I'm confused about the meaning of void *function().
Is it a pointer to function or a function returning void*? I've always used it on data structures as a recursive function returning a pointer, but when i saw a code in multithreading (pthread) there is a same function declaration. Now I'm confused what's the difference between them.

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    @goodvibration C was made format-free (and C++ "inherited" this). Even void*function(); is syntactically correct. E.g. for Python they chose a different decision - format is part of syntax. IMHO, both ways have its pro and con. Oct 22, 2019 at 9:17
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    @goodvibration the more you try to protect the programmer from doing what they want the more you get something like java ;) Oct 22, 2019 at 9:20
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    @goodvibration Less options, less flexibility. And, please, keep in mind that it's decades ago when they did it. It's easy to complain afterwards... ;-) Oct 22, 2019 at 9:20
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    In the C language, void *function() is a function taking an arbitrary number of arguments and returning a value that, when dereferenced, is of type void. In C++, void* function() is a function taking no arguments and returning a value of pointer-to-void. You should make up your mind on which language you're asking about. Oct 22, 2019 at 18:42
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    @StephenM.Webb You cannot dereference a void *. After all, even if you could, what would you do with a void? Oct 22, 2019 at 22:48

4 Answers 4


The function has the return type void *.

void *function();

So I always prefer in such cases to separate the symbol * from the function name like

void * function();

And as Jarod42 pointed to in a comment you can rewrite the function declaration in C++ using the trailing return type like

auto function() -> void *;

If you want to declare a pointer to function then you should write

void ( *function )();

where the return type is void Or

void * ( *function )();

where the return type void *.

Or a pointer to function that returns pointer to function

void * ( *( *function )() )();
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    That's why, I prefer to write void* function();. That's not that tempting... ;-) (The edit happened just while writing this.) Oct 22, 2019 at 9:14
  • in the code i declare void * reader(); then on pthread_create(&thread1,null,reader,reader_arg) instead of pthread_create(&thread1,null,&reader,reader_arg) Oct 22, 2019 at 9:19
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    @Scheff: Or even auto function() -> void* (C++). :)
    – Jarod42
    Oct 22, 2019 at 9:26
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    Or a pointer to function that returns pointer to function That's what typedef is for... ;-) Oct 22, 2019 at 9:41
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    @AndrewHenle With typedef there us no problem. A problem arises when declarations are used without typedef or an alias declaration.:) Oct 22, 2019 at 9:42

Whenever I'm unsure about C syntax issues, I like to use the cdecl utility (online version) to interpret for me. It translates between C syntax and English.

For example, I input your example of void *foo() and it returned

declare foo as function returning pointer to void

To see what the other syntax would look like, I input declare foo as pointer to function returning void and it returned

void (*foo)()

This gets particularly useful when you have multiple levels of typecasts, stars, or brackets in a single expression.


It is a function returning a pointer to void.

Think of your declaration this way:

void *(function());

This would be a function returning void (or nothing):

void (*function2)();

Think of the above declaration this way:

void ((*function2)());

A much easier way to write these is to use typedefs:

typedef void *function_returning_void_pointer();
typedef void function_returning_nothing();

function_returning_void_pointer function;
function_returning_nothing *function2;

This generally eliminates the confusion around function pointers and is much easier to read.


Declarations in C/C++ are read from the identifier outwards following operator precedence.

A quick look at the C/C++ operator precedence table in wikipedia reveals that the function call operator () has a higher precedence than the indirection operator *. So, your function declarations reads like this:

  • Start at the identifier: function is

  • function() a function that takes no arguments

  • void* function() and returns a void*.

This general principle also holds with array declarations ([] also has higher precedence than *) and combinations of the two. So

int *(*arr[42])();

is read as

  • arr is
  • arr[42] an array of 42 elements which are
  • *arr[42] pointers to
  • (*arr[42])() functions that take no arguments and
  • int *(*arr[42])() return an int*.

It takes a bit to get used to this, but once you've understood the principle, it's easy to read those declarations unambiguously.

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