Why isn't it possible to call a function which takes no arguments with a function call as argument which does not return any value (which IMHO is equivalent to calling a function which takes no arguments with no arguments).

For example:

void foo(void) {...}
void bar(void) {...}


Don't get me wrong, I know void is not a value and that it cannot be treated like one.

With my logic it would make sense and it should be possible to do that. I mean, why not? Any argument why that should not be possible?

  • 4
    Why would you want to do this?
    – Anon.
    Commented Jan 27, 2010 at 1:14
  • are you confusing the concepts of void and null? Commented Jan 27, 2010 at 1:16
  • 16
    Because void foo(void) means " a function which takes no arguments", and not "a function which takes a nothing as its argument". Commented Jan 27, 2010 at 1:17
  • 3
    One "good" reason is to avoid ugly special cases for functions returning void when working with templates using function pointers or functors. I've run into this several times and end up creating 2*N classes instead of N. Commented Jan 27, 2010 at 1:20
  • @ Michael Anderson: First reason why that should not happen. Im waiting for more :)
    – George
    Commented Jan 27, 2010 at 1:28

9 Answers 9


I'm not convinced that any of the reasons I've heard are good ones.

See, in C++, you can return a void function's result:

void foo() {
    // ...

void bar() {
    // ...
    return foo();

Yes, it's exactly the same as:


but is much more consistent with generic programming, so that you can make a forwarding function work without having to worry about whether the function being forwarded has void return.

So, if a similar system applied so that a void return constituted a nullary call in a function composition scenario, that could make function composition more generic too.

  • 1
    Nice answer! I really didnt know it. So if that is possible, why shouldnt be what i wrote possible. Its about the same thing.
    – George
    Commented Jan 27, 2010 at 1:26
  • 2
    indeed it would, but return is a special case by 6.6.3/4: "A return statement with an expression of type “cv void” can be used only in functions with a return type of cv void; the expression is evaluated just before the function returns to its caller." Commented Jan 27, 2010 at 1:28
  • @Potatoswatter: Sure. So just make cv void usable for composition only if the receiving function is nullary. (I know C++ doesn't currently work that way, but it's something to think about.) Commented Jan 27, 2010 at 1:29
  • In fact, if the language had built-in support for tuples (as opposed to std::tr1::tuple), C++ could then allow compositions with multiple-value returns, and it'd call the receiving function with multiple arguments. Oh, did I just describe call-with-values? I sure did! :-P Commented Jan 27, 2010 at 1:32
  • 2
    You may have answered your own question there - the reason there's a special case for return is that it always takes either 0 operands or 1. It's easy to allow for some generic-ness between the two. Function calls can take any number of parameters. To support generic-ness you'd need multiple value returns, so that we can do void foo(int, int); X bar(void); foo(bar()); for some X. Unless you can support "any possible number", there's not much value in special-casing 0. Commented Jan 27, 2010 at 1:44

Because, according to paragraph 3.9.1/9 of the standard,

An expression of type void shall be used only as an expression statement (6.2), as an operand of a comma expression (5.18), as a second or third operand of ?: (5.16), as the operand of typeid, or as the expression in a return statement (6.6.3) for a function with the return type void.

C/C++ just isn't designed to be that generic. You do get return returns_void(); for tail-call optimization, that's functional-ish, right? :vP

Edit: The above rule would still allow you to call takes_void(3) with 3 converted to void. This is forbidden by 8.3.5/2:

If the parameter-declaration-clause is empty, the function takes no arguments. The parameter list (void) is equivalent to the empty parameter list. Except for this spe- cial case, void shall not be a parameter type (though types derived from void, such as void*, can).

  • Hehe well at least something we can do :) Btw i understand that c/c++ is not designed for that. I just wanted to hear opinions about what i thought about. I still believe it would be totally logical if this was possible.
    – George
    Commented Jan 27, 2010 at 1:43
  • @George: I think the remarkable part is how many rules are required to forbid it. Perhaps it was possible on older C compilers and the C++ committee felt it to be poor style. Having more generic-ness today gives a different perspective. Commented Jan 27, 2010 at 9:46

If the (void) parameter list was treated uniformly with all other parameter lists in C/C++, the semantic meaning if such parameter declaration would be "a single parameter of type void". If that was the case, it is quite possible that for the purposes of uniformity the language would allow to "chain" the calls to such functions as shown in your example. (At least C++ probably would, since it allows this kind of uniformity in return statements).

However, in C++ language as well as in C, parameter list that has the form (void) is not treated uniformly with other forms of parameter lists. Instead, it has a special meaning. It means that the function has no parameters at all. (Equivalent to empty () in C++).

In other words, the function declared with (void) parameter list takes zero parameters. You are supplying one. This is what makes it illegal. Considering the special meaning of (void) parameter list in C/C++, allowing


would not be much different from allowing

foo(bar(), bar());
foo(bar(), bar(), bar());

as well. Qualitatively, 2 and 3 are as much different from 0, as 1 is.


Don't be misled by the notation. Rather annoyingly, C uses the f(void) prototype to mean "f expects no parameters" rather than "f expects a single parameter of type void". The notation f() was kept to mean "the number of parameters that f expects is not known, so you can call it with any number of parameters you like, and good luck to you". Before ANSI Standard C (aka C89), there was no such thing as a function prototype, and you needed a tool like lint to protect you against even the most mundane sorts of errors with parameters, such as passing the wrong number of parameters or passing a parameter with a wildly incompatible type.

As to why you can't use the value of a function return void as a value, or why you can't pass a parameter to a function that expects no parameters, those restrictions are in place to protect you from making the most mundane sorts of errors with parameters.


it does make kind of sense (bar produces nothing, foo consumes nothing, therefore foo(bar()) should be allowed). OTOH, it would only be good to confuse the reader. if you want to be l33t, there's always ,, && and || operators to emulate semicolons.


Because void doesn't allow you to specify an argument name, which would be required in order to capture the return value of the first function, regardless of what it actually returned.

  • You can construct a void object. void(3); is a way to do nothing, and would match the semantics of argument-passing values were allowed to be passed to void functions. Commented Jan 27, 2010 at 1:42

At the moment i have something like this in my code: #define EVAL(f) f(++evalcounter) Dont ask me why i use it, i just have to. Normally f does not take any values. I just added this (global) integer just to count something. Wouldnt it be much better if i had something like #define EVAL(f) f( dummy(++evalcounter) ) ?

Have you tried the comma operator:

#define EVAL(f)   (++evalcounter, f())
  • The problem is that before or after EVAL there may be other variables which are connected to f, so adding this would totally destroy this connection.
    – George
    Commented Jan 27, 2010 at 1:34
  • What do you mean by 'connected to f'? If you do a = EVAL(f), my suggestion will correctly assign the return value of f to a. Commented Jan 27, 2010 at 1:38
  • @George: I think you should open a new question for that with practical examples of where you got problems. Commented Jan 27, 2010 at 1:38
  • Thanks for trying to help me but it really is much more complicated. Just a few words to explain what im doing: its an "embedded" functional language in c++ just by using defines and a few classes (and tricks like operator overloading etc) to "parse" the file using the preprocessor and create whatever is necessary (syntax tree, other things).
    – George
    Commented Jan 27, 2010 at 1:40

Let's pretend it works. Can you think of a single hypothetical case where


which does precisely the same thing isn't vastly more readable and sensible?

Edited. Yes, yes. :)

  • 1
    I think you'll find that bar(); foo() is actually the correct order of execution ;)
    – Anon.
    Commented Jan 27, 2010 at 1:22
  • Actually, it's bar(); foo(); that does precisely the same thing. Arguments are fully evaluated before the function is called.
    – caf
    Commented Jan 27, 2010 at 1:22
  • At the moment i have something like this in my code: #define EVAL(f) f(++evalcounter) Dont ask me why i use it, i just have to. Normally f does not take any values. I just added this (global) integer just to count something. Wouldnt it be much better if i had something like #define EVAL(f) f( dummy(++evalcounter) ) ?
    – George
    Commented Jan 27, 2010 at 1:24
  • It doesn't matter if it's foo(); bar(); or bar(); foo(); if your functions don't have side-effects. They don't, do they?
    – Duncan
    Commented Jan 27, 2010 at 1:38
  • 2
    #define EVAL(f) (++evalcounter,f()) Commented Jan 27, 2010 at 1:46

I'll add one extra declaration: void baz(int);

Now obviously if an argument with type void is equal to no arguments, then two arguments, one of which has type void would be equal to one argument (as 0 = 1*x <=> 1 = 1+1*x)

So, obviously this is legal: baz(1, bar());. But also (since void is "nothing") baz(bar(),1);.

And we can continue in this sense: baz(bar(), 1, bar());. After all, "void is nothing".

Either you ban it outright, put in arbitrary restrictions, or you end up allowing ridiculous constructs. I agree with the choice for the first resolution

  • Well it would be easy to make what i said possible and legal and not allow what you said. Dont forget the above expressions are all comma separated, which indicates that both have to be something. To explain myself better: If "void would be nothing", the above would equal to baz(1 , "nothing"), which isnt legal because "something" is expected.
    – George
    Commented Jan 27, 2010 at 12:09

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