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I want to have a thread for each instance of Page object. At a time only one of them can execute (simply checks if pointer to current running thread is joinable or not..)

class Page : public std::vector<Step>
    // ....
    void play();
    void start(); // check if no other thread is running. if there is a running thread, return. else join starter
    std::thread starter; // std::thread running this->play()
    static std::thread* current; // pointer to current running thread
    // ...

I want to be able to fire-up starter threads of Page objects. for example like this:

Page x , y , z;
// do some stuff for initialize pages..
// do some other work
y.start(); // if x is finished, start y otherwise do nothing
// do some other lengthy work
z.start(); // if x and y are not running, start z

I can't manage to declare started as a member of Page. I found that it's because of the fact std::threads can only initialized at declaration time. (or something like that, cause it's not possible to copy a thread)

void x()
std::thread t(x);          // this is ok
std::thread r;             // this is wrong, but I need this !
r = std::thread(this->y);  // no hope
r = std::thread(y);        // this is wrong too
share|improve this question
Arrg my eyes! a shared static and container inheritance. – deft_code Feb 13 '12 at 19:35
@deft_code: I'm aware of problems with container inheritance. Considering the fact that lifetime of my 'Page' objects is bounded to lifetime of whole program, destructor of Page will never be called until everything is finished and even segmentation faults are not important. (I'm trying to dodge myself to avoid rewriting a couple of 3 weeks old 2500 lines of code, and YES, I'm the most sluggish student of cs ever...) – sorush-r Feb 13 '12 at 20:03
What do you want y to do when x is still busy? It sounds like you want it to silently do nothing, but that doesn't seem right. Also what does Page do if start is called twice? – deft_code Feb 13 '12 at 20:59
@deft_code: when there is at least one page running its starter thread, any other call to start() simply do nothing. If start was called twice only first call will start thread. if second call is called after first thread is finished, then second call will start thread (if there is not any other page playing...). – sorush-r Feb 13 '12 at 21:19
By Doing NOTHING I mean returning immediately. Not waiting other thread to finish. just like a statement that has no effect. – sorush-r Feb 13 '12 at 21:43

You can initialize the thread to the function to run by using a member initializer list. For example, consider this constructor for Page:

class Page {
    Page(); // For example

    std::thread toRun;

Page::Page() : toRun(/* function to run */) {
    /* ... */

Notice how we use the initialization list inside the Page constructor to initialize toRun to the function that ought to be run. This way, toRun is initialized as if you had declared it as a local variable

std::string toRun(/* function to run */);

That said, there are two major problems I think that you must address in your code. First, you should not inherit from std::vector or any of the standard collections classes. Those classes don't have their destructors marked virtual, which means that you can easily invoke undefined behavior if you try to treat your Page as a std::vector. Instead, consider making Page hold a std::vector as a direct subobject. Also, you should not expose the std::thread member of the class. Data members should, as a general rule, be private to increase encapsulation, make it easier to modify the class in the future, and prevent people from breaking all of your class's invariants.

Hope this helps!

share|improve this answer
The problem is that I want toRun to run the member function of Page in other words : Page::Page() : toRun(this->play). – sorush-r Feb 13 '12 at 19:38
@Sorush Rabiee- Sure, you can do that! Just initialize toRun to [this]() {this->play();} using the new C++11 lambda expressions. – templatetypedef Feb 13 '12 at 19:39
does not worked ... – sorush-r Feb 13 '12 at 19:57
@SorushRabieee- Can you please elaborate on what's going wrong? Compile error? Linker error? Runtime error? – templatetypedef Feb 13 '12 at 20:04
sorry, last line: error: use of deleted function 'Page::Page(const Page&)' – sorush-r Feb 13 '12 at 20:09

Never publicly inherit from a std container, unless the code is meant to be throw away code. An honestly it's terrifying how often throw away code becomes production code when push comes to shove.

I understand you don't want to reproduce the whole std::vector interface. That is tedious write, a pain to maintain, and honestly could create bugs.

Try this instead

class Page: private std::vector
  using std::vector::push_back;
  using std::vector::size;
  // ...

Ignoring the std::vector issue this should work for the concurrency part of the problem.

class Page
  ~Page( void )

  void start( void );


  // note this is private, it must be to maintain the s_running invariant
  void play( void )
    assert( s_current == this );

    // Only one Page at a time will execute this code.

    std::lock_guard<std::mutex> _{ s_mutex };
    s_running = nullptr;

  std::thread m_thread;

  static Page* s_running;
  static std::mutex s_mutex;

Page* Page::s_running = nullptr;
std::mutex Page::s_mutex;
std::condition Page::s_condition;

void Page::start( void )
  std::lock_guard<std::mutex> _{ s_mutex };

  if( s_running == nullptr )
    s_running = this;
    m_thread = std::thread{ [this](){ this->play(); } };

This solution is may have initialization order issues if Page is instantiate before main()

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