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Why does the following cause a compilation error?

interface IX {}
interface IY {}
class XY : IX, IY {}

void Foo<T>() where T : IX, IY
    T xy = new XY();
    …   // ^^^^^^^^
}       // error: "Implicit conversion of type 'XY' to 'T' is not possible."

Note: The same error would occur if class XY : IX and where T : IX. However, I have chosen a more complex example because a simpler one might have provoked circumventive answers such as, "Just change the type of xy from T to IX", which would not answer why this conversion fails.

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2 Answers 2

up vote 12 down vote accepted

Given class ABC : IX, IY { } and Foo<ABC>, would you expect to be able to use new XY() then? Because you shouldn't have that expectation. The compiler will not, either.

T is not always going to be XY. T is going to be ABC, DEF, or anything else that could implement your two interfaces and therefore meet the constraints you have. XY is not convertible to ABC, DEF, or any of the infinite possibilities for T, and therefore you have your error message: the implicit conversion of XY to T is not possible.

What would be legal there is simply new T(), and this is true only if the method is constrained to support it.

void Foo<T>() where T : IX, IY, new()
    T obj = new T();
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I keep repeating the same error in reasoning over and over again when it comes to generic type constraints. Thanks for your very clear explanation. –  stakx Feb 24 '12 at 19:20
@stakx: I suspect that you are reasoning in the wrong direction. The constraint means any T is convertible to the given interface type, not anything that implements this interface is convertible to T. –  Eric Lippert Feb 24 '12 at 19:23
@Eric, precisely! If you wouldn't mind, could you confirm another suspicion that's just occurred to me? Could the distinction also be made as follows... Correct reasoning: T gets chosen by the caller of Foo, and not by Foo itself. This makes T a universal type (at least for Foo). Wrong reasoning (i.e. me, 3 hours ago): T gets chosen by Foo and not by its caller. This makes it an existential type (at least for the caller of Foo). –  stakx Feb 24 '12 at 22:40

Because if that were legal then you could do this:

interface IPet {} 
interface IMammal {} 
class Dog : IPet, IMammal {}  
class Cat : IPet, IMammal {}
T Foo<T>() where T : IPet, IMammal
  return new Dog();
Cat cat = Foo<Cat>();  // Assigns a Dog to a variable of type Cat.
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Nice example! :D –  Sergey Brunov Feb 24 '12 at 19:30

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