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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

Attributes

Syntax

Language Features

Visual Studio Features

Framework

Methods and Properties

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

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296 Answers 296

I just found out about this one today -- and I've been working with C# for 5 years!

It's the namespace alias qualifier:

extern alias YourAliasHere;

You can use it to load multiple versions of the same type. This can be useful in maintenance or upgrade scenarios where you have an updated version of your type that won't work in some old code, but you need to upgrade it to the new version. Slap on a namespace alias qualifier, and the compiler will let you have both types in your code.

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RealProxy lets you create your own proxies for existing types.

This is super-advanced and I haven't seen anyone else use it -- which may mean that it's also really not that useful for most folks -- but it's one of those things that's good to know.

Basically, the .NET RealProxy class lets you create what is called a transparent proxy to another type. Transparent in this case means that it looks completely like the proxied target object to its client -- but it's really not: it's an instance of your class, which is derived from RealProxy.

This lets you apply powerful and comprehensive interception and "intermediation" services between the client and any methods or properties invoked on the real target object. Couple this power with the factory pattern (IoC etc), and you can hand back transparent proxies instead of real objects, allowing you to intercept all calls to the real objects and perform actions before and after each method invocation. In fact, I believe this is the very functionality .NET uses for remoting across app domain, process, and machine boundaries: .NET intercepts all access, sends serialized info to the remote object, receives the response, and returns it to your code.

Maybe an example will make it clear how this can be useful: I created a reference service stack for my last job as enterprise architect which specified the standard internal composition (the "stack") of any new WCF services across the division. The model mandated that the data access layer for (say) the Foo service implement IDAL<Foo>: create a Foo, read a Foo, update a Foo, delete a Foo. Service developers used supplied common code (from me) that would locate and load the required DAL for a service:

IDAL<T> GetDAL<T>(); // retrieve data access layer for entity T

Data access strategies in that company had often been, well, performance-challenged. As an architect, I couldn't watch over every service developer to make sure that he/she wrote a performant data access layer. But what I could do within the GetDAL factory pattern was create a transparent proxy to the requested DAL (once the common service model code located the DLL and loaded it), and use high-performance timing APIs to profile all calls to any method of the DAL. Ranking laggards then is just a matter of sorting DAL call timings by descending total time. The advantage to this over development profiling (e.g. in the IDE) is that it can be done in the production environment as well, to ensure SLAs.

Here is an example of test code I wrote for the "entity profiler," which was common code to create a profiling proxy for any type with a single line:

[Test, Category("ProfileEntity")]
public void MyTest()
{
    // this is the object that we want profiled.
    // we would normally pass this around and call
    // methods on this instance.
    DALToBeProfiled dal = new DALToBeProfiled();

    // To profile, instead we obtain our proxy
    // and pass it around instead.
    DALToBeProfiled dalProxy = (DALToBeProfiled)EntityProfiler.Instance(dal);

    // or...
    DALToBeProfiled dalProxy2 = EntityProfiler<DALToBeProfiled>.Instance(dal);

    // Now use proxy wherever we would have used the original...
    // All methods' timings are automatically recorded
    // with a high-resolution timer
    DoStuffToThisObject(dalProxy);

    // Output profiling results
    ProfileManager.Instance.ToConsole();
}

Again, this lets you intercept all methods and properties called by the client on the target object! In your RealProxy-derived class, you have to override Invoke:

[System.ComponentModel.EditorBrowsable(System.ComponentModel.EditorBrowsableState.Never)]
[SecurityPermission(SecurityAction.LinkDemand, 
    Flags = SecurityPermissionFlag.Infrastructure)] // per FxCop
public override IMessage Invoke(IMessage msg)
{
    IMethodCallMessage msgMethodCall = msg as IMethodCallMessage;
    Debug.Assert(msgMethodCall != null); // should not be null - research Invoke if this trips. KWB 2009.05.28

    // The MethodCallMessageWrapper
    // provides read/write access to the method 
    // call arguments. 
    MethodCallMessageWrapper mc =
        new MethodCallMessageWrapper(msgMethodCall);

    // This is the reflected method base of the called method. 
    MethodInfo mi = (MethodInfo)mc.MethodBase;

    IMessage retval = null;

    // Pass the call to the method and get our return value
    string profileName = ProfileClassName + "." + mi.Name;

    using (ProfileManager.Start(profileName))
    {
        IMessage myReturnMessage =
           RemotingServices.ExecuteMessage(_target, msgMethodCall);

        retval = myReturnMessage;
    }

    return retval;
}

Isn't it fascinating what .NET can do? The only restriction is that the target type must be derived from MarshalByRefObject. I hope this is helpful to someone.

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Arbitrary nested scopes { }


1. For finer scoping behaviour

{ anywhere inside members }, { using only braces }, { with no control statement }.

void MyWritingMethod() {

    int sameAge = 35;


    { // scope some work
        string name = "Joe";
        Log.Write(name + sameAge.ToString());
    }


    { // scope some other work
        string name = "Susan";
        Log.Write(name + sameAge.ToString());
    }

    // I'll never mix up Joe and Susan again
}

Inside large, confusing or archaic members (not that they should ever exist, however,) it helps me prevent against using wrong variable names. Scope stuff to finer levels.

2. For code beautification or visual semantics

For example, this XML writing code follows the indentation level of the actual generated XML (i.e. Visual Studio will indent the scoping braces accordingly)

XmlWriter xw = new XmlWriter(..);

//<root>
xw.WriteStartElement("root");
{
    //<game>
    xw.WriteStartElement("game");
    {
        //<score>#</score>
        for (int i = 0; i < scores.Length; ++i) // multiple scores
            xw.WriteElementString("score", scores[i].ToString());

    }
    //</game>
    xw.WriteEndElement();
}
//</root>
xw.WriteEndElement();

3. Mimic a 'with' statement

(Also another use to keep temp work out of the main scope)
Provided by Patrik: sometimes used to mimic the VB "with-statement" in C#.

var somePerson = this.GetPerson();  // whatever 
{ 
    var p = somePerson; 
    p.FirstName = "John"; 
    p.LastName = "Doe"; 
    //... 
    p.City = "Gotham"; 
} 

For the discerning programmer.

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1  
+1, I have done this before. However it only served to confuse my coworkers. The example with the xml writer is pretty sweet though. I would do a scores.ForEach(...) though to make the indentation right. –  Bill Barry Jul 1 '10 at 16:04
1  
var xdoc = new XDocument( new XElement("root", new XElement("game", scores.Select(score => new XElement("score", score.ToString()))))); // apologies for lack of formatting - hosed by SO –  David Clarke Dec 3 '10 at 1:50

Not hidden, but I think that a lot of developers are not using the HasValue and Value properties on the nullable types.

        int? x = null;
        int y;
        if (x.HasValue)
            y = x.Value;
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2  
How would one employ a nullable type without using HasValue? –  Cheeso May 15 '09 at 14:11
4  
Like this: int? x; if(x != null) –  Rismo May 19 '09 at 22:14
14  
No, people like to write: y = x ?? defaultvalue. –  Dave Van den Eynde Jun 2 '09 at 7:08
12  
Just to be clear, (x != null) and (x.HasValue) result in identical IL. –  Snarfblam Oct 17 '09 at 0:03
4  
I prefer x != null over x.HasValue. –  ANeves Mar 24 '10 at 17:12

My favourite is the

global::

keyword to escape namespace hell with some of our 3rd party code providers...

Example:

global::System.Collections.Generic.List<global::System.String> myList =
    new global::System.Collections.Generic.List<global::System.String>();
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13  
example -> msdn.microsoft.com/en-us/library/c3ay4x3d(VS.80).aspx –  bob Jun 30 '09 at 9:26
8  
You should have written some examples as well. –  Tarik Dec 19 '09 at 3:43
2  
Could do with an example –  Shahin Jun 22 '10 at 8:37
1  
It works just like an access specifier but with respect to namespaces i.e. global when used with the namespace alias qualifier :: refers to the global namespace, which is the default namespace for any C# program. Example usage here - msdn.microsoft.com/en-us/library/c3ay4x3d.aspx –  Robin Maben Dec 13 '10 at 9:17

I've read through all seven pages, and I'm missing these:

String.Join

I've seen a lot of for-loops to convert a list of items to a string with separators. It's always a pain to make sure you doin't start with a separator and don't end with a separator. A built-in method makes this easier:

String.Join(",", new String[] { "a", "b", "c"});

TODO in comment

Not really a C# feature, more of a Visual Studio feature. When you start your comment with TODO, it's added to your Visual Studio Task List (View -> Task List. Comments)

// TODO: Implement this!
throw new NotImplementedException();

Extension methods meets Generics

You can combine extension methods with Generics, when you think of the tip earlier in this topic, you can add extensions to specific interfaces

public static void Process<T>(this T item) where T:ITest,ITest2 {}

Enumerable.Range

Just want a list of integers?

Enumerable.Range(0, 15)

I'll try to think of some more...

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8  
it is indeed a VS tip, but besides TODO, we also use: QUESTION, HACK, BUG, FIX, REFACTOR, RESOURCE: (with the url from where you got a tip/code) You can add as many as you want through Tools>Options>Task List And with a CI like Hudson that picks these up it's great! –  Cohen Jul 12 '09 at 15:16
3  
The Enumerable.Range can be used as an alternative to a for loop. Instead of doing this for(i = 0; i < 15; i++), you can do this foreach (int i in Enumerable.Range(0, 15)). –  Ray Vega Jun 25 '10 at 20:51

You can "use" multiple objects in one using statement.

using (Font f1= new Font("Arial", 10.0f), f2 = new Font("Arial", 10.0f))
{
    // Use f1 and f2.
}

Note that there is already an answer stating that you can do this:

using (Font f1= new Font("Arial", 10.0f))
using (Font f2 = new Font("Arial", 10.0f))
{    }

Which is different from mine.

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1  
You probably can't use your method if f2 depends on f1, right? I use the second method all the time where you "use" an NHibernate ISession and then use that to build an NHibernate ITransaction, which is also disposable. –  Scott Whitlock Dec 1 '10 at 4:32
3  
Note that you can only specify multiple objects in the same using statement if they are of the same type. –  David Clarke Dec 3 '10 at 1:11

typedefs

Someone posted that they miss typedefs but you can do it like this

using ListOfDictionary = System.Collections.Generic.List<System.Collections.Generic.Dictionary<string, string>>;

and declare it as

ListOfDictionary list = new ListOfDictionary();
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10  
Just keep in mind that this method is scoped, at best, for the current file. You will need to add this to the top of every file in your project. –  Matthew Scharley Jun 13 '10 at 6:54
13  
@Lyubomyr and so are 90% of answers to this question. –  C. Ross Jun 13 '10 at 12:41
3  
Niklaos, checking the Il it's a compile time substitution and not something at runtime. –  BuildStarted Jun 16 '10 at 0:28

Width in string.Format()

Console.WriteLine("Product: {0,-7} Price: {1,5}", product1, price1);
Console.WriteLine("Product: {0,-7} Price: {1,5}", product2, price2);

produces

alt text

from Prabir's Blog | Hidden C# feature

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I like the keyword continue.

If you hit a condition in a loop and don't want to do anything but advance the loop just stick in "continue;".

E.g.:

foreach(object o in ACollection)
{
  if(NotInterested)
     continue;
}
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3  
-1: Use of continue's, break's etc. are one step away from goto's (which are evil). They make the flow of execution difficult to follow in complex programs and will eventually lead you to writing spaghetty code. –  Jon Cage Jun 4 '09 at 12:59
57  
+1 to offset Jon Cage. If continue/break are evil, then so is return. continue/break can be used to terminate a loop early (continue terminates just the current iteration, break terminates the entire loop), just as return can be used to terminate a function early. And early out can be much better than deeply-nested ifs. And goto is not evil, just not often necessary. It got a bad rep from the "spaghetti code" often created in older languages lacking better constructs. Having these better constructs leads to cleaner code and much less need for goto, but not none. Use the right tool for the job. –  P Daddy Jun 15 '09 at 2:33
17  
+1 to doubly offset Jon Cage. Partially because he can't spell spaghetti. Using continue, break, and goto are perfectly valid means to an end. If you're using them excessively, you're probably doing something wrong, but code does call for it at times. If a developer has a hard time following that, they should probably look for a new profession as gotos are at the ancestral roots of a lot of modern programming, if anyone remembers BASIC. –  Ben Lesh Aug 21 '09 at 14:58
3  
+1 to triple the offset: while I might use if(!NotInterested){...} in the example, I would not drag break into this. break is required by switch-case, and to escape out of a loop when a condition is met. return is just as important to stopping a function from continuing as is break within an interation. –  IAbstract Jan 28 '10 at 7:02
1  
I agree that continue is wonderful, but I don't see how this is a hidden language feature? I've been using it since day one. –  Ozzah Nov 23 '11 at 2:13

Nesting Using Statements

Usually we do it like this:

StringBuilder sb = new StringBuilder();
using (StringWriter sw = new StringWriter()) {
    using (IndentedTextWriter itw = new IndentedTextWriter(sw)) {
        ... 
    }
}

But we can do it this way:

StringBuilder sb = new StringBuilder();
using (StringWriter sw = new StringWriter())
using (IndentedTextWriter itw = new IndentedTextWriter(sw)) {
    ... 
}
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8  
Is this a feature specific to the using keyword? It just looks like the typical syntax where a statement (such as if, using, while) operates on either the next statement or statement block. Omitting the curly braces in these situations is not recommended in the code style guides I've read. –  J c Oct 12 '08 at 1:09
2  
Its's not specific to using, you can write: if(Something) using(new Pen()) using(new Brush())for(;;)DoSometing(); –  Olmo Nov 24 '08 at 22:18
3  
You can do this with every statement that can be nested. –  user65199 Jul 15 '09 at 8:52

Full access to the call stack:

public static void Main()
{
  StackTrace stackTrace = new StackTrace();           // get call stack
  StackFrame[] stackFrames = stackTrace.GetFrames();  // get method calls (frames)

  // write call stack method names
  foreach (StackFrame stackFrame in stackFrames)
  {
    Console.WriteLine(stackFrame.GetMethod().Name);   // write method name
  }
}

So, if you'll take the first one - you know what function you are in. If you're creating a helper tracing function - take one before the last one - you'll know your caller.

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2  
One thing that might trip you up is if you're in Debug or Release mode. The stack trace can differ due to optimizations. This screwed me up in an ill-fated attempt to regulate the callers of certain methods: moffdub.wordpress.com/2008/07/01/method-regulator-pattern –  moffdub Oct 27 '08 at 0:47
2  
you can use <System.Runtime.CompilerServices.MethodImpl(Runtime.CompilerServices.MethodImplO‌​ptions.NoInlining)> to help with this problem. –  Maslow Jun 29 '09 at 16:58
1  
This is not really a language feature, but a framework feature –  codymanix Jan 11 '11 at 18:05

@lomaxx I also learned the other day (the same time I learned your tip) is that you can now have disparate access levels on the same property:

public string Name { get; private set;}

That way only the class itself can set the Name property.

public MyClass(string name) { Name = name; }
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4  
protected set; is really useful for base classes. –  Arnis L. Jun 6 '09 at 20:04

JavaScript-like anonymous inline-functions

Return a String:

var s = new Func<String>(() =>
{
    return "Hello World!";
})();

Return a more complex Object:

var d = new Func<Dictionary<Int32, String>>(() =>
{
    return new Dictionary<Int32, String>
    {
        { 0, "Foo" },
        { 1, "Bar" },
        { 2, "..." }
    };
})();

A real-world use-case:

var tr = new TableRow();

tr.Cells.AddRange
(
    new[]
    {
        new TableCell { Text = "" },
        new TableCell { Text = "" },
        new TableCell { Text = "" },

        new TableCell
        {
            Text = new Func<String>(() =>
            {
                return @"Result of a chunk of logic, without having to define
                         the logic outside of the TableCell constructor";
            })()
        },

        new TableCell { Text = "" },
        new TableCell { Text = "" }
    }
);

Note: You cannot re-use variable names inside the inline-function's scope.


Alternative syntax

// The one-liner
Func<Int32, Int32, String> Add = (a, b) => Convert.ToString(a + b);

// Multiple lines
Func<Int32, Int32, String> Add = (a, b) =>
{
    var i = a + b;

    return i.ToString();
};

// Without parameters
Func<String> Foo = () => "";

// Without parameters, multiple lines
Func<String> Foo = () =>
{
    return "";
};

Shorten a string and add horizontal ellipsis...

Func<String, String> Shorten = s => s.Length > 100 ? s.Substring(0, 100) + "&hellip;" : s;
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Two of my personal favourites, which I see rarely used:

  1. Snippets (particularly for properties, which was made even better for Visual Studio 2008)
  2. The ObsoleteAttribute
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2  
I like the switch snippet very much. Makes switching on an enum sooo much easier ;) –  OregonGhost Mar 30 '09 at 12:34
2  
Are snippets though a feature of Visual Studio? Rather than C#/compiler? –  maxwellb Jun 13 '09 at 22:40
1  
snippets are part of visual studio shortcut is ctrl - k+ctrl x –  Maslow Aug 14 '09 at 19:23
4  
better yet eg: write "for" or "switch" and then double-press 'tab' key –  murki Oct 15 '09 at 22:24

There's also the ThreadStaticAttribute to make a static field unique per thread, so you can have strongly typed thread-local storage.

Even if extension methods aren't that secret (LINQ is based on them), it may not be so obvious as to how useful and more readable they can be for utility helper methods:

//for adding multiple elements to a collection that doesn't have AddRange
//e.g., collection.Add(item1, item2, itemN);
static void Add<T>(this ICollection<T> coll, params T[] items)
 { foreach (var item in items) coll.Add(item);
 }

//like string.Format() but with custom string representation of arguments
//e.g., "{0} {1} {2}".Format<Custom>(c=>c.Name,"string",new object(),new Custom())
//      result: "string {System.Object} Custom1Name"
static string Format<T>(this string format, Func<T,object> select, params object[] args)
 { for(int i=0; i < args.Length; ++i)
    { var x = args[i] as T;
      if (x != null) args[i] = select(x);
    }
   return string.Format(format, args);
 }
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It's not actually a C# hidden feature, but I recently discovered the WeakReference class and was blown away by it (although this may be biased by the fact that it helped me found a solution to a particular problem of mine...)

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On-demand field initialization in one line:

public StringBuilder Builder
{
    get { return _builder ?? (_builder = new StringBuilder()); }
}

I'm not sure how I feel about C# supporting assignment expressions, but hey, it's there :-)

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2  

Easily determine type with which variable was declared (from my answer):

using System;
using System.Collections.Generic;

static class Program
{
    public static Type GetDeclaredType<T>(T x)
    {
        return typeof(T);
    }

    // Demonstrate how GetDeclaredType works
    static void Main(string[] args)
    {
        IList<string> iList = new List<string>();
        List<string> list = null;

        Console.WriteLine(GetDeclaredType(iList).Name);
        Console.WriteLine(GetDeclaredType(list).Name);
    }
}

Results:

IList`1
List`1

And its name (borrowed from "Get variable name"):

static void Main(string[] args)
{
    Console.WriteLine("Name is '{0}'", GetName(new {args}));
    Console.ReadLine();
}

static string GetName<T>(T item) where T : class
{
    var properties = typeof(T).GetProperties();
    return properties[0].Name;
}

Result: Name is 'args'

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2  
Actually, not bad. The first look at the sample is misleading. I'll remember this trick. :) –  Lyubomyr Shaydariv Nov 24 '09 at 15:11
2  
@acidzombie24: You'll get List'1 as the first result, not IList'1. And null-reference exception instead of the second result. GetType() returns type of an object, not declared type of variable. –  Roman Boiko Jan 25 '10 at 8:55

The Environment.UserInteractive property.

The UserInteractive property reports false for a Windows process or a service like IIS that runs without a user interface. If this property is false, do not display modal dialogs or message boxes because there is no graphical user interface for the user to interact with.

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Programmers moving from C/C++ may miss this one:

In C#, % (modulus operator) works on floats!

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AppDomain.UnhandledException Event is also candidate for being hidden.

This event provides notification of uncaught exceptions. It allows the application to log information about the exception before the system default handler reports the exception to the user and terminates the application. If sufficient information about the state of the application is available, other actions may be undertaken — such as saving program data for later recovery. Caution is advised, because program data can become corrupted when exceptions are not handled.

We can see, even on this site, a lot of people are wondering why their application is not starting, why it crashed, etc. The AppDomain.UnhandledException event can be very useful for such cases as it provides the possibility at least to log the reason of application failure.

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The #if DEBUG pre-processor directive. It is Useful for testing and debugging (though I usually prefer to go the unit testing route).

string customerName = null;
#if DEBUG
  customerName = "Bob"
#endif

It will only execute code block if Visual Studio is set to compile in 'Debug' mode. Otherwise the code block will be ignored by the compiler (and grayed out in Visual Studio).

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3  
Note that you can define any symbol and then use conditional compilation on that symbol. DEBUG just happens to be automatically defined for you by default. –  xanadont May 5 '09 at 21:41
11  
[Conditional("DEBUG")]-marked methods usually make for cleaner, easier to read code. –  Danut Enachioiu Sep 3 '09 at 4:28

I didn't find anyone who is using string.Join to join strings using a separator. Everyone keeps writing the same ugly for-loop

var sb = new StringBuilder();
var count = list.Count();
for(int i = 0; i < count; i++)
{
  if (sb.Length > 0) sb.Append(seperator);
  sb.Append(list[i]);
}

return sb.ToString();

instead of

return string.Join(separator, list.ToArray());
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1  
you forgot if (sb.Length > 0) sb.Append(seperator); to remove the preceding separator. You also want to cache any Count() functions to save re-evaluations and string.Join() is only for arrays. Like many others devs I have my own extension methods which is cleaner that string.Join() –  mythz Apr 5 '10 at 11:26
3  
In .Net 4 String.Join works with IEnumerable so you don't need to convert to an array first. –  David Clarke Dec 3 '10 at 2:23

The C# ?? null coalescing operator -

Not really hidden, but rarely used. Probably because a lot of developers run a mile when they see the conditional ? operator, so they run two when they see this one. Used:

string mystring = foo ?? "foo was null"

rather than

string mystring;
if (foo==null)
    mystring = "foo was null";
else
    mystring = foo;
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3  
If the condition is a function that computes a result, with the ternary operator you would end up calling the function twice (in the case it evaluates to true). Whereas using ?? will only call it once. –  DSO Mar 27 '09 at 22:42

Partial Methods

Charlie Calvert explains partial methods on his blog

Scott Cate has a nice partial method demo here

  1. Points of extensibility in Code Generated class (LINQ to SQL, EF)
  2. Does not get compiled into the dll if it is not implemented (check it out with .NET Reflector)
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1  
I use this to produce multiple versions of an assembly. Some versions are endowed with extra magic capabilities, and some are not. I embed the methods that perform the magic in a separate code module, and mark them partial. Then, I can call them from the primary code module, without worrying which version of the assembly it is, and without #if conditionals. –  Cheeso May 15 '09 at 14:13

true and false operators are really weird.

More comprehensive example can be found here.

Edit: There is related SO question What’s the false operator in C# good for?

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2  
Been working with C# for 5 years and have never seen the true operator being overloaded. Makes sense since you can overload arithmetic and equality operators. Thanks! –  Judah Himango Sep 20 '08 at 20:35
1  
@HuBeZa: see stackoverflow.com/questions/33265/… –  Jakub Šturc Jun 17 '11 at 7:21

There are some really hidden keywords and features in C# related to the TypedReference undocumented class. The following keywords are undocumented:

  • __makeref
  • __reftype
  • __refvalue
  • __arglist

Examples of use:

// Create a typed reference
int i = 1;
TypedReference tr1 = __makeref(i);
// Get the type of a typed reference
Type t = __reftype(tr1);
// Get the value of a typed referece
int j = __refvalue(tr1, int); 
// Create a method that accepts and arbitrary number of typed references
void SomeMethod(__arglist) { ...
// Call the method
int x = 1;
string y = "Foo";
Object o = new Object();
SomeMethod(__arglist(x,y,o));
// And finally iterate over method parameters
void SomeMethod(__arglist) {
    ArgIterator ai = new ArgIterator(__arglist);
while(ai.GetRemainingCount() >0)
{
      TypedReference tr = ai.GetNextArg();
      Console.WriteLine(TypedReference.ToObject(tr));
}}
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3  
Yes it is risky to use them, these hidden keywords, were introduced before generics to make interop,P/Invoke faster, because these features let you avoid boxing/unboxing value types. –  Pop Catalin Sep 15 '08 at 9:47

I found that only few developers know about this feature.

If you need a method that works with a value-type variable via some interface (implemented by this value type), it's easy to avoid boxing during the method call.

Example code:

using System;
using System.Collections;

interface IFoo {
    void Foo();
}
struct MyStructure : IFoo {
    public void Foo() {
    }
}
public static class Program {
    static void MethodDoesNotBoxArguments<T>(T t) where T : IFoo {
        t.Foo();
    }
    static void Main(string[] args) {
        MyStructure s = new MyStructure();
        MethodThatDoesNotBoxArguments(s);
    }
}

IL code doesn't contain any box instructions:

.method private hidebysig static void  MethodDoesNotBoxArguments<(IFoo) T>(!!T t) cil managed
{
  // Code size       14 (0xe)
  .maxstack  8
  IL_0000:  ldarga.s   t
  IL_0002:  constrained. !!T
  IL_0008:  callvirt   instance void IFoo::Foo()
  IL_000d:  ret
} // end of method Program::MethodDoesNotBoxArguments

.method private hidebysig static void  Main(string[] args) cil managed
{
  .entrypoint
  // Code size       15 (0xf)
  .maxstack  1
  .locals init ([0] valuetype MyStructure s)
  IL_0000:  ldloca.s   s
  IL_0002:  initobj    MyStructure
  IL_0008:  ldloc.0
  IL_0009:  call       void Program::MethodDoesNotBoxArguments<valuetype MyStructure>(!!0)
  IL_000e:  ret
} // end of method Program::Main

See Richter, J. CLR via C#, 2nd edition, chapter 14: Interfaces, section about Generics and Interface Constraints.

See also my answer to another question.

share
3  
@AWC: the task is to pass an instance of some interface into our method. So that we can call methods of this interface on a passed instance. Declarations like void BoxingMethod(IFoo x) cause boxing if x is a value type. Your example doesn't allow calls of interface methods. Code above allows such calls without boxing. –  Roman Boiko Jan 7 '10 at 9:35

Near all the cool ones have been mentioned. Not sure if this one's well known or not

C# property/field constructor initialization:

var foo = new Rectangle() 
{ 
    Fill = new SolidColorBrush(c), 
    Width = 20, 
    Height = 20 
};

This creates the rectangle, and sets the listed properties.

I've noticed something funny - you can have a comma at the end of the properties list, without it being a syntax error. So this is also valid:

var foo = new Rectangle() 
{ 
    Fill = new SolidColorBrush(c), 
    Width = 20, 
    Height = 20,
};
share
8  
The comma at the end makes fiddling with the values much easier :) –  OregonGhost Mar 30 '09 at 11:07
6  
You don't need the () in Rectangle() either –  rball Nov 11 '09 at 23:23

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