I'm aware of the following question: C++11 lambdas: member variable capture gotcha. Furthermore, I'm aware of the need to capture class members by capturing the this pointer, as the answer to this question clearly states.

Yes. Capturing member variables is always done via capturing this; it is the only way to access a member variable.

However, capturing the this pointer captures all class members. Is it possible to restrict which class members are captured? For example, is is possible to capture a single class member?

I know the following doesn't work but is it possible to achieve?

class Foo
    Foo() : mBar1(1), mBar2(2) {}

    void doBar()
        auto test = [this->mBar1]()
                std::cout << mBar1 << "\n";
                // Trying to access 'mBar2' here would fail to compile...


    int mBar1;
    int mBar2;

From the comments:

Why do you need this?

I don't need to do this. I'm just curious about understanding whether this is possible and if so how to do it.

  • Why do you need this? Can you not trust yourself? – Ed Heal Jun 4 '15 at 20:36
  • @EdHeal This question isn't necessarily about the need for this versus understanding if it's possible/how to do it. However, I think there is some value in a self documenting lambda expression that clear states which state is captured, how it captured (i.e., by value/reference), and the source of the captured state. – James Adkison Jun 4 '15 at 22:19

Using C++11 you will have to capture this.

However, in C++14 you can capture arbitrary expressions, either by value:

[mBar1 = this->mBar1]() { ... }

or reference:

[&mBar1 = this->mBar1]() { ... }
  • 1
    @Brian I am restricted to a C++11 compiler currently. However, you're correct that my usage of the C++11 tag doesn't imply that I don't want to know that this is possible in C++14 or any other future/proposed C++ standard but that it is appropriate to state that it's not possible in C++11. – James Adkison Jun 4 '15 at 22:23
  • The question may be tagged "C++11", but realize this: C++14 added a solution, which would not have happened if there was already a good solution in C++11. We can't prove a negative, but this at least makes it believable that no C++11 solution exists. – MSalters Jun 5 '15 at 10:24
  • That is better ++ – Shafik Yaghmour Jun 5 '15 at 11:32

If you are able to use a C++14 compiler, you can use

auto test = [&bar = this->mBar1]()
    std::cout << bar<< "\n";

If you are restricted to using a C++11 compiler, you'll have to capture this.

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