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My searches keep turning up only guides explaining how to use and apply attributes to a class. I want to learn how to create my own attribute classes and the mechanics of how they work.

How are attribute classes instantiated? Are they instantiated when the class they are applied to is instantiated? Is one instantiated for each class instantiated that it is applied to? E.g. if I apply the SerializableAttribute class to a MyData class, and I instantiate 5 MyData instances, will there be 5 instances of the SerializbleAttribute class created behind the scenes? Or is there just one instance shared between all of them?

How do attribute class instances access the class they are associated with? How does a SerializableAttribute class access the class it is applied to so that it can serialize it's data? Does it have some sort of SerializableAttribute.ThisIsTheInstanceIAmAppliedTo property? :) Or does it work in the reverse direction that whenever I serialize something, the Serialize function I pass the MyClass instance to will reflectively go through the Attributes and find the SerialiableAttribute instance?

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+1 Everyone for helpful answers. Now I clearly understand that attributes don't themselves have any behavior and don't change the behavior of the class they are applied to. They are simply extra meta data pinned onto a class. So what I perceived as "behavior" was actually not the attribute class's code, but just other code, like the Serialize method, interpreting the meta data and using it to conditionally perform actions(such as a Serialize method looking at the Serializable attribute). –  AaronLS Apr 20 '10 at 18:26
    
See for good example of when attribute constructors are run: stackoverflow.com/a/1168590/84206 –  AaronLS Jun 25 at 19:31
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6 Answers 6

up vote 13 down vote accepted

I haven't use attributes in my day-to-day work before, but I have read about them. Also I have done some tests, to back up what I'll say here. If I'm wrong in any place - feel free to tell me this :)

From what I know, attributes are not acting as regular classes. They aren't instantiated when you create an object that they are applied to, not one static instance, not 1 per each instance of the object. Neither do they access the class that they are applied to..

Instead they act like properties (attributes? :P ) of the class. Not like the .NET class properties, more like in the "one property of glass is transparency" kind of property. You can check which attributes are applied to a class from reflection, and then act on it accordingly. They are essentially metadata that is attached to the class definition, not the objects of that type.

You can try to get the list of attributes on a class, method, property, etc etc.. When you get the list of these attributes - this is where they will be instantiated. Then you can act on the data within these attributes.

E.g. the Linq tables, properties have attributes on them that define which table/column they refer to. But these classes don't use these attributes. Instead, the DataContext will check the attributes of these objects when it will convert linq expression trees to SQL code.

Now for some real examples.. I've ran these in LinqPad, so don't worry about the strange Dump() method. I've replaced it with Console.WriteLine to make the code easier to understand for the people who don't know about it :)

void Main()
{
    Console.WriteLine("before class constructor");
    var test = new TestClass();
    Console.WriteLine("after class constructor");

    var attrs = Attribute.GetCustomAttributes(test.GetType()).Dump();
    foreach(var attr in attrs)
        if (attr is TestClassAttribute)
            Console.WriteLine(attr.ToString());
}

public class TestClassAttribute : Attribute
{
    public TestClassAttribute()
    {
        DefaultDescription = "hello";
        Console.WriteLine("I am here. I'm the attribute constructor!");
    }
    public String CustomDescription {get;set;}
    public String DefaultDescription{get;set;}

    public override String ToString()
    {
        return String.Format("Custom: {0}; Default: {1}", CustomDescription, DefaultDescription);
    }
}

[Serializable]
[TestClass(CustomDescription="custm")]
public class TestClass
{
    public int Foo {get;set;}
}

The console result of this method is:

before class constructor
after class constructor
I am here. I'm the attribute constructor!
Custom: custm; Default: hello

And the Attribute.GetCustomAttributes(test.GetType()) returns this array: (the table shows all available columns for all entries.. So no, the Serializable attribute does not have these properties :) ) LinqPad Attributes Array

Got any more questions? Feel free to ask!

UPD: I've seen you ask a question: why use them? As an example I'll tell you about the XML-RPC.NET library. You create your XML-RPC service class, with methods that will represent the xml-rpc methods. The main thing right now is: in XmlRpc the method names can have some special characters, like dots. So, you can have a flexlabs.ProcessTask() xml rpc method.

You would define this class as follows:

[XmlRpcMethod("flexlabs.ProcessTask")]
public int ProcessTask_MyCustomName_BecauseILikeIt();

This allows me to name the method in the way I like it, while still using the public name as it has to be.

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very nice answer. –  Dhananjay May 14 at 2:50
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Attributes are essentially meta data that can be attached to various pieces of your code. This meta data can then be interogate and affect the behaviour of certain opperations.

Attributes can be applied to almost every aspect of your code. For example, attributes can be associated at the Assembly level, like the AssemblyVersion and AssemblyFileVersion attributes, which govern the version numbers associated with the assembly.

[assembly: AssemblyVersion("1.0.0.0")]
[assembly: AssemblyFileVersion("1.0.0.0")]

Then the Serializable attribute for example can be applied to a type declaration to flag the type as supporting serialization. In fact this attribute has special meaning within the CLR and is actually stored as a special directive directly on the type in the IL, this is optimized to be stored as a bit flag which can be processed much more efficiently, there are a few attributes on this nature, which are known as pseudo custom attributes.

Still other attributes can be applied to methods, properties, fields, enums, return values etc. You can get an idea of the possible targets an attribute can be applied to by looking at this link http://msdn.microsoft.com/en-us/library/system.attributetargets(VS.90).aspx

Further to this, you can define your own custom attributes which can then be applied to the applicable targets that your attributes are intended for. Then at runtime your code could reflect on the values contained in the custom attributes and take appropriate actions.

For a rather naive example, and this is just for the sake of example :) You might want to write a persistence engine that will automatically map Classes to tables in your database and map the properties of the Class to table columns. You could start with defining two custom attributes

TableMappingAttribute
ColumnMappingAttribute

Which you can then apply to your classes, as an example we have a Person class

[TableMapping("People")]
public class Person
{
  [ColumnMapping("fname")]
  public string FirstName {get; set;}

  [ColumnMapping("lname")]
  public string LastName {get; set;}
}

When this compiles, other than the fact that the compiler emits the additional meta data defined by the custom attributes, little else is impacted. However you can now write a PersistanceManager that can dynamically inspect the attributes of an instance of the Person class and insert the data into the People table, mapping the data in the FirstName property to the fname column and the LastName property to the lname column.

As to your question regarding the instances of the attributes, the instance of the attribute is not created for each instance of your Class. All instances of People will share the same instance of the TableMappingAttribute and ColumnMappingAttributes. In fact, the attribute instances are only created when you actually query for the attributes the first time.

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@Chris +1 I used to think that attributes used by Serialization, and ORM's such as in your example, were doing something very magical at compile time to analyze the object so that later at runtime it'd know how to read/write the objects to/from binary/xml files(serialization) or databases(ORM). I thought maybe the attributes had some sort of "run at compile time code". So for a long time I wondered what cool things I could do with attributes. After looking into it I realized my perception was very far from the truth but had never quite figured out how attributes provided custom "behaviors". –  AaronLS Apr 20 '10 at 18:33
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Yes they're instantiated with the parameters you give it.

The attribute does not "access" the class. The attribute is attached to the class' / property's attribute list in the reflection data.

[Serializable]
public class MyFancyClass
{ ... }

// Somewhere Else:

public void function()
{
   Type t = typeof(MyFancyClass);
   var attributes = t.GetCustomAttributes(true);

   if (attributes.Count(p => p is SerializableAttribute) > 0)
   {
       // This class is serializable, let's do something with it!

   }     
}
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I ask this not to be difficult, but to improve my understanding: What would be the benefit of an attribute if it just acts as a flag? Other designs could do this, like if MyFancyClass implemented an IsSerialiable interface, or an interface with a IsSerializable property. Wh is an attribute necesary? What role is filled by the SerializableAttribute class itself, code in that attribute class itself, and data/properties in that class? –  AaronLS Apr 20 '10 at 16:21
1  
@AaronLS you can add attributes at run time. You may also have the ability to preserve them when reading/writing objects in files even if the code doesn't know what to do with them. –  phkahler Apr 20 '10 at 18:07
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Think of attributes are post-its that are attached to the classes or method definitions (embedded in the assembly metadata).

You can then have a processor/runner/inspector module that accepts these types by reflecting, looks for these post-its and handles them differently. This is called declarative programming. You declare some behavior instead of writing code for them in the type.

  • Serializable attribute on a type declares that it is built to be serialized. The XmlSerializer can then accept an object of this class and do the needful. You mark the methods that need to be serialized/hidden with the right post-its.
  • another example would the NUnit. The NUnit runner looks at the [TestFixture] attributes all classes defined in the target assembly to identify test classes. It then looks for methods marked with [Test] attribute to identify the tests, which it then runs and displays the results.

You may want to run through this tutorial at MSDN which has most of your questions answered along with an example at the end. Although they could have extracted a method called Audit(Type anyType); instead of duplicating that code. The example 'prints information' by inspecting attributes.. but you could do anything in the same vein.

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Not much time to give you a fuller answer, but you can find the Attributes that have been applied to a value using Reflection. As for creating them, you inherit from the Attribute Class and work from there - and the values that you supply with an attribute are passed to the Attribute class's constructor.

It's been a while, as you might be able to tell...

Martin

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If you take an eye out this downloadable open source code LINQ to Active Directory (CodePlex), you might find interesting the mechanism of the Attributes.cs file where Bart De Smet has written all of his attributes classes definitions. I have learned attributes there.

In short, you may specialize the Attribute class and code some specialized properties for your needs.

public class MyOwnAttributeClass : Attribute {
    public MyOwnAttributeClass() {
    }
    public MyOwnAttributeClass(string myName) {
        MyName = myName;
    }
    public string MyName { get; set; }
}

and then, you may use it wherever MyOwnAttributeClass gets useful. It might either be over a class definition or a property definition.

[MyOwnAttributeClass("MyCustomerName")]
public class Customer {
    [MyOwnAttributeClass("MyCustomerNameProperty")]
    public string CustomerName { get; set; }
}

Then, you can get it through reflection like so:

Attribute[] attributes = typeof(Customer).GetCustomAttribute(typeof(MyOwnAttributeClass));

Consider that the attribute you put between square brackets is always the constructor of your attribute. So, if you want to have a parameterized attribute, you need to code your constructor as such.

This code is provided as is, and may not compile. Its purpose is to give you an idea on how it works.

Indeed, you generally want to have a different attribute class for a class than for a property.

Hope this helps!

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