Within the scope of a member function, I want to temporarly set a member variable to a certain value.

Then, when this function returns, I want to reset this member variable to a given known value.

To bo safe against exceptions and multiple returns, and I've done it with a simple RAII like class. It's defined within the scope of the member function.

void MyClass::MyMemberFunction() {
    struct SetBackToFalse {
        SetBackToFalse(bool* p): m_p(p) {}
        ~SetBackToFalse() {*m_p=false;}
        bool* m_p;

    m_theVariableToChange = true;
    SetBackToFalse resetFalse( &m_theVariableToChange ); // Will reset the variable to false.

    // Function body that may throw.

It seems so obviously commonplace, that I was wondering if there was any such template class doing this in the C++ standard library?

  • 2
    Also there is Boost.ScopeExit.
    – Baum mit Augen
    Apr 15 '16 at 10:21
  • 2
    @BaummitAugen: The concept of ScopeGuards was really invented by Petru Marginean, rather than Andrei Alexandresu. Couldn't find an authoritative reference, so I'll have to take Herb Sutter's word for it. Apr 15 '16 at 11:58
  • 2
    @IInspectable I don't know who invented it, it's just the only implementation I know. But thx for the links. Also, from the standards proposas: "This proposal incorporates what Andrej Alexandrescu described as scope guard long ago and explained again at C++ Now 2012 ()." Iirc that's the talk I'm referring to above.
    – Baum mit Augen
    Apr 15 '16 at 12:12
  • 3
    This construct will be absolutely deadly if the object is accessed from multiple threads. Apr 15 '16 at 12:17
  • 2
    @PeteBecker Equally deadly as var = false; ...
    – M.M
    Apr 18 '16 at 10:35

Not yet (there have been proposals for this). But implementing a generic one is simple enough;

struct scope_exit {
  std::function<void()> f_;
  explicit scope_exit(std::function<void()> f) noexcept : f_(std::move(f)) {}
  ~scope_exit() { if (f_) f_(); }
// ...
m_theVariableToChange = true;
scope_exit resetFalse([&m_theVariableToChange]() { m_theVariableToChange = false; });

For simplicity above, I've redacted the copy and move constructors etc...

Marking them as = delete will make the above a minimal solution. Further; moving could be allowed if desired, but copying should be prohibited.

A more complete scope_exit would look like (online demo here);

template <typename F>
struct scope_exit {
  F f_;
  bool run_;
  explicit scope_exit(F f) noexcept : f_(std::move(f)), run_(true) {}
  scope_exit(scope_exit&& rhs) noexcept : f_((rhs.run_ = false, std::move(rhs.f_))), run_(true) {}
    if (run_)
      f_(); // RAII semantics apply, expected not to throw

  // "in place" construction expected, no default ctor provided either
  // also unclear what should be done with the old functor, should it
  // be called since it is no longer needed, or not since *this is not
  // going out of scope just yet...
  scope_exit& operator=(scope_exit&& rhs) = delete;
  // to be explicit...
  scope_exit(scope_exit const&) = delete;
  scope_exit& operator=(scope_exit const&) = delete;

template <typename F>
scope_exit<F> make_scope_exit(F&& f) noexcept
  return scope_exit<F>{ std::forward<F>(f) };

Notes on the implementation;

  • std::function<void()> can be used to erase the type of the functor. std::function<void()> offers exception guarantees on the move constructors based on the exception specific of the held function. A sample of this implementation is found here
  • These exception specifications are consistent the C++ proposal and GSL implementations
  • I've redacted most of the motivation for the noexcept, more substantial detail is found in the C++ proposal
  • The "usual" RAII semantics of the destructor, hence the "scope exit" function is applicable; it will not throw, this is also consistent with the C++11 specification on the default exception specification for a destructor. See cppreference, SO Q&A, GotW#47 and HIC++

Other implementations can be found;

  • I'll add further notes and exception specifications as soon as I get a chance.
    – Niall
    Apr 16 '16 at 10:25
  • 2
    (Peter Sommerlad's paper that you're referring to has a new revision: P0052r1.)
    – Kerrek SB
    Apr 16 '16 at 10:33
  • @KerrekSB. I'm glad that proposal hasn't fallen by the way side.
    – Niall
    Apr 18 '16 at 8:59

You could 'abuse' shared_ptr for this:

m_theVariableToChange = true;
std::shared_ptr<void> resetFalse(nullptr, [&](void*){ m_theVariableToChange = false; });

If there are concerns about using void as template parameter T, I found the following in the C++ standard:§2:

... The template parameter T of shared_ptr may be an incomplete type.

This indicates that T is only used as a pointer, therefore using void should be fine.

  • 1
    I did not downvote, but probably it's not guaranteed that the deleter will execute when the first constructor argument is null Apr 15 '16 at 11:26
  • Yes, that could be a reason, thanks @Viktor. However, I tested it, it seems to work. Another reason could be using void I guess. I'm not sure if this is legal.
    – alain
    Apr 15 '16 at 11:33
  • Dear downvoter, if the reason was std::nullptr, it's corrected now. Silly mistake, sorry for that.
    – alain
    Apr 15 '16 at 12:06
  • Thanks, now I learned a new reason why using namespace std is bad ;-)
    – alain
    Apr 15 '16 at 12:23
  • @ViktorSehr. Given ~shared_ptr() effects "If *this is empty or shares ownership with another shared_ptr instance (use_count() > 1), there are no side effects." and "A shared_ptr object is empty if it does not own a pointer." §, it should be ok for constructing it with a null pointer - it then owns a null pointer; but I think it is only just ok, I'm sure if it was originally intended to work this way (but it does seem to work).
    – Niall
    Apr 15 '16 at 13:18

There is no standard version of this.

The CppGoreGuidelines Support Library (GSL) has a generalized version of this called finally but that library is not production quality yet. Its definitely recommended practice.

E.19: Use a final_action object to express cleanup if no suitable resource handle is available


finally is less verbose and harder to get wrong than try/catch.


void f(int n)
    void* p = malloc(1, n);
    auto _ = finally([p] { free(p); });
    // ...


finally is not as messy as try/catch, but it is still ad-hoc. Prefer proper resource management objects.


Similar question: The simplest and neatest c++11 ScopeGuard

On that thread is described a similar guard for invoking an arbitrary function. To solve your problem, invoke a lambda that resets your variable.

For example, the solution from this answer for your code would be:

scope_guard guard1 = [&]{ m_theVariableToChange = false; };

Another answer on that thread notes that a similar concept has been proposed for C++17 standardization; and there is also a C++03 solution presented.

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