going to modify or make a copy of the pointer, just use a dumb pointer instead. Smart pointers are used to control the lifetime of an object, but the function isn't going to change the lifetime so it doesn't need a smart pointer, and using a dumb pointer gives you some flexibility in the type used by the caller.

void function(std::string * ptr);

function(my_unique_ptr.get());
function(my_shared_ptr.get());
function(my_dumb_ptr);

unique_ptr can't be copied, so if you must pass it you must pass a reference.

Answer 3

A smart pointer is an object that refer to another object an manages its lifetime.

Passing a smart pointer reuquires to respect the semantics the smart poitner support:

• Passing as const smartptr<T>& always work (and you cannot change the pointer, but can change the state of what it points to).
• Passing as smartptr<T>& always work (and you can change the pointer as well).
• Passing as smartptr<T> (by copy) works only if smartptr is copyable. It works with std::shared_ptr , but not with std::unique_ptr , unless you "move" it on call, like in func(atd::move(myptr)) , thus nullifying myptr , moving the pointer to the passed parameter. (Note that move is implicit if myptr is temporary).
• Passing as smartptr<T>&& (by move) imposes the pointer to be moved on call, by forcing you to explicitly use std::move (but requires "move" to make sense for the particular pointer).

Answer 4

• I know the person asked this question is more knowledgeable than me in C++ and There are some perfect answer to this question but I believe This question better be answer in a way that it doesn't scares people from C++, although it could get a little complicated, and this is my try:

Consider there is only one type of smart pointer in C++ and it is shared_ptr , so we have these options to pass it to a function:

1 - by value : void f(std::shared_ptr<Object>);

2 - by reference : void f(std::shared_ptr<Object>&);

The biggest difference is,the First one lend you the ownership and The second one let you manipulate the ownership.

further reading and details could be at this link which helped me before.