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I have been working on std::unique_ptr s but confused at some point about its semantics. From the documentation,

No two unique_ptr instances can manage the same object

But, even tough it is most probably a silly example, consider such a code.

std::unique_ptr<int> a(new int(10));
std::unique_ptr<int> b = std::unique_ptr<int>(a.get());
std::cout << *b << std::endl;
*a = 5;
std::cout << *b;

a and b is managing the same object here, and the output is 10 5. And of course I am getting an assertion failure error at the end on debug mode due to two unique ptrs trying to destruct same object at the end of scope.

I know it is silly and such usage is not advised, but I came across to this when it was not very obvious ( a class member calling another etc. ) and the assertion failure was the thing I started with.

My question is what the above sentence exactly means: it is posed by the standard and a decent compiler shouldnt allow you to do it (i am on vs2013 btw) or you must do it that way ( never cause two unique_ptrs point to same object) ( unlikely since the purpose of unique_ptrs is to make us less worried i suppose.) Or I should never use anything about raw pointers ( a.get() ) when unique_ptr s are involved.

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up vote 1 down vote accepted

Your last sentence is correct. As soon as you use raw pointers with a.get() as in the line below, you have thrown away all the promises that std::unique_ptr make to you.

std::unique_ptr<int> b = std::unique_ptr<int>(a.get());

The correct semantic to preserve the uniqueness while converting to a raw pointer would be to use a.release().

std::unique_ptr<int> b = std::unique_ptr<int>(a.release());

Of course, you would normally just use assignment or initializatoin with std::move if you were moving ownership between two std::unique_pointer instances, as given by the documentation. Either of the two lines below should be valid.

std::unique_ptr<int> b(std::move(a));
std::unique_ptr<int> b = std::move(a);

To make the std::move semantics more clear, consider the following test program.

#include <stdio.h>
#include <memory>
#include <stdlib.h>

int main(){
    std::unique_ptr<int> a(new int(10));
    printf("%p\n", a.get());
    std::unique_ptr<int> b(std::move(a));
    printf("%p\n", a.get());
    printf("%p\n", b.get());

On my system, the output is the following. Observe that the first line and the last line match.

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You need to use std::unique_ptr<int> b = std::move(a);. You must use move assignment for std::unique_ptr. – ECrownofFire May 18 '14 at 1:09
@ECrownofFire, Fixing, thanks... I should have checked. – merlin2011 May 18 '14 at 1:09
I am having hard times understanding move semantcis. As i understand it, this line will make b point to whatever pointed to by a, and make a point to null, right? – bahti May 18 '14 at 1:14
@bahti, Roughly speaking, yes. This question gives more details. – merlin2011 May 18 '14 at 1:16
The link you provided is really helpful, thanks. But now I think of copy constructors of classes with unique ptr members. If the unique_ptr is Base class pointer pointing to a Derived class , we cannot use ( new Base(*foo.uniqueptrmember) nor this.uniquptrmember = std::move(foo.uniqueptrmember) since foo is constant. What could be the possible solution? – bahti May 18 '14 at 1:45

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