C++ doesn't allow creating objects of type void
. Why is that?
-
2Obligatory space-time physics joke goes here.– BoltClockMar 25, 2011 at 8:16
-
2well, do you know what is "void"? That is "nothing", how can you create nothing? Just kidding.– ShuoMar 25, 2011 at 8:50
-
@Shuo: it's a perfectly good answer.– jalfMar 25, 2011 at 10:33
7 Answers
Consider the code below.
class Foo
{
// etc ...
};
int main()
{
// Declaring an object...
Foo foo;
// foo has been created.
// etc ...
return 0; // When function returns, foo will be destroyed.
}
In order to know how to actually create the object, the compiler has to know the type. Informally, you can think of void
as a "type" representing an absence of type. Therefore, the compiler can't possibly know how to create a void
object. You can't create an object you don't know how to create.
int main()
{
void v; // "I don't know how to create this!"
}
That being said, there are other cases where void
makes sense. For example, a void
function has no return value. You can't assign a type to things (like return values) that do not exist.
You can also have a pointer to void
, or void*
. Unlike the plain void
, void*
is valid and simply means "a pointer to an object of some unknown type". Obviously you can't do much with a void*
until you cast it into an actual, known type (assuming the cast is safe, of course).
-
2That's conceptually true, but not accurate in regards to the specification.
void
is certainly a type, it is simply an incomplete type that represents an empty set of values. Mar 25, 2011 at 8:00 -
1I’m not happy with this description. The same is absolutely true for built-types such as
int
: it doesn’t have constructors nor destructors and yet the compiler happily allows creating objects of it. In summary, this answer is wrong. Mar 25, 2011 at 9:23 -
@Konrad Rudolph I have always thought built in types had constructors that is why I can do "int x(4)".– dubndeMar 25, 2011 at 9:47
-
2@MeThinks They support constructor-like syntax but they don’t have constructors, only initialisers. Mar 25, 2011 at 9:52
-
@Konrad Rudolph thanks very much for that. So in this case if it looks like a duck and quacks like a duck; then its very duck like but not necessarily a duck. Just seen the standard say constructors(member functions) have to be defined in a class and built in types are not classes. So just syntactic sugar after all :)– dubndeMar 25, 2011 at 10:04
It is because void
is an incomplete type.
From Standard docs., incomplete types 3.9 states that,
5
A class that has been declared but not defined, or an array of unknown size or of incomplete element type, is an incompletely-defined object type.38) Incompletely-defined object types and the void types are incomplete types (3.9.1). Objects shall not be defined to have an incomplete type.38) The size and layout of an instance of an incompletely-defined object type is unknown.
Since void
is an incomplete type, it's size and layout cannot be determined and hence it cannot be defined.
As a side note, you can create a temporary of type void
:
void f()
{
return void();
}
void g()
{
return cout << "hi", f();
}
this is valid code. It is extremely useful in generic code. It was even considered to allow the usage of built in types (including void) in some places like base classes:
template<class T> class A : T { };
A<string> x; // works
A<int> y; // error, but could be usefull
A<void> z; // error, but could be usefull.
-
Is this really a temporary in standard parlance? Then the standard would contain a contradiction: an object in C++ is defined as a memory location of size != 0 so the above cannot be an object. Mar 25, 2011 at 9:25
-
There is no temporary void object in
return cout << "hi", f();
. This expression means "call operator << on cout and "hi", discard its result, then call f() and return its result". So basically, it all comes down tovoid foo() {} void bar() { return foo(); }
- this works, but there is never any temporary object, never anything returned at all.– MephaneMar 25, 2011 at 10:21 -
3I don't think it is a temporary. I think it takes advantage of a bunch of special-case exceptions in the standard. (1) a void function can use
return
with a void expression, (2)void()
is a void expression, not a constructor call for an incomplete type as you'd think just by looking at it. The intention of those exceptions is to make it look as though a "void object" is returned, though. As ybungalobill says it helps write generics. But try taking aconst
reference to that thing that appears to be a temporary, see how far you get (8.2.3/4) ;-) Mar 25, 2011 at 10:26
void
is a placeholder indicating no object of any type is expected.
As a function argument specification
Historically C used an empty argument list in a function declaration ala return_type f();
to allow f()
to be called with however-many and whatever-type arguments were specified at each call site, whereas return_type f(void);
made it explicit no arguments were expected or allowed. I.e. C was prepared to trust the programmer to get the number and types of arguments right, with any mistake likely to corrupt data and/or crash the program.
As a function return type
There woud also be some ambiguities in the language if void
wasn't there to establish the overall "type variable|function" sequence that's part of the grammar of the language. For example:
f(); // declaration of a function that returns nothing?
// OR a function call?
Comparison with other types
It is not really a data type itself in the sense of representing some interpretation of an area of memory, as int, float, char etc., classes, unions etc. all do.
pointers to void
For void*
, it indicates a loss of insight into the contents of memory at the contained address, such that sometime before dereferencing the pointer it must be cast to a specific type reflecting the bitwise layout of data at that memory address. Then, the compiler can interpret and operate on that bit layout in accord with the then-known data type.
In C++
, every thing can be related to object. So, when said -
void variable ;
How many bytes must the platform allocate for variable
with out knowing it's type. Is it int
or float
or double
or any other primitive type. So, it is not allowed.
-
Though that is only something that B.S. forgot to define (or did not define purposely because he thougth it was useless, who knows). There is no urgent reason why it has to be that way. For example gcc has sizeof(void) == 1. It does warn about it with warnings enabled, but it works just fine. Of course reason why this exists is not that someone would actually want to use it, it exists merely to keep consistency because arithmetic on void pointers is defined, and the gcc guys felt that if you can increment a pointer type, you must be able to query its value's size too.– DamonMar 25, 2011 at 8:25
-
As a funny anectode, for similar reasons ("to make pointers and taking addresses work"), the size of an empty struct is 1.– DamonMar 25, 2011 at 8:34
-
This answer is false. There is no requirement for the compiler to allocate any bytes at all when you instantiate a type. This allows it to eg. keep variables in registers, or optimize them out entirely. It only needs to put the variable in memory if you try taking its address.– rdbJan 25, 2023 at 0:15
void represents Nothing.Even you are creating function with Void type we no need to return a value.Same like Here also No object of type void is declared.
It is, simply, an arbitrary decision, from C.
In C, all types (except from void
) are used to carry a value. void
, by definition, does not hold any value. The language designers therefore decided it would not be possible to instantiate it.
C++ takes after C, and the decision remained. Otherwise it would have been necessary to define a storage size (probably the same as bool
).
In C++ it is indeed annoying, especially because of the special casing necessary for template classes / functions, but no-one deemed it worthy of modification since it's possible to specialize the templates for void
and thus it's not blocking.