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I want to ensure that only one thread at a time can run a method of my C++ class. In other words, make the class behave like a Monitor.

Is there a pattern, templatized way to do this, or some Boost class I can use? Because my only idea so far is adding a Critical Section member, and acquire it at the beginning of each method and release it at the end (using RAII, of course). But that seems very redundant, and I can't reuse it for some other class.

share|improve this question
    
It's hard for me to imagine doing this with less code. The code required for your proposed solution is one line for the class (the mutex member) plus one line for each function. I don't think it's going to get smaller without specific language support. Is this your question? If so, the answer is "C++ does not have language support for making monitors". :) – Magnus Hoff Sep 28 '12 at 21:01
1  
Why don't you just use a mutex, it is widely available. Inventing your own synchronization primitives has a knack for byting badly. – Hans Passant Sep 28 '12 at 21:02
    
See Boost.Thread in case that wasn't sufficiently obvious. :-] – ildjarn Sep 28 '12 at 21:03
up vote 8 down vote accepted

First make generic monitor class. With power of C++11 you can do it as simple as this:

template <class F>
struct FunctionType;
template <class R, class Object, class... Args>
struct FunctionType<R (Object::*)(Args...)> {
  typedef R return_type;
};
template <class R, class Object, class... Args>
struct FunctionType<R (Object::*)(Args...) const> {
  typedef R return_type;
};

template <class Object_>
class Monitor {
public:
   typedef Object_ object_type;
   template <class F, class... Args >
   typename FunctionType<F>::return_type operation(const F& f, Args... args)
   {
       critical_section cs;
       return (object.*f)(args...);
   }
   template <class F, class... Args >
   typename FunctionType<F>::return_type operation(const F& f, Args... args) const
   {
       critical_section cs;
       return (object.*f)(args...);
   }
private:
  object_type object;
  class critical_section {};
};

Of course critical_section implementation is up to you. I recommend POSIX or some BOOST.

It is ready to use right now:

Monitor<std::vector<int> > v;
v.operation((void (std::vector<int>::*)(const int&)) &std::vector<int>::push_back, 1);
v.operation((void (std::vector<int>::*)(const int&)) &std::vector<int>::push_back, 2);
size = v.operation(&std::vector<int>::size);
std::cout << size << std::endl;

As you can see sometimes you'll need to explicitly state which member function you want to call - std::vector<> has more than one push_back...


For compilers which still do not support variadic template - the solution without it below - I have time for up to two arguments - it is very inconvenient - if required - add function with more arguments:

template <class F>
struct FunctionType;
template <class R, class Object>
struct FunctionType<R (Object::*)()> {
  typedef R return_type;
};
template <class R, class Object>
struct FunctionType<R (Object::*)() const> {
  typedef R return_type;
};
template <class R, class Object, class Arg1>
struct FunctionType<R (Object::*)(Arg1)> {
  typedef R return_type;
};
template <class R, class Object, class Arg1>
struct FunctionType<R (Object::*)(Arg1) const> {
  typedef R return_type;
};
template <class R, class Object, class Arg1, class Arg2>
struct FunctionType<R (Object::*)(Arg1,Arg2)> {
  typedef R return_type;
};
template <class R, class Object, class Arg1, class Arg2>
struct FunctionType<R (Object::*)(Arg1,Arg2) const> {
  typedef R return_type;
};

template <class Object_>
class Monitor {
public:
   typedef Object_ object_type;
   template <class F>
   typename FunctionType<F>::return_type operation(const F& f)
   {
       critical_section cs;
       return (object.*f)();
   }
   template <class F>
   typename FunctionType<F>::return_type operation(const F& f) const
   {
       critical_section cs;
       return (object.*f)();
   }
   template <class F, class Arg1>
   typename FunctionType<F>::return_type operation(const F& f, Arg1 arg1)
   {
       critical_section cs;
       return (object.*f)(arg1);
   }
   template <class F, class Arg1>
   typename FunctionType<F>::return_type operation(const F& f, Arg1 arg1) const
   {
       critical_section cs;
       return (object.*f)(arg1);
   }
   template <class F, class Arg1, class Arg2>
   typename FunctionType<F>::return_type operation(const F& f, Arg1 arg1, Arg2 arg2)
   {
       critical_section cs;
       return (object.*f)(arg1, arg2);
   }
   template <class F, class Arg1, class Arg2>
   typename FunctionType<F>::return_type operation(const F& f, Arg1 arg1, Arg2 arg2) const
   {
       critical_section cs;
       return (object.*f)(arg1, arg2);
   }
private:
  object_type object;
  class critical_section {};
};
share|improve this answer
    
This is a very elegant solution; the only downside is that it requires variadic templates support, which VC++ still lacks. – dario_ramos Oct 23 '12 at 15:03
1  
@dario_ramos Once upon a time C++ had no variadic templates ;) You can use overridden methods: operation with 0,1,2,3... arguments instead of just one operation with any number of arguments. Assuming noone uses more than 10 arguments it is possible to implement - however more troublesome than variadic templates... – PiotrNycz Oct 23 '12 at 18:49
    
That's a very neat solution. I don't suppose you can recommend a book or article that could explain the use of the variadic templates a bit more? I find the struct FunctionType<R (Object::*)(Args...)> hard to fathom (particularly the Object::* bit.) – Tom Davies Nov 5 '13 at 21:42
    
@TomDavies: There are 3 things behind this solution: variadic templates en.wikipedia.org/wiki/Variadic_template; pointer to member function: parashift.com/c++-faq/fnptr-vs-memfnptr-types.html; and function type as template parameter: stackoverflow.com/a/4642127/1463922... I cannot recommend any books since I am just using C++ standard and internet search if I need some information, so maybe search SO and if you did not find useful answers, ask for books good for this topics... – PiotrNycz Nov 6 '13 at 15:12
    
I pity any non c++ programmer stumbling randomly upon this question. – UmNyobe Jun 3 at 16:09

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