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Is there anything to use, to determine if a type is actually a anonymous type? For example an interface, etc?

The goal is to create something like the following...

//defined like...
public static T Get<T>(this IAnonymous obj, string prop) {
    return (T)obj.GetType().GetProperty(prop).GetValue(obj, null);
}
//...

//And then used like...
var something = new { name = "John", age = 25 };
int age = something.Get<int>("age");

Or is that just the beauty of an anonymous type? Nothing to identify it self because it takes a new shape?

Note - I realize that you can write an extension method for the object class, but that seems like a little overkill, in my opinion.

share|improve this question
up vote 45 down vote accepted

EDIT: The list below applies to C# anonymous types. VB.NET has different rules - in particular, it can generate mutable anonymous types (and does by default). Jared has pointed out in the comment that the naming style is different, too. Basically this is all pretty fragile...

You can't identify it in a generic constraint, but:

  • It will be a class (rather than interface, enum, struct etc)
  • It will have the CompilerGeneratedAttribute applied to it
  • It will override Equals, GetHashCode and ToString
  • It will be in the global namespace
  • It will not be nested in another type
  • It will be internal
  • It will be sealed
  • It will derive directly from object
  • It will be generic with as many type parameters as properties. (You can have a non-generic anonymous type, with no properties. It's a bit pointless though.)
  • Each property will have a type parameter with a name including the property name, and will be of that type parameter, e.g. the Name property becomes a property of type <>_Name
  • Each property will be public and read-only
  • For each property there will be a corresponding readonly private field
  • There will be no other properties or fields
  • There will be a constructor taking one parameter corresponding to each type parameter, in the same order as the type parameters
  • Each method and property will have the DebuggerHiddenAttribute applied to it.
  • The name of the type will start with "<>" and contain "AnonymousType"

Very little of this is guaranteed by the specification, however - so it could all change in the next version of the compiler, or if you use Mono etc.

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7  
The <> name prefix is C# only. In VB the name prefix will be "VB$AnonymousType" – JaredPar Nov 24 '08 at 20:01
1  
Ooh, that's worth knowing. I dare say quite a few of the other things only apply to C# too - particularly as VB ones can be mutable. Will edit to reflect that. – Jon Skeet Nov 24 '08 at 20:24
    
I scanned the rest of the entries and there is only two other VB errors. The fields do not have the <>_ name prefix. Also the VB version has an additional private property called AtDebuggerDisplay which is used for performance reasons while debugging – JaredPar Nov 24 '08 at 21:00
    
Right. I may revise the answer at some point to have common/C#/VB sections. It'll still be brittle though :( – Jon Skeet Nov 24 '08 at 21:39
2  
I don't know why anyone would do it, but if the Anonymous Type that is passed in is "new {}" it will not be generic and it will have a "default" constructor. – Matthew Whited Jun 7 '09 at 4:06

As I recall, there is a [CompilerGenerated] marker... 2 secs

Plus the name will be freaky, and it will be a generic type ;-p

Actually, for a "get" etc I would probably just use a static (non-extension) method.

If you just want a way to get the value from an instance of an anon-type (at a later point in time), a lambda is probably the best option - note you need a few tricks to pull this off:

    static void Main()
    {
        var foo = new { name = "John", age = 25 };
        var func = Get(foo, x => x.age);
        var bar = new { name = "Marc", age = 30 };
        int age = func(bar);
    }
    // template here is just for type inference...
    static Func<TSource, TValue> Get<TSource, TValue>(
        TSource template, Func<TSource, TValue> lambda)
    {
        return lambda;
    }

(edit re the comment) There definitely is this attribute:

        var foo = new { A = "B" };
        Type type = foo.GetType();

        CompilerGeneratedAttribute attrib = (CompilerGeneratedAttribute) Attribute.GetCustomAttribute(
            type, typeof(CompilerGeneratedAttribute)); // non-null, therefore is compiler-generated
share|improve this answer
    
Nope, no compiler generated attribute – JaredPar Nov 24 '08 at 19:24
    
@JaredPar: There certainly is in my little test. – Jon Skeet Nov 24 '08 at 19:29
1  
[CompilerGenerated] distiguishes a much larger universe that anonymous types. – JaredPar Nov 24 '08 at 19:31
    
@JaredPar - indeed... it could e a closure, and iterator, etc. But these characteristics ([CompilerGenerated], generic, horrible name) are the only things you have. Actually, you could check whether all the fields are readonly - iterators and closures won't be. But not as a generic constraint. – Marc Gravell Nov 24 '08 at 19:35
    
It would be more reliable though to check the name versus the existance of CompilerGenerated. There are many 3rd party tools that use the CompilerGenerated attribute. – JaredPar Nov 24 '08 at 19:37

For the purposes of extension methods there is no way to distinguish an anonymous type. Extension methods work by specifying a method for a compile time nameable type. Anonymous types are un-namable and therefore not visible at compile time. This makes them incompatible with extension methods.

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Well, you can't make a more-specific overload for an anonymous type - however, extension methods are (in general) in some ways at their most useful with anonymous types. – Marc Gravell Nov 24 '08 at 19:27
    
In what way? There is no way to statically access a member of an anonymous type via a generic extension method. You can use a glorious hack in a non-generic extension method but it involves creating a non-used type, casting and getting the value – JaredPar Nov 24 '08 at 19:33
    
Actually you can - via a lambda etc. But a generic extension method on (for example) IEnumerable<T> etc is the primary mechanism of passing a strongly typed anon-type (T) out of a method and working with it in a useful way (via Func<T>, Action<T>, etc). – Marc Gravell Nov 24 '08 at 19:38
    
(OK, it needn't be an extension method, but that helps for LINQ). But for example... list.Sum(x=>x.Foo) where list is an anon-type that defines Foo. – Marc Gravell Nov 24 '08 at 19:39
    
Yes but the use of the anonymous type is in the lambda, not the extension method. There is no way to access the anonymous type members statically within the extension method, only the lambda. – JaredPar Nov 24 '08 at 19:39

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