43

Given a function in C++ with arguments that are only types and have no identifiers,

 void foo1(int, int, int){cout << "called foo1";}

I can call it as such:

int main()
{
    foo1(10, 10, 10);
}

Why is this a valid construct in C++? Is this just an idiosyncrasy of C++, or does this kind of declaration actually have some purpose? Can we actually access the arguments that have been passed in somehow? (This kind of method declaration will not work in Java.)

7
  • 17
    Silencing warnings about unused parameters. Nov 10, 2017 at 20:22
  • 9
    Sometimes you just need some specific signature to comply with some interface. But don't really need the parameter.
    – Eugene Sh.
    Nov 10, 2017 at 20:24
  • 3
    @programmerravi That's precisely what was stated in the comments. You don't get unused parameter warnings if you don't give a name to parameter, opposed to giving it a name, and not using it. Nov 10, 2017 at 20:26
  • 17
    Some times you need an argument you will never use. The most common case may be to disambiguate between overloads. A standard example would be operator++(int) vs operator++() (member pre and post increment operators). It can also be used with tag dispatch systems. Nov 10, 2017 at 20:28
  • 3
    "will not work in Java" - Part of the reason is that in Java there is no distinction between declaration and definition. Another part is that they're more "protective" of the programmer and have deemed a lot of things as unnecessary and possibly confusing to the programmer, this could be one such.
    – davidbak
    Nov 11, 2017 at 0:46

6 Answers 6

46

Consider a case where you are required to provide a function that meets the following prototype

void dostuff(int x, int y, int z);

And say you are operating in a 2D space and do not use z inside your implementation. You can

void dostuff(int x, int y, int z)
{
    // use x and y
}

and just ignore z, but the compiler will likely spot that you have defined but not used z and warn you that you could be making a mistake. Instead you can

void dostuff(int x, int y, int )
{
    // use x and y
}

and leave out the definition of z. The compiler will accept and silently discard the third parameter because it knows you don't want it.

You do not want to simply turn off the warning because of errors like this

void dostuff(int x, int y, int z)
{
    for (int z = 0; z < MAX; z++)
    {
        // use x and y and z, the local z. 
    }
}

Where a poorly-named loop index shadows the parameter z. The caller's input is now ignored and this could have bad consequences. This error is often hard to spot with the mark 1 eyeball, especially if the local z is buried somewhere deep in a complex function.

Anytime the compiler can pick off a possible bug in your code, take advantage. It means less work for you.

2
  • 8
    I personally like to materialize the unused argument with comments: int /*z*/. This serves as a reminder of what is the argument and what it could be used for. Nov 11, 2017 at 18:09
  • 2
    For your example of shadowing, I think the compiler should (also) warn about the shadowing itself; I can't think of too many situations where we'd intentionally shadow a parameter or local variable with another local variable, even if the shadowee is still used somewhere outside the shadower's scope.
    – ruakh
    Nov 13, 2017 at 2:40
17

A declaration like

void foo1(int, int, int){cout << "called foo1";}

clearly shows in the declaration, that you want to fulfill a requirement with your function - e.g. override a specific function in the base class or interface, which e.g. could be declared there as

virtual void foo1(int something, int another, int andAnother) = 0;

BUT you don't intend to use the parameters which are handed over to you.

Another example would be if you want to hand over the function to e.g. another function which expects a function pointer to a void function with three int parameters.

void giveMeFoo( void (*fn)(int, int, int) ) { ... }

Additionally, higher warning levels issue a warning, if parameters are declared, which are not evaluated in the function body. You can avoid that by leaving the parameter names away.

The parameters without names are then indeed not accessible in the function body anymore - on purpose. user4581301 has nicely described, why.

Declaring a standalone function without parameter names as in your example is allowed because of the usages described above, but it obviously makes no sense in most cases. An example where it does make sense is in the comment section. Another example of a standalone function without parameter names could be, if your'e writing a library and want to either maintain backward compatibility (your library function does not need the parameter anymore, but you don't want to break the public header declaration) or you want to reserve a parameter for future use.

2
  • 4
    Free functions with unnamed arguments is not nonsense, it's just uncommon. See a standard example. Nov 10, 2017 at 20:42
  • OK thx... a dummy parameter is a non-nonsense usage... but pretty rare :D Nov 10, 2017 at 20:49
11

Yes. It is legal in C++.

C++11 n3337 standard 8.4.1(p6) Function definitions:

Note: Unused parameters need not be named. For example,

void print(int a, int) {
    std::printf("a = %d\n", a);
}

C++14 standard:

[ 8.3.5.11] An identifier can optionally be provided as a parameter name; if present in a function definition , it names a parameter (sometimes called “formal argument”). [Note: In particular, parameter names are also optional in function definitions and names used for a parameter in different declarations and the definition of a function need not be the same.]

4
  • 8
    This doesn't answer the question. Nov 10, 2017 at 20:56
  • 7
    @juanchopanza Strictly speaking, it does. Why is it valid? Because the standard explicitly says so. It doesn't go into full detail, of course.
    – JAB
    Nov 10, 2017 at 23:54
  • 2
    I don't think "Why is it valid?" "Because it is" answers the question. Edit: actually, I guess it answers "Can we actually access the arguments that have been passed in somehow?" Nov 11, 2017 at 5:05
  • @JAB This doesn't tell us the why, it just states the fact. Nov 11, 2017 at 8:03
7

It's legal, and if you're wondering why:

Typically, unnamed arguments arise from the simplification of code or from planning ahead for extensions. In both cases, leaving the argument in place, although unused, ensures that callers are not affected by the change.

Excerpt From: Bjarne Stroustrup. “The C++ Programming Language, Fourth Edition.”

0

The idea is that you might want to change the function definition to use the placeholder later, without changing all the code where the function is called.

Arguments in a function declaration can be declared without identifiers. When these are used with default arguments, it can look a bit funny. You can end up with :

void f(int x, int = 0, float = 1.1);

In C++ you don’t need identifiers in the function definition, either:

void f(int x, int, float flt) { /* ... */ }

In the function body, x and flt can be referenced, but not the middle argument, because it has no name. Function calls must still provide a value for the placeholder, though: f(1) or f(1,2,3.0). This syntax allows you to put the argument in as a placeholder without using it.

0

Unnamed parameters can also be used for the tag dispatch idiom:

template<typename T>
void foo(T&& t){ 
    foo(std::forward<T>(t), std::is_same_v<std::remove_ref<std::remove_const<T>>>, std::string>); // do something special with strings

template<typename T>
void foo(T&& t, std::false_type); // note no parameter name

template<typename T>
void foo(T&& t, std::true_type);

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