I'm reading book "the C# programming Language", 4th Edition, by Anders Hejlsberg etc.

There are several definitions that are a bit twisting:

unbound generic type: A generic type declaration, by itself, denotes an unbound generic type ...

constructed type: A type that includes at least one type argument is called a constructed type.

open type: An open type is a type that involves type parameters.

closed type: A closed type is a type that is not an open type.

unbound type: refers to a nongeneric type or an unbound generic type.

bound type: refers to a nongeneric type or a constructed type. [annotate] ERIC LIPPERT: Yes, nongeneric types are considered to be both bound and unbound.

Question 1, is below what I listed correct?

int                     //non-generic, closed, unbound & bound, 
class A<T, U, V>        //generic,     open,   unbound, 
class A<int, U, V>      //generic,     open,   bound, constructed 
class A<int, int, V>    //generic,     open,   bound, constructed
class A<int, int, int>  //generic,     closed, bound, constructed

Question 2, The books says "An unbound type refers to the entity declared by a type declaration. An unbound generic type is not itself a type, and it cannot be used as the type of a variable, argument, or return value, or as a base type. The only construct in which an unbound generic type can be referenced is the typeof expression (§7.6.11)." Fine, but below is a small testing program that can compile:

public class A<W, X> { }

// Q2.1: how come unbounded generic type A<W,X> can be used as a base type?
public class B<W, X> : A<W, X> { } 

public class C<T,U,V>
    // Q2.2: how come unbounded generic type Dictionary<T, U> can be used as a return value?
    public Dictionary<T,U> ReturnDictionary() { return new Dictionary<T, U>(); }

    // Q2.3: how come unbounded generic type A<T, U> can be used as a return value?
    public A<T, U> ReturnB() { return new A<T, U>(); }
  • For what I know about the 2nd questions. You can only use class B and class C given parameters for the template class types so you'll only use them completely bound. Jul 7 '11 at 7:10
  • Yes, that's could be a bit misleading. Obviously you can use an unbound type inside a definition of a parent unbound type (with same unbound generic parameters), but you can never instantiate it on its own.
    – Groo
    Jul 7 '11 at 7:27
  • possible duplicate of What exactly is an "open generic type" in .NET?
    – nawfal
    May 14 '13 at 4:57
  • @nawfal that question is a duplicate itself.
    – Izzy
    May 14 '13 at 15:14
  • @Izzy Yes, but the way this is titled, I believe that question points more to this.
    – nawfal
    May 14 '13 at 15:20

These are examples of unbound generic types:

  • List<>
  • Dictionary<,>

They can be used with typeof, i.e., the following are valid expressions:

  • typeof(List<>)
  • typeof(Dictionary<,>)

That should answer your question 2. With respect to question 1, note that type arguments can be constructed types or type parameters. Thus, your list should be updated as follows:

public class MyClass<T, U> {  // declares the type parameters T and U

    // all of these are
    // - generic,
    // - constructed (since two type arguments are supplied), and
    // - bound (since they are constructed):

    private Dictionary<T, U> var1;     // open (since T and U are type parameters)
    private Dictionary<T, int> var2;   // open (since T is a type parameter)
    private Dictionary<int, int> var3; // closed
  • i think my misunderstanding was, for MyClass<T,U>, I thought T & U are not type parameters, I thought only "int" in "MyClass<int, int>" is type parameter.
    – athos
    Jul 7 '11 at 9:06
  • @athos: Yes, it's exactly the opposite: int is not a type parameter, but T and U are. Both can be used as type arguments (i.e., for replacing the underscores in private Dictionary<_, _> var1).
    – Heinzi
    Jul 7 '11 at 9:14
  • 4
    @athos: Heinzi is correct. To clarify further. T and U are type parameters where they are declared. They can then be used as type arguments, or just used as types. By analogy, suppose you had: int foo(int x){ return bar(x); } Here "x" is a parameter of foo where it is declared and an argument of a call to bar where it is used. Type parameters and type arguments work similarly. Jul 7 '11 at 21:34
  • 1
    @nawfal: It's documented in the C# language specification. For example, section 4.4.3 states: "The term bound type refers to a non-generic type or a constructed type."
    – Heinzi
    May 15 '13 at 8:46
  • 1
    @MohammedNoureldin you can use them like typeof(List<>). Things like that are handy if you dig deep into reflection. For e.g. constructing a generic type. See this answer for a sample usage: stackoverflow.com/a/8940014/661933
    – nawfal
    Jun 15 '19 at 1:34

An excellent answer is given by Jon, here.

Not giving a technical description since everything is there perfectly in the linked answer. To merely replicate the gist of it as an answer here, it would look like:

A                             //non generic, bound
A<U, V>                       //generic,     bound,  open,   constructed
A<int, V>                     //generic,     bound,  open,   constructed
A<int, int>                   //generic,     bound,  closed, constructed
A<,> (used like typeof(A<,>)) //generic,     unbound 

Edited after discussion with Heinzi.

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