Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I want to create a guard, which locks a function on construction and unlocks it on destruction, e.g. calling the function with false and true.

class A {
void enable( bool flag );
};

within another method, I want to use:

A::anotherMethod( ... ) {
  block_guard(A::enable); // now A::enable(false)
  // some operation
} // now A::enable(true)

my ideas:

using template

template < class T >
class block_guard {
  T t_;
public:
  block_guard( T& t ) : t_(t) {
    t_(false);
  }
  ~block_guard() {
    t_(true);
  }
};

the question is, how to instantiate the template? maybe with boost::bind?

using boost::function

class block_guard {
  typedef boost::function< void (bool) > T;
  T t_;
public:
  block_guard( T& t ) : t_(t) {
    t_(false);
  }
  ~block_guard() {
    t_(true);
  }
};

this works fine, but the call seems to be very complicated with

block_guard bg(boost::function< void (bool) >(boost::bind(&A::enable, pointer-to-A, _1));

any ideas? maybe there is another, much simpler way?

share|improve this question
add comment

2 Answers

up vote 2 down vote accepted

First, realize that the member function is not all you need; you also need the object to invoke it on. There is no way in C++ for an object created in a function to implicitly capture the current this pointer.

I'm going to assume you don't have C++11 available. If you do, using your second solution with a lambda expression is easiest.

Now, if you don't care about the slight performance hit of boost::function (and you shouldn't), the second solution is good, but I would modify it slightly to make it more convenient to use by pulling the bind into the constructor.

class block_guard {
  typedef boost::function< void (bool) > block_fn;
  block_fn block_fn_;
public:
  // For non-member functions and function objects:
  template <typename Fn>
  block_guard(Fn fn) : block_fn_(fn) {
    block_fn_(false);
  }
  // For member functions:
  template <typename T, typename Ret>
  block_guard(T* obj, Ret (T::*fn)(bool)) : block_fn_(boost::bind(fn, obj, _1)) {
    block_fn_(false);
  }
  ~block_guard() {
    block_fn_(true);
  }
};

Usage:

block_guard guard(this, &A::enable);

I use a Ret parameter here because there's no reason not to allow functions that return something - the return value will simply get ignored.

If you don't want boost::function, the thing will get less easy to use, because you have to template the block guard. It becomes useful to make a block_guard specifically for member functions then. You also lose the ability to use non-void functions.

template <typename T>
class block_guard {
  typedef void (T::*block_fn)(bool);
  T* obj_;
  block_fn block_fn_;
public:
  block_guard(T* obj, block_fn fn) : obj_(obj), block_fn_(fn) {
    (obj_->*block_fn_)(false);
  }
  ~block_guard() {
    (obj_->*block_fn_)(true);
  }
};

Usage:

block_guard<A> guard(this, &A::enable);
share|improve this answer
    
can u please add the lambda expression way? i'm not very familiar with these ... –  walle Jun 13 '13 at 10:52
1  
block_guard guard([this](bool b) { enable(b); }); –  Sebastian Redl Jun 13 '13 at 10:53
add comment

Yes, there is a much simpler way, forget templates, generic thing and whatever not necessary and focus on the task.

All you need is a class with a ctor and a dtor. Write the dtor first, it reveals what you will need to work. Then write the ctor, taking arguments as needed. Lastly make the unwanted functions deleted (cctor, op=). Done.

Not generic, but straight to the point.

share|improve this answer
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.