I have written the following wrapper for `std::bind`

and `std::queue`

:

```
#include "Queue.h"
template<class T>
Queue<T>::Queue(T* input)
{
instance = input;
}
template<class T> template<typename... Args>
int Queue<T>::push(int (T::*func)(Args... args), Args... args)
{
queue.push(std::bind(func, instance, args...));
return queue.size();
}
template<class T>
int Queue<T>::pop()
{
if(!queue.empty())
{
queue.front()();
queue.pop();
return queue.size();
}
return 0;
}
template<class T>
bool Queue<T>::empty()
{
return queue.empty();
}
template<class T>
size_t Queue<T>::size()
{
return queue.size();
}
```

with the following header:

```
#ifndef QUEUE_H_
#define QUEUE_H_
#include <functional>
#include <queue>
template <class T>
class Queue
{
private:
std::queue<std::function<void()>> queue; /**< the messaging queue, appended to using enqueue(), popped from using dequeue() */
T* instance;
public:
Queue(T*);
template<typename... Args>
int enqueue(int (T::*f)(Args... args), Args... args);
int dequeue();
bool empty();
size_t size();
};
#endif
```

It allows me to add bound function expressions to a queue and pop them afterwards (`queue->push<int>(&Object::jumpAround, 10);`

and `queue->pop()`

). The problem is, I could not find a generic object- and function-pointer that enabled me to implement this without the `<class T>`

template.

I know that using templates would probably be the safest and best approach here but due to the design of the code implementing this queue I need to get rid of it. Any ideas?

I guess it must be possible somehow because `std::bind`

's first parameter can be any function and the second one can be any Object.

`std::bind`

you have C++11, why are you not then using`std::function`

instead? – Joachim Pileborg Nov 20 '12 at 8:52`std::queue<std::function<void()>> queue;`

. I don't know where else I could/should use it... – Nils Werner Nov 20 '12 at 8:55