so i'm diving into multithreading in c via POSIX pthreads but i do really struggle with the general concept of pointers and their referencing and dereferencing mechanisms. One of the parameters in pthread_create(...,pthread_attr_t *attr,...) is a function pointer.

This function is usually declared like this:

void *thr_func(void *arg){ thread_data_t *data = (thread_data_t *)arg; ... }

thr_func is a function pointer, so usually i use a function pointer to reference to an existing, implemented function via &, e.g.:

thr_func = &thr_func_impl;

while the arguments of thr_func are also pointers dereferenced for example via * to retrieve the values they are pointing to.

What I don't understand is the following:

  • when i create a thread, why do i just give the function name in pthread_create(...,thr_func,...) instead of its address so that it can be used, e.g.: pthread_create(...,&thr_func,...) or is this done by pthread_create() already ?

  • How do i have to understand this part: thread_data_t *data = (thread_data_t *)arg; okay i want to dereference a structure of type thread_data called data via thread_data_t *data = ... . Shouldn't i do it this way: thread_data_t *data; data = &arg; /* now * on data ,e.g.: *data == struct-data (dereferencing) gives the struct data and data without * just gives the structs start address */

-> I cannot really follow the things happening inside:

void *thr_func(void *arg){ thread_data_t *data = (thread_data_t *)arg; ... }

I'd be glad if somebody had a good explanation, thanks!

2 Answers 2

  1. Passing the function name as a parameter is equivalent to passing its address using the & operator. I.e. pthread_create(...,thr_func,...) and pthread_create(...,&thr_func,...) are interchangeable. This has nothing to do with pthreads, it is a language construct.
  2. arg is a pointer of type void. In order to cast it to a pointer of type thread_data_t you should do (thread_data_t *)arg. By using thread_data_t *data = &arg you are attributing the address of arg itself to data, not the address arg is pointing to.

Consider the following:

int my_int = 7;
void *my_void_ptr = &my_int;

int *my_int_ptr = (int *)my_void_ptr; // Just a cast, points to my_int
printf("%d", *my_int_ptr);            // 7
int *my_int_ptr2 = &my_void_ptr;      // int pointer to the address of my_void_ptr, issues a warning
printf("%d", *my_int_ptr2 );          // The address of my_void_ptr as an integer

Finally, pthreads stands for POSIX threads, so "POSIX pthreads" is redundant.

  • Okay, I think I got it. I didn't know that the function name & the address-operator applied to it are interchangeable, but it makes sense since the only thing we're interested in might be the start position of a function in the address space of the program. In your explanation void *my_void_ptr = &my_int simply declares a void pointer to my_int.
    – Leo
    Jul 11, 2018 at 9:46
  • [Continuation of @Leo's previous comment:] Since this pointer has not yet been assigned a type, we need to cast it using: ...= (int *) my_void_ptr; & assign it to f.e. int *my__int_ptr = (int *) my_void_ptr; in order to use it inside the function which is also just a pointer now pointing to the same address as my_void_ptr. Now having had declared my_int_ptr as a pointer, see: int *my_int_ptr =...;, we can simply dereference and get its value via ....*my_int_ptr; and get the address of the stored value (my_int/7 in your example) by ...&(*my_int_ptr);.
    – elixenide
    Jul 11, 2018 at 18:09

For the first question, a function will naturally decay to a pointer to itself, similar to the way that arrays decays to a pointer to its first element.

So if you have a function

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

then you can pass a pointer to it using either &thr_fun which is the explicit and (some would say) "correct" way. The other is to use plain thr_fun as it will decay to &thr_fun anyway. So in C it's really a question about style and personal preference.

For your second question, remember that void * is a generic pointer that can point to anything but it doesn't have any explicit type. Therefore you can't dereference it (since a dereferenced void * would have the type void).

That's the reason you need to cast it.

And no you should not get the address of the pointer, since that will give you a pointer to the pointer.

  • And to counter the "correct" way, I'd say that the best way is to use the shortest construct allowed by the language which is still correct. Jul 11, 2018 at 9:39

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