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In his book, Jon Skeet refers to 7 restrictions on implicit typing. I need clarification on the last two:

A. The type you want the variable to have is the compile-time type of the initialization expression.
B. The initialization expression doesn't involve the variable being declared.

The book covers material in the same order it was released (C# 2 before C# 3). At this point C# 4 has not been introduced so I make the assumption that A does not refer to dynamic. So, when would the compile-time type be different from the execution time type of the initialization expression?

As for B, when can an initialization expression involve the variable being declared?

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Isn't var x = 2 * x a good example for B? –  Wiktor Zychla May 23 '12 at 19:02
    
@WiktorZychla - that wouldn't compile with explicit typing either. –  Henk Holterman May 23 '12 at 19:05
    
An example for A: var x = (object)string.Empty; –  phoog May 24 '12 at 5:44
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2 Answers 2

up vote 3 down vote accepted

Regarding B, Henk gave a perfect answer (edit: it's now removed), although I find it peculiar that int x = x = 1; compiles. (I would've thought x isn't considered declared until after the initializer. Oh, well.) His answer was:

int x = x = 1;   // Compiles
var y = y = 2;   // Does not compile

Regarding A and your question as to when the compile time type wouldn't match the execution time type, here's an example where they would differ:

var foo = fooFactory.GetFoo();

... and that method on fooFactory is implemented as ....

public FooBase GetFoo() {
    return new FooSubtype();
}

Here, foo's type is FooBase (which may be an interface, abstract class, or unsealed concrete class), and (without casting) only its features are available. Clearly, FooSubtype implements or inherits from FooBase.

The type that foo holds at runtime can be discerned here only because I show the implementation of GetFoo(), but it isn't inspected by the compiler. In fact, the implementation may not even be available (could be in another assembly) or it may vary (could be virtual). For determining the compile-time type of GetFoo(), and therefore of foo, only the method declaration is relevant.

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You have my vote for a very clear explanation, but in this case the explicit declaration also has to be FooBase a and not FooSubtype a, so it gives you no advantage to use the explicit declaration. I think the restriction refers to when explicit declaration is preferred. –  Alejandro Piad May 24 '12 at 12:33
    
Thanks for upvote, @AlejandroPiad! But I think "restrictions" refer to when implicit declaration is possible. I.e., if your initialization expression violates one of them, then you can't use implicit declaration. Whether it's preferred is another matter with varying opinions. –  Keith Robertson May 24 '12 at 13:41
    
Fair enough. Preferred is the wrong word. I was trying to say something like when implicit typing gives you an advantage, but hey, you are absolutely right, that would be an opinion question. –  Alejandro Piad May 25 '12 at 12:08
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My thoughts for A:

It's not that the compile-time is different from the execution type, since even if the execution type is not the same as the compile type (like in any method whose return type is an abstract type), you cannot declare the variable with the execution type anyway with explicit typing.

But you could want to declare the variable with a more abstract static type, even if the real dynamic type can be defined at compile-time. Consider for example:

ISomething a = new MyOwnSomething();

Why would you want to do this? If your MyNewSomething implements ISomething explicitly then you would have to make a cast to use it like an ISomething if declared on a var. Here the cast is still been done, but you don't see the rather ugly:

var a = new MyOwnSomething();
((ISomething)a).Whatever();

A more contrived example is that the initialization code can change later on but and you want to make sure that from this point on you only use a as an ISomething, and never see the details of the MyOwnSomething type, or other interfaces it may be implementing, so that changes on the initialization type won't break the code.

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1  
Another example would be a variable which gets initialized to one specific type, but may have other less-specific types in its lifetime. –  supercat May 23 '12 at 19:43
1  
You can always say var a = (ISomething)new MyOwnSomething(); –  phoog May 24 '12 at 5:39
    
@phoog: Exactly. That is what the explicit declaration solves for you with a little nicer syntax. –  Alejandro Piad May 24 '12 at 12:35
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