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In The C# Programming language Bill Wagner says:

Many people confuse dynamic bindig with type inference. Type inference is statically bound. The compiler determines the type at compile time. For example:

var i = 5;             //i is an int (Compiler performs type inference)
Console.WriteLine(i);  //Static binding to Console.WriteLine(int)

The compiler infers that i is an integer. All binding on the variable i uses static binding.

Now, given this information and my own made-up dynamic scenerio:

        dynamic i = 5;       //Compiler punts
        Console.WriteLine(i);//This is now dynamically bound

We know type inference is statically bound. This implies that there is no way a dynamic variable can use type inference to determine a type. How does a dynamic type get resolved without using type inference?

Update
To try and clarify...at runtime we must somehow figure out what type i is right? Because I assign a literal 5 then the runtime can infer that i is an int. Isn't that type inference rather than dynamic binding?

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The underlying type of dynamic (which is a language construct and has no representation in metadata other than an attribute) is System.Object. It's C# compiler magic that allows you to dynamically invoke methods and access fields on it (in this case, a boxed int) without having to do reflection yourself. –  Peter Huene Feb 13 '13 at 17:56

1 Answer 1

up vote 5 down vote accepted

What distinction is Bill making?

The distinction that Bill is making is that many people think that:

var x = Whatever();
x.Foo();

will work out at runtime what method Foo to call based on the type of object returned at runtime by Whatever. That's not true; that would be

dynamic x = Whatever();
x.Foo();

The var just means "work out the type at compile time and substitute it in", not "work it out at runtime".

So if I have

dynamic i = 5;
Console.WriteLine(i);

What happens?

The compiler generates code that is morally like this:

object i = (object)5;
DynamicCallSite callSite = new DynamicCallSite(typeof(Console), "WriteLine"));
callSite.Invoke(i);

It is a bit more complicated than that; the call site is cached, for one thing. But this gives you the flavour of it.

The invocation method asks i for its type via GetType and then starts up a special version of the C# compiler that can understand reflection objects. It does overload resolution on the members of Console named WriteLine, and determines which overload of Console.WriteLine would have been called had i been typed as int in the first place.

It then generates an expression tree representing that call, compiles the expression tree into a delegate, caches it in the call site, and invokes the delegate.

The second time you do this, the cached call site looks in its cache and sees that the last time that i was int, a particular delegate was invoked. So the second time it skips creating the call site and doing overload resolution, and just invokes the delegate.

For more information, see:

http://ericlippert.com/2012/10/22/a-method-group-of-one/

http://ericlippert.com/2012/11/05/dynamic-contagion-part-one/

http://ericlippert.com/2012/11/09/dynamic-contagion-part-two/

A historical perspective on the feature can be obtained from Chris and Sam's blogs:

http://blogs.msdn.com/b/cburrows/archive/tags/dynamic/

http://blogs.msdn.com/b/samng/archive/tags/dynamic/

They did a lot of the implementation; however some of these article reflect outdated design choices. We never did go with "The Phantom Method" algorithm, regrettably. (Not a great algorithm, but a great name!)

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I see, so dynamic is not going through the process of Type Inference as defined in section 7.5.2. Rather, i.GetType() is used to determine the type at runtime. –  P.Brian.Mackey Feb 13 '13 at 18:10
    
Or rather...after your update he's comparing var and dynamic. That makes sense! –  P.Brian.Mackey Feb 13 '13 at 18:16
1  
@P.Brian.Mackey: Section 7.5.2 is generic method type inference. The section that Bill is talking about is section 8.5.1 on implicitly typed local variable declarations. –  Eric Lippert Feb 13 '13 at 18:56

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