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I am programming with C and pthreads. I have a long running function which I want to run in a seperate thread:

void long_running_function(void * arg) {  
  ...
}


void start_long_running_function(void * arg) {  
  pthread_t thread;  
  pthread_create( &thread , NULL , long_running_function , arg);
  /* What about the thread variable? */  
}  

When leaving the start_long_running_function() function the local variable 'thread' will go out of scope. Is this OK - or can I risk problems e.g. when the long_running_function() is complete?

I have tried the approach illustrated in my code, and it seems to work - but maybe that is only luck?

Regards Joakim

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2 Answers 2

up vote 4 down vote accepted

Yes -- it's safe to let the variable go out of scope. But remember you have to at some point do one of two things:

1) pthread_detach() it so the kernel will free some kind of stuff that's associated with it.

2) pthread_join() it which has as a side-effect detaching it.

If you don't, I think this will be a resource leak.

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OK - thank you. I will look into pthread_detach() - I think I could add that to the end of start_long_running_function(). –  user422005 Jul 28 '11 at 8:19
1  
@user422005: if you know that you're always going to detach it, you could create the thread in detached stated in the first place using the attributes at thread creation (pthread_attr_setdetachstate). –  Steve Jessop Jul 28 '11 at 8:32

It's a C structure, Plain Old Data, so there's no destructor to introduce side-effects when it goes out of scope. The only implication of losing scope is that you can't see it any more.

I know yours is a C question, but a lot of thread implementations solve the problem with something like this:

class Thread {
    pthread_t handle;

    static void * start (void * self) {
        static_cast <Thread *> (self) -> run ();
    }

    protected: void run () = 0;

    public: void start () {
        pthread_create (&handle, NULL, start, this);
    }

    ~ Thread () {
        pthread_join (&handle, NULL);
    }
};

You can do something analogous with C, the arg is a pointer to a malloced struct which contains the thread handle; the thread function frees it on termination.

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