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When using reflection Type.IsPrimitive on a void type returns false.Coming from a C++ background this was surprising.

Looking at the C# 6.0 spec (Page 82) does not mention the void type, which could mean that it isn't categorized as a type altogether.

Is there anything in the language spec or otherwise that categorizes void as something else. Or any other discussion or such which mentions the reason behind this?

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    @AndyKorneyev yes and so are bool, double etc, which are all mentioned as Boolean type or Void type Commented Mar 17, 2017 at 9:55
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    @MatthewWatson yes, OP knows that. The question is why. It could have been implemented so that typeof(void).IsPrimitive returns true and the question now is: was there any special reason not to do so (like easily exlcude void from functionality supported by other primitives)? It's an academic question, and you maybe right that there is nothing interesting about it, but if there is, I'd like to know, too.
    – René Vogt
    Commented Mar 17, 2017 at 10:03
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    @JeroenVannevel Your proposed question is wrong. void is a special type, but still it is a type. typeof(void) is legal. So the question is still, should it be a primitive type? And what is a primitive type? (there are multiple definitions, if I remember correctly)
    – xanatos
    Commented Mar 17, 2017 at 10:09
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    Regarding the opinioned-based close-vote, I wish more people could recognize that the original design decision obviously was opinionated, but that the specific opinions that lead to that decision are hard verifiable facts.
    – Alex
    Commented Mar 17, 2017 at 10:30
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    The problem with "primitive" is not so much that it is ill-defined -- we could come up with a definition -- but rather, what is the use case? Frankly I would much rather have a type classification like "can have an unmanaged pointer to it". I just don't see the need for the IsPrimitive predicate. Commented Mar 17, 2017 at 16:51

3 Answers 3

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Why isn't void a primitive type? Because it isn't something you can instantiate. It isn't a primitive type, nor a reference type. It is nothing at all.

Eric Lippert describes some 'problems' with the void type in this post on Software Engineering, which goes into the specifics of void as a type to use in delegates and Actions:

A type system is essentially a system for making logical deductions about what operations are valid on particular values; a void returning method doesn't return a value, so the question "what operations are valid on this thing?" don't make any sense at all. There's no "thing" for there to be an operation on, valid or invalid.

Making it a primitive type defeats the special meaning and purpose of void in the VES (Virtual Execution System), as Eric explains later on:

The effect of a call to a void method is fundamentally different than the effect of a call to a non-void method; a non-void method always puts something on the stack, which might need to be popped off. A void method never puts something on the stack.

Making void a primitive type breaks this rule, although you could argue its usefulness, as Eric explains further in the post referenced.

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    I've always wondered about the usefulness of Type.IsPrimitive altogether - I've never found a case where it was useful at all. Commented Mar 17, 2017 at 10:20
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    In short: it's not a primitive type because it's not a type. Commented Mar 17, 2017 at 11:31
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    @JörgWMittag It is a type, but it can't have a value assigned to it. Commented Mar 17, 2017 at 11:34
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    No. If you read the post referenced, you see how Eric explains that they didn't choose to support void as generic type parameter. Commented Mar 17, 2017 at 11:38
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    @JAB, more accurate would be to say a void method never leaves something on the stack (when it returns). Within its body it's free to manipulate the stack like any other method.
    – Kirk Woll
    Commented Mar 17, 2017 at 14:29
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void is not a type, it is a keyword. Just like it is in C++, means the exact same thing. Keywords play an exalted role in a language, they can only appear in certain places and the parser is allowed to make hard assumptions about the programmer's intention.

Primarily role is to generate good error messages. Obvious on a statement like return 42; in a method declared void, you get a crystal-clear "hey, you said it won't return anything" error message. Less obvious is that they are very useful to recover from basic syntax errors, a missing } closing brace for example is a pretty hard error to recover from. When the parser encounters void while parsing a method body then it can reset the parser state and start generating good error messages again.

That the System.Void type exists at all is a quirk related to metadata. The rough equivalent to a .h file in C++. They exist primary to deal with technical restrictions in C++, it has no concept of modules, it uses a single-pass compilation model and demands that declarations always appear before definitions. Pretty painful busywork in C++, albeit that editor tooling can help a bit. No such restrictions in C#, the compiler generates the declaration from the definition.

Metadata describes a method in detail, stored in a MethodDef and MethodDefSig records in the metadata. Two basic ways the CLR designers could have expressed the notion of "this method does not return data". An obvious way is that they could have used a bit in the MethodAttributes enum, something like "HasNoReturnValue". But since lots of methods do have a non-void return type, and space for it is reserved in the MethodDefSig record anyway, they just picked a sentinel value as the return type. System.Void.

Reflecting on the System.Void type is not generally useful. Realistically they could have picked any value for IsPrimitive and it wouldn't have made any difference. False was a logical choice, it does not describe a type.

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    int is a keyword, too. Commented Mar 17, 2017 at 12:22
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    for and while are keywords too, they are not types either. That the void keyword can appear in the same semantic position as a type identifier or keyword is a decision that predates C# by many, many years. At least 1977 when C became typed, in turn inspired by Algol 68. Commented Mar 17, 2017 at 14:16
  • bool and double are keywords, too. The point is not that being a keyword, like while, makes it a type, the point is that being a keyword, like void, doesn't prevent it from being a type. void is a type. The reason void was introduced when C became typed is because void is a type. Commented Mar 17, 2017 at 16:04
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    I find the assertion that void is not a type in C (or C++) strange. N1570 (C11 draft) 6.2.5/19 says "The void type comprises an empty set of values; it is an incomplete object type that cannot be completed". The C++ standard has similar wording in [basic.fundamental]/9.
    – bogdan
    Commented Mar 17, 2017 at 17:18
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    Sigh, no, int is a keyword, System.int32 is a type. That distinction matters too, it is pretty doubtful that int is still an alias for Int32 a hundred years from now when everybody wears a 256 bit processor in their ear. A lesson that the C language has thought us well. Enough with the objections, please, just DV the post if you hate it. Commented Mar 17, 2017 at 19:50
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From reading the C# Specification, there is no mention of a type void. It is written about as a return type. In the table of contents, it is not categorised under reference or value types. It is mentioned as a keyword.

The section on the typeof function says:

The third form of typeof-expression consists of a typeof keyword followed by a parenthesized void keyword. The result of an expression of this form is the System.Type object that represents the absence of a type. The type object returned by typeof(void) is distinct from the type object returned for any type. This special type object is useful in class libraries that allow reflection onto methods in the language, where those methods wish to have a way to represent the return type of any method, including void methods, with an instance of System.Type.

Which to me indicates that void has an associated type but is only used in the case where you want reflection to give you something tangible because of the type system. Otherwise void is just a keyword.

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  • Are you suggesting a return type is not a type? Commented Mar 17, 2017 at 12:22
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    @DavidConrad no, I was stating that it's not mentioned in any reference or value type documentation, but is referred to as a return type, however, void by definition is a return type that specifies no type. So in a way, a return type doesn't have to be a type .... because of void Commented Mar 17, 2017 at 12:26

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