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I have tried the following:

std::function<void ()> getAction(std::unique_ptr<MyClass> &&psomething){
    //The caller given ownership of psomething
    return [psomething](){ 
        //psomething is expected to be released after this point

But it does not compile. Any ideas?


AS suggested, some new syntax is required to explicitly specify we need to transfer the ownership to the lambda, I am now thinking about the following syntax:

std::function<void ()> getAction(std::unique_ptr<MyClass> psomething){
    //The caller given ownership of psomething
    return [auto psomething=move(psomething)](){ 
        //psomething is expected to be released after this point

Would it be a good candidate?


I will show my implementation of move and copy as following:

template<typename T>
T copy(const T &t) {
    return t;

//process lvalue references
template<typename T>
T move(T &t) {
    return std::move(t);

class A{/*...*/};

void test(A &&a);

int main(int, char **){
    A a;
    test(copy(a));    //OK, copied
    test(move(a));    //OK, moved
    test(A());        //OK, temporary object
    test(copy(A()));  //OK, copying temporary object
    //You can disable this behavior by letting copy accepts T &  
    //test(move(A())); You should never move a temporary object
    //It is not good to have a rvalue version of move.
    //test(a); forbidden, you have to say weather you want to copy or move
    //from a lvalue reference.
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5 Answers 5

up vote 25 down vote accepted

You cannot permanently capture a unique_ptr in a lambda. Indeed, if you want to permanently capture anything in a lambda, it must be copyable; merely movable is insufficient.

This could be considered a defect in C++11, but you would need some syntax to explicitly say that you wanted to move the unique_ptr value into the lambda. The C++11 specification is very carefully worded to prevent implicit moves on named variables; that's why std::move exists, and this is a good thing.

To do what you want will require either using std::bind (which would be semi-convoluted, requiring a short sequence of binds) or just returning a regular old object.

Also, never take unique_ptr by &&, unless you are actually writing its move constructor. Just take it by value; the only way a user can provide it by value is with a std::move. Indeed, it's generally a good idea to never take anything by &&, unless you're writing the move constructor/assignment operator (or implementing a forwarding function).

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Greate! I would like to mark this as correct answer if you provide some example of the bind sequence. – Earth Engine Nov 23 '11 at 4:32
I agree that taking unique_ptr by && is not a good idea. However, in general I believe take something by && means "I want the caller actually give me the ownership of something, not just for reference". – Earth Engine Nov 23 '11 at 4:36
@EarthEngine: You can get that by taking the argument by value. If they pass a temporary, then the temporary will be moved into your argument value. If they pass a non-temporary, they still have to use std::move, which will cause the movement to happen into your argument. The way you're doing it means that your function does not have to take ownership of it. My post here explains this in greater detail. – Nicol Bolas Nov 23 '11 at 4:43
"Indeed, it's generally a good idea to never take anything by &&, unless you're writing the move constructor/assignment operator." Or unless you're implementing perfect forwarding... – ildjarn Nov 23 '11 at 19:04
This answer should be updated with recent changes in the draft for c++14. – Klaim Jun 6 '13 at 17:31

The "semi-convoluted" solution using std::bind as mentioned by Nicol Bolas is not so bad after all:

std::function<void ()> getAction(std::unique_ptr<MyClass>&& psomething)
    return std::bind([] (std::unique_ptr<MyClass>& p) { p->do_some_thing(); },
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I agree, it looks not bad. – Earth Engine Oct 10 '12 at 23:49

This issue is being addressed by lambda generalized capture in C++14:

auto u = make_unique<some_type>( some, parameters );  // a unique_ptr is move-only [ u{move(u)} ] { do_something_with( u ); } ); // move the unique_ptr into the lambda
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That's the ideal solution. – Earth Engine Jun 6 '13 at 22:43
When does the unique pointer get released under these circumstances? When the lambda does? – Leo Aug 18 '14 at 14:43
@Leo The unique pointer must be moved to the data block of the lambda (a lambda is just an object with () operator) and then released after the lambda object being released. The lambda object as an rvalue can be released after if it is not moved. If it is moved it can be released anytime after it, and this makes sense if you want to schedule do_something_with to run later on. – Earth Engine Jan 13 at 22:36

A sub-optimal solution that worked for me was to convert the unique_ptr to a shared_ptr and then capture the shared_ptr in the lambda.

std::function<void()> getAction(std::unique_ptr<MyClass> psomething)
    //The caller given ownership of psomething
    std::shared_ptr<MyClass> psomethingShared = std::shared_ptr<MyClass>(std::move(psomething));
    return [psomethingShared]()
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I used this really dodgy workaround, which involves sticking the unique_ptr inside a shared_ptr. This is because my code required a unique_ptr (due to an API restriction) so I couldn't actually convert it to a shared_ptr (otherwise I'd never be able to get my unique_ptr back).

My justification for using this abomination is that it was for my test code, and I had to std::bind a unique_ptr into the test function call.

// Put unique_ptr inside a shared_ptr
auto sh = std::make_shared<std::unique_ptr<Type>>(std::move(unique));

std::function<void()> fnTest = std::bind([this, sh, input, output]() {
    // Move unique_ptr back out of shared_ptr
    auto unique = std::move(*sh.get());

    // Make sure unique_ptr is still valid

    // Move unique_ptr over to final function while calling it
    this->run_test(std::move(unique), input, output);

Now calling fnTest() will call run_test() while passing the unique_ptr to it. Calling fnTest() a second time will result in an assertion failure, because the unique_ptr has already been moved/lost during the first call.

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