Hidden Features of C#?

Question

This came to my mind after I learned the following from this question:

where T : struct

We, C# developers, all know the basics of C#. I mean declarations, conditionals, loops, operators, etc.

Some of us even mastered the stuff like Generics, anonymous types, lambdas, LINQ, ...

But what are the most hidden features or tricks of C# that even C# fans, addicts, experts barely know?

Here are the revealed features so far:

Keywords

yield by Michael Stum
var by Michael Stum
using() statement by kokos
readonly by kokos
as by Mike Stone
as / is by Ed Swangren
as / is (improved) by Rocketpants
default by deathofrats
global:: by pzycoman
using() blocks by AlexCuse
volatile by Jakub Šturc
extern alias by Jakub Šturc

Attributes

DefaultValueAttribute by Michael Stum
ObsoleteAttribute by DannySmurf
DebuggerDisplayAttribute by Stu
DebuggerBrowsable and DebuggerStepThrough by bdukes
ThreadStaticAttribute by marxidad
FlagsAttribute by Martin Clarke
ConditionalAttribute by AndrewBurns

Syntax

?? (coalesce nulls) operator by kokos
number flaggings by Nick Berardi
where T:new by Lars Mæhlum
implicit generics by Keith
one-parameter lambdas by Keith
auto properties by Keith
namespace aliases by Keith
verbatim string literals with @ by Patrick
enum values by lfoust
@variablenames by marxidad
event operators by marxidad
format string brackets by Portman
property accessor accessibility modifiers by xanadont
conditional (ternary) operator (?:) by JasonS
checked and unchecked operators by Binoj Antony
implicit and explicit operators by Flory

Language Features

Nullable types by Brad Barker
Currying by Brian Leahy
anonymous types by Keith
__makeref __reftype __refvalue by Judah Himango
object initializers by lomaxx
format strings by David in Dakota
Extension Methods by marxidad
partial methods by Jon Erickson
preprocessor directives by John Asbeck
DEBUG pre-processor directive by Robert Durgin
operator overloading by SefBkn
type inferrence by chakrit
boolean operators taken to next level by Rob Gough
pass value-type variable as interface without boxing by Roman Boiko
programmatically determine declared variable type by Roman Boiko
Static Constructors by Chris
Easier-on-the-eyes / condensed ORM-mapping using LINQ by roosteronacid

Visual Studio Features

select block of text in editor by Himadri
snippets by DannySmurf

Framework

TransactionScope by KiwiBastard
DependantTransaction by KiwiBastard
Nullable<T> by IainMH
Mutex by Diago
System.IO.Path by ageektrapped
WeakReference by Juan Manuel

Methods and Properties

String.IsNullOrEmpty() method by KiwiBastard
List.ForEach() method by KiwiBastard
BeginInvoke(), EndInvoke() methods by Will Dean
Nullable<T>.HasValue and Nullable<T>.Value properties by Rismo
GetValueOrDefault method by John Sheehan

Tips & Tricks

nice method for event handlers by Andreas H.R. Nilsson
uppercase comparisons by John
access anonymous types without reflection by dp
a quick way to lazily instantiate collection properties by Will
JavaScript-like anonymous inline-functions by roosteronacid

Other

netmodules by kokos
LINQBridge by Duncan Smart
Parallel Extensions by Joel Coehoorn

Answer 1

This relates to static constructors. This is a method for performing static destruction (i.e. cleaning up resources when the program quits).

First off the class:

class StaticDestructor
{
    /// <summary>
    /// The delegate that is invoked when the destructor is called.
    /// </summary>
    public delegate void Handler();
    private Handler doDestroy;

    /// <summary>
    /// Creates a new static destructor with the specified delegate to handle the destruction.
    /// </summary>
    /// <param name="method">The delegate that will handle destruction.</param>
    public StaticDestructor(Handler method)
    {
        doDestroy = method;
    }

    ~StaticDestructor()
    {
        doDestroy();
    }
}

Then as a member of the class you wish to have a "static destructor" do:

private static readonly StaticDestructor destructor = new StaticDestructor
(
    delegate()
    {
        //Cleanup here
    }
);

This will now be called when final garbage collection occurs. This is useful if you absolutely need to free up certain resources.

A quick and dirty program exhibiting this behavior:

using System;

namespace TestStaticDestructor
{
    class StaticDestructor
    {
        public delegate void Handler();
        private Handler doDestroy;

        public StaticDestructor(Handler method)
        {
            doDestroy = method;
        }

        ~StaticDestructor()
        {
            doDestroy();
        }
    }

    class SomeClass
    {
        static SomeClass()
        {
            Console.WriteLine("Statically constructed!");
        }

        static readonly StaticDestructor destructor = new StaticDestructor(
            delegate()
            {
                Console.WriteLine("Statically destructed!");
            }
        );
    }

    class Program
    {
        static void Main(string[] args)
        {
            SomeClass someClass = new SomeClass();
            someClass = null;
            System.Threading.Thread.Sleep(1000);
        }
    }
}

When the program exits, the "static destructor" is called.

Answer 2

With reference to the post w/ perma link "http://stackoverflow.com/questions/9033/hidden-features-of-c/2495330#2495330", there is another way to accomplish the same - indentation / line breaks. Check this out..

XmlWriterSettings xmlWriterSettings = new XmlWriterSettings();
xmlWriterSettings.NewLineOnAttributes = true;
xmlWriterSettings.Indent = true;


XmlWriter xml = XmlWriter.Create(@"C:\file.xml", xmlWriterSettings);

// Start writing the data using xml.WriteStartElement(), xml.WriteElementString(...), xml.WriteEndElement() etc

I am not sure whether this is an unknown feature though!

Answer 3

Lately I learned about the String.Join method. It is really useful when building strings like columns to select by a query.

Answer 4

I must admit that i'm not sure wether this performs better or worse than the normal ASP.NET repeater onItemDatabound cast code, but anyway here's my 5 cent.

MyObject obj = e.Item.DataItem as MyObject;
if(obj != null)
{
  //Do work
}

Answer 5

@Robbie Rocketpants

"but my instincts tell me that this would cut a maximum of two type casts operations down to a maximum of one."

If you do the cast as you were suggesting in example 1 (using is & as), it results in 2 calls to the "is" operator. Because when you do "c = obj as MyClass", first it calls "is" behind the scenes, then if it fails that it simply returns null.

If you do the cast as you were suggesting in example 2,

c = (MyClass)obj

Then this actually performs the "is" operation again, then if it fails that check,it throws an exception (InvalidCastException).

So, if you wanted to do a lightweight dynamic cast, it's best to do the 3rd example you provided:

MyClass c;
if (obj is MyClass)
{
    c = obj as MyClass
}

if (c != null)
{
}

vs

MyClass c = obj as MyClass;

if (c != null)
{
}

You can see which is quicker, more consise and clearer.

Answer 6

Saw a mention of List.ForEach above; 2.0 introduced a bevy of predicate-based collection operations - Find, FindAll, Exists, etc. Coupled with anonymous delegates you can almost achieve the simplicity of 3.5's lambda expressions.

Answer 7

Some concurrency utilities in the BCL might qualify as hidden features.

Things like System.Threading.Monitor are used internally by the lock keyword; clearly in C# the lock keyword is preferrable, but sometimes it pays to know how things are done at a lower level; I had to lock in C++/CLI, so I encased a block of code with calls to Monitor.Enter() and Monitor.Exit().

Answer 8

In dealing with interop between C++ and C#, many people don't realize that C++/CLI is a great option.

Say you have a C++ DLL and a C# DLL which depends on the C++ DLL. Often, the easiest technique is to compile some (or all) modules of the C++ DLL with the /clr switch. To have the C# call the C++ DLL is to write managed C++ wrapper classes in the C++ DLL. The C++/CLI classes can call the native C++ code much more seamlessly than C#, because the C++ compiler will automatically generate P/invokes for you, has a library specifically for interop, plus language features for interop like pin_ptr. And it allows managed and native code to coexist within the same binary.

On the C# side, you just call into the DLL as you would any other .NET binary.

Answer 9

If you want to prevent the garbage collector from running the finalizer of an object, just use GC.SuppressFinalize(object);. In a similar vein, GC.KeepAlive(object); will prevent the garbage collector from collecting that object by referencing it. Not very commonly used, at least in my experience, but nice to know just in case.

Answer 10

Relection is so powerfull when used carefully. I used it in an e-mail templating system. The template manager would be passed an object and the html templates would have embedded fields that referred to Properties that could be retrieved off the passed object using reflection. Worked out very nicely.

Answer 11

PreviousPage property:

"The System.Web.UI.Page representing the page that transferred control to the current page."

It is very useful.

Answer 12

Not sure Microsoft would like this question, especially with so many responses. I'm sure I once heard a Microsoft head say:

a hidden feature is a wasted feature

... or something to that effect.

Answer 13

Before lambda comes into play, it's anonymous delegate. That could be used for blanket code similar to Ruby's blockgiven. I haven't tested how lambda works though because I want to stick with .NET 2.0 so far.

For example when you want to make sure you remember to close your HTML tags:

MyHtmlWriter writer=new MyHtmlWriter();
writer.writeTag("html", 
  delegate ()
  { 
    writer.writeTag("head", 
       delegate() 
       { 
           writer.writeTag("title"...);
       }
    )
  })

I am sure if lambda is an option, that could yield much cleaner code :)

Answer 14

Use of @ before a string that contains escape char. Basically when a physical path is used to assign in a string variable everybody uses '\' where escape character is present in a string.

e.g. string strPath="D:\websites\web1\images\";

But escape characters can be ignored using @ before the string value.

e.g. string strPath=@"D:\websites\web1\images\";

Answer 15

This trick for calling private methods using Delegate.CreateDelegate is extremely neat.

var subject = new Subject();
var doSomething = (Func<String, String>)
    Delegate.CreateDelegate(typeof(Func<String, String>), subject, "DoSomething");
Console.WriteLine(doSomething("Hello Freggles"));

Here's a context where it's useful

Answer 16

Another way of geting IEnumerable through yield without explicity creating an IEnumerable object

public IEnumerable<Request> SomeMethod(IEnumerable<Request> requests)
{
    foreach (Request request in requests)
       yield return DoSomthing(request);
}

Answer 17

I think if you have to use nullable types, it's better to use Nullable<.T> rather than the question mark notation. It makes it eye-achingly obvious that magic is occurring. Not sure why anyone would ever want to use Nullable<.bool> though.

In a VB.Net Web-Service where the parameter might not be passed through (because the partners request wasn't consistent or reliable), but had to pass validation against the proposed type (Boolean for "if is search request"). Chalk it up to "another demand by management"...

...and yes, I know some people think it's not the right way to do these things, but IsSearchRequest As Nullable(Of Boolean) saved me losing my mind that night!

Answer 18

If 3rd-party extensions are allowed, then C5 and Microsoft CCR (see this blog post for a quick introduction) are a must-know.

C5 complements .Net's somewhat lacking collections library (not Set???), and CCR makes concurrent programming easier (I hear it's due to be merged with Parallel Extensions).

Answer 19

Some ?? weirdness :)

Delegate target =
  (target0 = target as CallTargetWithContext0) ??
  (target1 = target as CallTargetWithContext1) ??
  (target2 = target as CallTargetWithContext2) ??
  (target3 = target as CallTargetWithContext3) ??
  (target4 = target as CallTargetWithContext4) ??
  (target5 = target as CallTargetWithContext5) ??
  ((Delegate)(targetN = target as CallTargetWithContextN));

Interesting to note the last cast that is needed for some reason. Bug or by design?

Answer 20

Here is a TIP of how you can use #Region directive to document your code.

Answer 21

When you need to (a)synchronously communicate between objects about occurance of an event there is special purpose interface called ISynchronizeInvoke.

Quoting MSDN article (link):

Objects that implement this interface can receive notification that an event has occurred, and they can respond to queries about the event. In this way, clients can ensure that one request has been processed before they submit a subsequent request that depends on completion of the first.

Here is a generic wrapper:

protected void OnEvent<T>(EventHandler<T> eventHandler, T args) where T : EventArgs
{
    if (eventHandler == null) return;

    foreach (EventHandler<T> singleEvent in eventHandler.GetInvocationList())
    {
        if (singleEvent.Target != null && singleEvent.Target is ISynchronizeInvoke)
        {
            var target = (ISynchronizeInvoke)singleEvent.Target;

            if (target.InvokeRequired) {
                target.BeginInvoke(singleEvent, new object[] { this, args });
                continue;
            }
        }
        singleEvent(this, args);
    }
}

and here is an example usage:

public event EventHandler<ProgressEventArgs> ProgressChanged;

private void OnProgressChanged(int processed, int total)
{
    OnEvent(ProgressChanged, new ProgressEventArgs(processed, total));
}

Answer 22

Exception Filters. So "hidden" you can't even use them (at least from C#) without a post-compilation patch ;)

Answer 23

Most of the P/Invoke stuff is a bit strange.

Example of attributes:

[DllImport ("gdi32.dll")] 
[return : MarshalAs(UnmanagedType.I4)]
[StructLayout(LayoutKind.Sequential)]

Answer 24

Separate static fields depending on the generic type of the surrounding class.

    public class StaticConstrucEx2Outer<T> {

 // Will hold a different value depending on the specicified generic type
 public T SomeProperty { get; set; }

 static StaticConstrucEx2Outer() {
  Console.WriteLine("StaticConstrucEx2Outer " + typeof(T).Name);
 }

 public class StaticConstrucEx2Inner<U, V> {

  static StaticConstrucEx2Inner() {

   Console.WriteLine("Outer <{0}> : Inner <{1}><{2}>",
    typeof(T).Name,
    typeof(U).Name,
    typeof(V).Name);
  }

  public static void FooBar() {}
 }

 public class SCInner {

  static SCInner() {
   Console.WriteLine("SCInner init <{0}>", typeof(T).Name);
  }

  public static void FooBar() {}
 }
}


StaticConstrucEx2Outer<int>.StaticConstrucEx2Inner<string, DateTime>.FooBar();
StaticConstrucEx2Outer<int>.SCInner.FooBar();

StaticConstrucEx2Outer<string>.StaticConstrucEx2Inner<string, DateTime>.FooBar();
StaticConstrucEx2Outer<string>.SCInner.FooBar();

StaticConstrucEx2Outer<string>.StaticConstrucEx2Inner<string, Int16>.FooBar();
StaticConstrucEx2Outer<string>.SCInner.FooBar();

StaticConstrucEx2Outer<string>.StaticConstrucEx2Inner<string, UInt32>.FooBar();

StaticConstrucEx2Outer<long>.StaticConstrucEx2Inner<string, UInt32>.FooBar();

Will produce the following output

Outer <Int32> : Inner <String><DateTime>
SCInner init <Int32>

Outer <String> : Inner <String><DateTime>
SCInner init <String>

Outer <String> : Inner <String><Int16>

Outer <String> : Inner <String><UInt32>

Outer <Int64> : Inner <String><UInt32>

Answer 25

Not hidden, but pretty neat. I find this a more succinct substitute for a simple if-then-else that just assigns a value based on a condition.

string result = 
              i < 2 ?               //question
              "less than 2" :       //answer
              i < 5 ?               //question
             "less than 5":         //answer   
              i < 10 ?              //question
              "less than 10":       //answer
              "something else";     //default answer

Answer 26

I don't know if this is a hidden feature (""). Any string function.