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I am trying to implement the observer pattern with the catch that I need to add new functionality into each observer later on in the project.

class Obsevers {
    virtual ~Obsevers() {}

class TestObserver : public Obsevers {
    void print1(int i) {
        std::cout << i << std::endl;

class TestObserver2 : public Obsevers {
    void print2(int i, char c) {
        std::cout << i << " , " << c << std::endl;
    //possible new functions here later

My notify method is as follows:

template<typename Type, typename Notify>
void NotifyObserver(Notify notify) {
    typedef std::list<Obsevers*>::iterator iter;
    iter it = m_observers.begin();
    iter end = m_observers.end();
    for(; it != end; ++it) {
        Type * o = dynamic_cast<Type*>(*it);
        if(o == NULL) continue;

To make a call to notify the code is as follows.

NotifyObserver<TestObserver2>(boost::bind(&TestObserver2::print2, _1, 32, 'b'));

Now given the context with the above blocks of code my question is using a placeholder(_1) for the object parameter in bind correct or is this undefined behavior?

The boost documentation on bind did no specify using a placeholder for objects only for function parameters.

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1 Answer 1

up vote 1 down vote accepted

Your code is correct.

The Boost.Bind documentation indicates that your code

boost::bind(&TestObserver2::print2, _1, 32, 'b')

is the same as

boost::bind<void>(boost::mem_fn(&TestObserver2::print2), _1, 32, 'b')

where boost::mem_fn is responsible for invoking the pointer-to-member-function. As long as the bound object is evaulated with something that boost::mem_fn can use, such as a pointer or reference, it will properly invoke the function.

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I see, I don't really know about boost::mem_fn so I'll read how it works. Thanks. –  andre Sep 25 '12 at 21:16
After reading more into it I understand. Thanks. –  andre Sep 26 '12 at 17:47

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