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I'm trying to use a unique_ptr to derived class in a function that takes a unique_ptr to a base class. Something like:

class Base

class Derived : public Base

void f(unique_ptr<Base> const &base)


unique_ptr<Derived> derived = unique_ptr<Derived>(new Derived);

If I understand this answer correctly, this code should work, but it causes the following compile errors:

error C2664: 'f' : cannot convert parameter 1 from 'std::unique_ptr<_Ty>' to 'const std::unique_ptr<_Ty> &'

IntelliSense: no suitable user-defined conversion from "std::unique_ptr<Derived, std::default_delete<Derived>>" to "const std::unique_ptr<Base, std::default_delete<Base>>" exists

If I change f to take unique_ptr<Derived> const &derived, it works fine, but that's not what I want.

Am I doing something wrong? What can I do to work around this?

I'm using Visual Studio 2012.

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2 Answers 2

up vote 12 down vote accepted

You have three options:

  1. Give up ownership. This will destroy the object at the end of the function call:

  2. Change the signature of f:

    void f(std::unique_ptr<Derived> const &);
  3. Change the type of your variable:

    std::unique_ptr<base> derived = std::unique_ptr<Derived>(new Derived);

    Or of course just:

    std::unique_ptr<base> derived(new Derived);
  4. Update: Or, as recommended in the comments, don't transfer ownership at all:

    void f(Base & b);
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In that case, I'm considering going with 4. Use shared_ptr. –  svick Jul 4 '13 at 15:37
How about just using a reference instead of a unique_ptr for the function call? –  ltjax Jul 4 '13 at 15:51
@svick, why pass in a smart pointer to the function if it doesn't take ownership of the pointer? That's not what smart pointers are for. –  Jonathan Wakely Jul 4 '13 at 15:56
@ltjax How exactly would I do that? –  svick Jul 4 '13 at 16:05
@metal: Great, thanks - yeah, important detail, the return types have to match. I missed that. Good stuff. You could have said return std::unique_ptr<Base>(std::move(p)), I suppose. –  Kerrek SB Feb 25 '14 at 15:26

A possibile solution is to change the type of the argument to be a Base const*, and pass derived.get() instead. There is no transfer of ownership with unique_ptr const<Base>& (and the unique_ptr is not being modified), so changing to a Base const* does not change the meaning.

Herb Sutter discusses passing smart pointer arguments at length in Smart Pointer Parameters. An extract from the linked article refers to this exact situation:

Passing a const unique_ptr<widget>& is strange because it can accept only either null or a widget whose lifetime happens to be managed in the calling code via a unique_ptr, and the callee generally shouldn’t care about the caller’s lifetime management choice. Passing widget* covers a strict superset of these cases and can accept “null or a widget” regardless of the lifetime policy the caller happens to be using.

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Doesn't Base const* mean that the function could store the pointer somewhere? I though smart pointers are trying to avoid that. –  svick Jul 4 '13 at 16:04
@svick, the function could store base.get() just as easily (get() is const member function). –  hmjd Jul 4 '13 at 16:05
@svick No. Smart pointers are to avoid memory leaks by making clear who is the owner of an object. If you pass raw pointer as argument to a function you just give access to read/modify it. Smart pointers are to avoid using raw new and delete, not pointers at all. –  etam1024 Jul 5 '13 at 0:08

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