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I have a class with a unique_ptr member.

class Foo {
private:
    std::unique_ptr<Bar> bar;
    ...
};

The Bar is a third party class that has a create() function and a destroy() function.

If I wanted to use a std::unique_ptr with it in a stand alone function I could do:

void foo() {
    std::unique_ptr<Bar, void(*)(Bar*)> bar(create(), [](Bar* b){ destroy(b); });
    ...
}

Is there a way to do this with std::unique_ptr as a member of a class?

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4 Answers 4

up vote 17 down vote accepted

Assuming that create and destroy are free functions (which seems to be the case from the OP's code snippet) with the following signatures:

Bar* create();
void destroy(Bar*);

You can write your class Foo like this

class Foo {

    std::unique_ptr<Bar, void(*)(Bar*)> ptr_;

    // ...

public:

    Foo() : ptr_(create(), destroy) { /* ... */ }

    // ...
};

Notice that you don't need to write any lambda or custom deleter here because destroy is already a deleter.

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4  
With C++11 std::unique_ptr<Bar, decltype(&destroy)> ptr_; –  Joe Mar 26 at 17:32

It's possible to do this cleanly using a lambda in C++11 (tested in G++ 4.8.2).

Given this reusable typedef:

template<typename T>
using deleted_unique_ptr = std::unique_ptr<T,std::function<void(T*)>>;

You can write:

deleted_unique_ptr<Foo> foo(new Foo(), [](Foo* f) { customdeleter(f); });

For example, with a FILE*:

deleted_unique_ptr<FILE> file(
    fopen("file.txt", "r"),
    [](FILE* f) { fclose(f); });

With this you get the benefits of exception-safe cleanup using RAII, without needing try/catch noise.

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This should be the answer, imo. It's a more beautiful solution. Or are there any downsides, like e.g. having std::function in the definition or suchlike? –  j00hi Jul 8 at 10:38

You just need to create a deleter class:

struct BarDeleter {
  void operator()(Bar* b) { destroy(b); }
};

and provide it as the template argument of unique_ptr. You'll still have to initialize the unique_ptr in your constructors:

class Foo {
  public:
    Foo() : bar(create()), ... { ... }

  private:
    std::unique_ptr<Bar, BarDeleter> bar;
    ...
};

As far as I know, all the popular c++ libraries implement this correctly; since BarDeleter doesn't actually have any state, it does not need to occupy any space in the unique_ptr.

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You can simply use std::bind with a your destroy function.

std::unique_ptr<Bar, std::function<void(Bar*)>> bar(create(), std::bind(&destroy,
    std::placeholders::_1));

But of course you can also use a lambda.

std::unique_ptr<Bar, std::function<void(Bar*)>> ptr(create(), [](Bar* b){ destroy(b);});
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