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:




Language Features

Visual Studio Features


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


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296 Answers 296

This isn't C# per se, but I haven't seen anyone who really uses System.IO.Path.Combine() to the extent that they should. In fact, the whole Path class is really useful, but no one uses it!

I'm willing to bet that every production app has the following code, even though it shouldn't:

string path = dir + "\\" + fileName;

lambdas and type inferrence are underrated. Lambdas can have multiple statements and they double as a compatible delegate object automatically (just make sure the signature match) as in:

Console.CancelKeyPress +=
    (sender, e) => {
        Console.WriteLine("CTRL+C detected!\n");
        e.Cancel = true;

Note that I don't have a new CancellationEventHandler nor do I have to specify types of sender and e, they're inferable from the event. Which is why this is less cumbersome to writing the whole delegate (blah blah) which also requires you to specify types of parameters.

Lambdas don't need to return anything and type inference is extremely powerful in context like this.

And BTW, you can always return Lambdas that make Lambdas in the functional programming sense. For example, here's a lambda that makes a lambda that handles a Button.Click event:

Func<int, int, EventHandler> makeHandler =
    (dx, dy) => (sender, e) => {
        var btn = (Button) sender;
        btn.Top += dy;
        btn.Left += dx;

btnUp.Click += makeHandler(0, -1);
btnDown.Click += makeHandler(0, 1);
btnLeft.Click += makeHandler(-1, 0);
btnRight.Click += makeHandler(1, 0);

Note the chaining: (dx, dy) => (sender, e) =>

Now that's why I'm happy to have taken the functional programming class :-)

Other than the pointers in C, I think it's the other fundamental thing you should learn :-)

From Rick Strahl:

You can chain the ?? operator so that you can do a bunch of null comparisons.

string result = value1 ?? value2 ?? value3 ?? String.Empty;

Aliased generics:

using ASimpleName = Dictionary<string, Dictionary<string, List<string>>>;

It allows you to use ASimpleName, instead of Dictionary<string, Dictionary<string, List<string>>>.

Use it when you would use the same generic big long complex thing in a lot of places.

From CLR via C#:

When normalizing strings, it is highly recommended that you use ToUpperInvariant instead of ToLowerInvariant because Microsoft has optimized the code for performing uppercase comparisons.

I remember one time my coworker always changed strings to uppercase before comparing. I've always wondered why he does that because I feel it's more "natural" to convert to lowercase first. After reading the book now I know why.

  • 254
    When you "convert a string to upper case" you create a second temporary string object. I thought that this kind of comparison was not preferred, that the best way was: String.Equals(stringA, stringB, StringComparison.CurrentCultureIgnoreCase) whcih does not create this throwaway string at all. – Anthony Sep 23 '08 at 14:44
  • 32
    What kind of optimization can you perform on comparing upper case strings that can't be done on lower case strings? I don't understand why one would be more optimal than the other. – Parappa Oct 24 '08 at 17:38
  • 36
    Converting to uppercase rather than lowercase can also prevent incorrect behavior in certain cultures. For example, in Turkish, two lowercase i's map to the same uppercase I. Google "turkish i" for more details. – Neil Dec 17 '08 at 17:17
  • 34
    I tried benchmarking ToUpperInvariant vs ToLowerInvariant. I cannot find any difference in their performance under .NET 2.0 or 3.5. Certainly not anything that warrant "highly recommending" using one over the other. – Rasmus Faber Jan 21 '09 at 21:41
  • 19
    ToUpperInvariant is preferred because it makes all characters round-trip. See For comparisons, write"a".Equals("A", StringComparison.OrdinalIgnoreCase) – SLaks Jun 4 '09 at 19:35

My favorite trick is using the null coalesce operator and parentheses to automagically instantiate collections for me.

private IList<Foo> _foo;

public IList<Foo> ListOfFoo 
    { get { return _foo ?? (_foo = new List<Foo>()); } }
  • 23
    Don't you find it hard to read? – Riri May 19 '09 at 18:40
  • 72
    Its slightly hard to read for the noo... er, inexperienced. But its compact and contains a couple patterns and language features that the programmer should know and understand. So, while it is hard at first, it provides the benefit of being a reason to learn. – Will May 20 '09 at 13:23
  • 38
    Lazy instantiation is somewhat malpractice because it's a poor mans choice to avoid thinking about class invariants. It also has concurrency issues. – John Leidegren Aug 5 '09 at 17:23
  • 17
    I've always been informed this is bad practise, that calling a property should not do something as such. If you had a set on there and set the value to null, it would be very strange for someone using your API. – Ian Oct 7 '09 at 8:16
  • 8
    @Joel except that setting ListOfFoo to null is neither part of the class contract nor is it good practice. That's why there isn't a setter. Its also why ListOfFoo is guaranteed to return a collection and never a null. Its just a very odd complaint that if you do two bad things (make a setter and set a collection to null) this will result in your expectations being wrong. I wouldn't suggest doing Environment.Exit() in the getter, either. But that also has nothing to do with this answer. – Will Jun 21 '10 at 17:01

Avoid checking for null event handlers

Adding an empty delegate to events at declaration, suppressing the need to always check the event for null before calling it is awesome. Example:

public delegate void MyClickHandler(object sender, string myValue);
public event MyClickHandler Click = delegate {}; // add empty delegate!

Let you do this

public void DoSomething()
    Click(this, "foo");

Instead of this

public void DoSomething()
    // Unnecessary!
    MyClickHandler click = Click;
    if (click != null) // Unnecessary! 
        click(this, "foo");

Please also see this related discussion and this blog post by Eric Lippert on this topic (and possible downsides).

  • 87
    I believe a problem will appear if you rely on this technique and then you have to serialize the class. You will eliminate the event, and then on deserialization you will get a NullRefference.... .So one can just stick to the "old way" of doing things. It's safer. – sirrocco Oct 13 '08 at 9:58
  • 16
    you can still set your event handler to null, so you can still get a null reference, and you still have a race condition. – Robert Paulson Oct 19 '08 at 23:00
  • 64
    A quick profile test shows that dummy-subscribed event handler without null test takes roughly 2x the time of unsubscribed event handler with null test. Multicast event handler without null test takes about 3.5x the time of singlecast event handler with null test. – P Daddy Nov 17 '08 at 6:53
  • 54
    This avoids the need for a null check by just always having a self-subscriber. Even as an empty event this carries an overhead that you don't want. If there are no subscribers you don't want to fire the event at all, not always fire an empty dummy event first. I would consider this bad code. – Keith Dec 4 '08 at 14:49
  • 56
    This is a terrible suggestion, for the reasons in the above comments. If you must make your code look "clean", use an extension method to check for null then call the event. Someone with modify privileges should definitely add the cons to this answer. – Greg Mar 31 '09 at 4:29

Everything else, plus

1) implicit generics (why only on methods and not on classes?)

void GenericMethod<T>( T input ) { ... }

//Infer type, so
GenericMethod<int>(23); //You don't need the <>.
GenericMethod(23);      //Is enough.

2) simple lambdas with one parameter:

x => x.ToString() //simplify so many calls

3) anonymous types and initialisers:

//Duck-typed: works with any .Add method.
var colours = new Dictionary<string, string> {
    { "red", "#ff0000" },
    { "green", "#00ff00" },
    { "blue", "#0000ff" }

int[] arrayOfInt = { 1, 2, 3, 4, 5 };

Another one:

4) Auto properties can have different scopes:

public int MyId { get; private set; }

Thanks @pzycoman for reminding me:

5) Namespace aliases (not that you're likely to need this particular distinction):

using web = System.Web.UI.WebControls;
using win = System.Windows.Forms;

web::Control aWebControl = new web::Control();
win::Control aFormControl = new win::Control();
  • 14
    in #3 you can do Enumerable.Range(1,5) – Echostorm Oct 7 '08 at 14:08
  • 18
    i think you've been able to initialize arrays with int[] nums = {1,2,3}; since 1.0 :) doesn't even need the "new" keyword – Lucas Oct 7 '08 at 23:26
  • 13
    also lambda without parameters ()=> DoSomething(); – Pablo Retyk Jan 12 '09 at 8:38
  • 5
    I've used both { get; internal set; } and { get; protected set; }, so this pattern is consistent. – Keith May 4 '09 at 21:23
  • 7
    @Kirk Broadhurst - you're right - new web.Control() would also work in this example. The :: syntax forces it to treat the prefix as a namespace alias, so you could have a class called web and the web::Control syntax would still work, while the web.Control syntax wouldn't know whether to check the class or the namespace. Because of that I tend to always use :: when doing namespace aliases. – Keith Mar 8 '10 at 11:32

I didn't know the "as" keyword for quite a while.

MyClass myObject = (MyClass) obj;


MyClass myObject = obj as MyClass;

The second will return null if obj isn't a MyClass, rather than throw a class cast exception.

  • 42
    Don't over-do it though. Lots of people seem to use as because the prefer the syntax even though they want the semantics of a (ToType)x. – Scott Langham Sep 19 '08 at 18:07
  • 4
    I don't believe it offers better performance. Have you profiled it? (Obviously though it does when the cast fails... but when you use (MyClass) cast, failures are exceptional.. and extremely rare (if they happen at all), so it makes no difference. – Scott Langham Jan 21 '09 at 13:01
  • 7
    This is only more performant if the usual case is the cast failing. Otherwise the direct cast (type)object is faster. It takes longer for a direct cast to throw an exception than to return null though. – Spence Jan 26 '09 at 14:54
  • 15
    Right along the same lines of the "as" keyword... the "is" keyword is just as useful. – dkpatt May 7 '09 at 19:09
  • 28
    You can abuse it and have a NullReferenceException down your road later when you could have had a InvalidCastException earlier. – Andrei Rînea Sep 2 '09 at 7:55

Two things I like are Automatic properties so you can collapse your code down even further:

private string _name;
public string Name
        return _name;
        _name = value;


public string Name { get; set;}

Also object initializers:

Employee emp = new Employee();
emp.Name = "John Smith";
emp.StartDate = DateTime.Now();


Employee emp = new Employee {Name="John Smith", StartDate=DateTime.Now()}
  • 6
    Should it be noted that Automatic Properties are a C# 3.0 only feature? – Jared Updike Sep 18 '08 at 22:53
  • 21
    Automatic Properties were introduced with the 3.0 compiler. But since the compiler can be set to output 2.0 code, they work just fine. Just don't try to compile 2.0 code with automatic properties in an older compiler! – Joshua Shannon Mar 10 '09 at 14:59
  • 74
    Something many people don't realise is that get and set can have different accessibility, eg: public string Name { get; private set;} – Nader Shirazie Jun 13 '09 at 20:27
  • 7
    Only problem with Automatic Properties is that it doesn't seem to be possible to provide a default initialization value. – Stein Åsmul Sep 12 '09 at 20:57
  • 7
    @ANeves : no it's not. From that page: A DefaultValueAttribute will not cause a member to be automatically initialized with the attribute's value. You must set the initial value in your code. [DefaultValue] is used for the designer so it knows whether to show a property in bold (meaning non-default). – Roger Lipscombe Jun 14 '10 at 8:24

The 'default' keyword in generic types:

T t = default(T);

results in a 'null' if T is a reference type, and 0 if it is an int, false if it is a boolean, etcetera.

  • 4
    Plus: type? as a shortcut for Nullable<type>. default(int) == 0, but default(int?) == null. – sunside Jul 24 '10 at 17:22

Attributes in general, but most of all DebuggerDisplay. Saves you years.

The @ tells the compiler to ignore any escape characters in a string.

Just wanted to clarify this one... it doesn't tell it to ignore the escape characters, it actually tells the compiler to interpret the string as a literal.

If you have

string s = @"cat

it will actually print out as (note that it even includes the whitespace used for indentation):

  • wouldn't the string include all the spaces that you used for indentation? – andy Oct 13 '08 at 22:39
  • 18
    Yes it's called verbatim string. – Joan Venge Mar 3 '09 at 20:57
  • 4
    It would be clearer if the output showed the spaces that would be printed out as well. Right now it seems as if the new lines characters are printed but spaces are ignored. – aleemb Apr 28 '09 at 11:15
  • Very useful for escaping regular expressions and long SQL queries. – ashes999 Dec 21 '10 at 16:07
  • It also maps {{ to { and }} to } making it useful for string.Format(). – Ferruccio Jan 8 '12 at 16:12

I think one of the most under-appreciated and lesser-known features of C# (.NET 3.5) are Expression Trees, especially when combined with Generics and Lambdas. This is an approach to API creation that newer libraries like NInject and Moq are using.

For example, let's say that I want to register a method with an API and that API needs to get the method name

Given this class:

public class MyClass
     public void SomeMethod() { /* Do Something */ }

Before, it was very common to see developers do this with strings and types (or something else largely string-based):

RegisterMethod(typeof(MyClass), "SomeMethod");

Well, that sucks because of the lack of strong-typing. What if I rename "SomeMethod"? Now, in 3.5 however, I can do this in a strongly-typed fashion:

RegisterMethod<MyClass>(cl => cl.SomeMethod());

In which the RegisterMethod class uses Expression<Action<T>> like this:

void RegisterMethod<T>(Expression<Action<T>> action) where T : class
    var expression = (action.Body as MethodCallExpression);

    if (expression != null)
        // TODO: Register method

This is one big reason that I'm in love with Lambdas and Expression Trees right now.

  • 3
    I have a reflection utility class that does the same with FieldInfo, PropertyInfo, etc... – Olmo Nov 24 '08 at 22:09
  • Yes, this is great. I was able to use methods like this to write code like EditValue(someEmployee, e => e.FirstName); in my business logic and have it automatically generate all the plumbing logic for a ViewModel and View to edit that property (so, a label with the text "First Name" and a TextBox with a binding that calls the setter of the FirstName property when the user edits the name, and updates the View using the getter). This seems to be the basis for most of the new internal DSLs in C#. – Scott Whitlock Dec 1 '10 at 4:11
  • 4
    I think these aren't so much lesser-known as lesser-understood. – Justin Morgan Mar 17 '11 at 17:20
  • Why do you need to register a method? I have never used this before - where and when would this be used? – MoonKnight Jan 26 '12 at 9:46

"yield" would come to my mind. Some of the attributes like [DefaultValue()] are also among my favorites.

The "var" keyword is a bit more known, but that you can use it in .NET 2.0 applications as well (as long as you use the .NET 3.5 compiler and set it to output 2.0 code) does not seem to be known very well.

Edit: kokos, thanks for pointing out the ?? operator, that's indeed really useful. Since it's a bit hard to google for it (as ?? is just ignored), here is the MSDN documentation page for that operator: ?? Operator (C# Reference)

  • 14
    The default value's documentation says it is not really setting the value of the property. It's only a helper for visualisers and code generators. – Boris Callens Nov 8 '08 at 1:18
  • 2
    As for DefaultValue: In the meantime, some libraries use it. MVC uses DefaultValue on Parameters of a Controller Action (Which is very useful for non-nullable types). Strictly speaking of course, this is a code generator as the value is not set by the compiler but by MVC's code. – Michael Stum Jan 10 '10 at 1:32
  • 6
    The name for the ?? operator is the "Null Coalescing" operator – Armstrongest Mar 29 '10 at 18:23
  • yield is my favorite, the coalesce operator is up there though. I don't see anything about CAS, or assembly signing, strong names, the GAC... I suppose only CAS is C#... but so many developers have no clue about security. – BrainSlugs83 Feb 28 '12 at 21:05

I tend to find that most C# developers don't know about 'nullable' types. Basically, primitives that can have a null value.

double? num1 = null; 
double num2 = num1 ?? -100;

Set a nullable double, num1, to null, then set a regular double, num2, to num1 or -100 if num1 was null.

one more thing about Nullable type:

DateTime? tmp = new DateTime();
tmp = null;
return tmp.ToString();

it is return String.Empty. Check this link for more details

  • 1
    DateTime cannot be set to null. – Jason Jackson Sep 30 '08 at 1:03
  • 2
    So then is "int" just C# syntactic sugar for System.Int32 ? There actually is compiler support built around the Nullable types, enabling setting them to null, for instance (which can't be done using generic structs alone), and boxing them as their underlying type. – P Daddy Nov 17 '08 at 7:00
  • 4
    @P Daddy - yes, int is syntactic sugar for System.Int32. They are completely interchangeable, just like int? === Int32? === Nullable<Int32> === Nullable<int> – cjk Jan 8 '09 at 18:22
  • 6
    @ck: Yes, int is an alias for System.Int32, as T? is an alias for Nullable<T>, but it isn't just syntactic sugar. It's a defined part of the language. The aliases not only make the code easier to read, but also fit our model better. Expressing Nullable<Double> as double? underscores the perspective that the value thus contained is (or may be) a double, not just some generic structure instantiated on type Double. (continued) – P Daddy Jun 15 '09 at 4:09
  • 3
    ... In any case, the argument wasn't about aliases (that was just a poor analogy, I suppose), but that nullable types—using whatever syntax you prefer—are indeed a language feature, not just a product of generics. You can't reproduce all the functionality of nullables (comparison to/assignment of null, operator forwarding, boxing of underlying type or null, compatibility with null coalescing and as operators) with generics alone. Nullable<T> alone is rudimentary and far from stellar, but the concept of nullable types as part of the language is kick ass. – P Daddy Jun 15 '09 at 4:15

Here are some interesting hidden C# features, in the form of undocumented C# keywords:





These are undocumented C# keywords (even Visual Studio recognizes them!) that were added to for a more efficient boxing/unboxing prior to generics. They work in coordination with the System.TypedReference struct.

There's also __arglist, which is used for variable length parameter lists.

One thing folks don't know much about is System.WeakReference -- a very useful class that keeps track of an object but still allows the garbage collector to collect it.

The most useful "hidden" feature would be the yield return keyword. It's not really hidden, but a lot of folks don't know about it. LINQ is built atop this; it allows for delay-executed queries by generating a state machine under the hood. Raymond Chen recently posted about the internal, gritty details.

Unions (the C++ shared memory kind) in pure, safe C#

Without resorting to unsafe mode and pointers, you can have class members share memory space in a class/struct. Given the following class:

public class A
    public byte One;

    public byte Two;

    public byte Three;

    public byte Four;

    public int Int32;

You can modify the values of the byte fields by manipulating the Int32 field and vice-versa. For example, this program:

    static void Main(string[] args)
        A a = new A { Int32 = int.MaxValue };

        Console.WriteLine("{0:X} {1:X} {2:X} {3:X}", a.One, a.Two, a.Three, a.Four);

        a.Four = 0;
        a.Three = 0;

Outputs this:


just add using System.Runtime.InteropServices;

  • 7
    @George, works wonders when you are communicating with legacy apps over sockets using c union declarations. – scottm Jul 23 '09 at 19:07
  • 2
    There's also meaningful to say int and float at offset 0. It's what you need if you want to manipulate floating point numbers as bit masks, which you sometimes want to. Especially if you wanna learn new things about floating point numbers. – John Leidegren Aug 5 '09 at 17:20
  • 2
    The annoying thing about this is if you're going to use this is a struct the compiler will force you to set ALL the variables in the init function. So if you have: public A(int int32) { Int32 = int32; } it will throw "Field 'One' must be fully assigned before control is returned to the caller", so you have to set One = Two = Three = Four = 0; as well. – manixrock Oct 1 '09 at 16:27
  • 2
    This has its uses, mostly with binary data. I use a "Pixel" struct with an int32 @ 0, and four bytes for the four components @ 0, 1, 2, and 3. Great for manipulating image data quickly and easily. – snarf Oct 16 '09 at 23:01
  • 57
    Warning: This approach does not take into account endianness. That means your C# code will not run the same way on all machines. On little-endian CPUs (which store the least significant byte first), the behavior shown will be used. But on big-endian CPUs, the bytes will come out reversed from what you expected. Beware how you use this in production code - your code may not be portable to certain mobile devices and other hardware, and may break in non-obvious ways (eg two files ostensibly in the same format but actually with byte order reversed). – Ray Burns Jan 25 '10 at 19:14

Using @ for variable names that are keywords.

var @object = new object();
var @string = "";
var @if = IpsoFacto(); 
  • 38
    Why would you want to use a keyword as a variable name? Seems to me that this would make code less readable and obfuscated. – Jon Sep 13 '08 at 4:18
  • 41
    Well, the reason that it's there is that CLI requires it for interoperability with other languages that might use C# keywords as member names – Mark Cidade Sep 18 '08 at 22:04
  • 69
    If you ever wanted to use the MVC HTML helpers and define a HTML class you will be happy to know that you can use @class so it won't be recognised as the class keyword – Boris Callens Sep 23 '08 at 7:18
  • 31
    Great for extension methods. public static void DoSomething(this Bar @this, string foo) { ... } – Jonathan C Dickinson Jan 7 '09 at 11:06
  • 45
    @zihotki: Wrong. var a = 5; Console.WriteLine(@a); Prints 5 – SLaks Jun 4 '09 at 17:40

If you want to exit your program without calling any finally blocks or finalizers use FailFast:

  • 2
    Really? You can do this? – George Mauer Aug 31 '09 at 20:17
  • 12
    Note that this method also creates a memory dump and writes a message to the Windows error log. – RickNZ Dec 19 '09 at 3:08
  • 1
    It should be noted no finalizers or app domain unload events will be called when this method is used... – AwkwardCoder Jan 6 '10 at 11:43
  • 1
    +1 for the hint, but this is not C#, it is BCL of .NET. – Abel Mar 10 '11 at 22:59
  • System.Diagnostics.Process.GetCurrentProcess().Kill() is faster – Tolgahan Albayrak Oct 30 '11 at 0:05

Returning anonymous types from a method and accessing members without reflection.

// Useful? probably not.
private void foo()
    var user = AnonCast(GetUserTuple(), new { Name = default(string), Badges = default(int) });
    Console.WriteLine("Name: {0} Badges: {1}", user.Name, user.Badges);

object GetUserTuple()
    return new { Name = "dp", Badges = 5 };

// Using the magic of Type Inference...
static T AnonCast<T>(object obj, T t)
   return (T) obj;
  • 42
    That really doesn't get you anything. It is actually dangerous. What if GetUserTuple is modified to return multiple types? The cast will fail at run time. One of the great things about C#/.Net is the compile time checking. It would be much better to just create a new type. – Jason Jackson Sep 30 '08 at 1:10
  • 9
    @Jason I did say it's probably not useful but it is surprising (and I thought hidden). – denis phillips Sep 30 '08 at 14:41
  • 31
    While cool, this seems like a rather poor design choice. You've basically defined the anonymous type in two places. At that point, just declare a real struct and use it directly. – Paul Alexander May 7 '09 at 9:05
  • 6
    @George: such a convention would be called a... struct? – R. Martinho Fernandes Nov 13 '09 at 11:58
  • 2
    this trick is named 'cast by sample' and it will not work if method that returns anonymous type is located in another assembly. – desco Jul 3 '10 at 0:58

Here's a useful one for regular expressions and file paths:

"c:\\program files\\oldway"
@"c:\program file\newway"

The @ tells the compiler to ignore any escape characters in a string.

  • 27
    Also, a @ constant accepts newlines inside. Perfect when assigning a multiline script to a string. – Tor Haugen Nov 19 '08 at 16:17
  • 11
    Don't forget also to escape a quotation mark just double them up, in other words. [code]var candy = @"I like ""red"" candy canes.";[/code] – Dave Jan 10 '09 at 14:39
  • 5
    I tend to build paths with Path.Combine. I definitely use the @ for regex! – Dan McClain Jun 16 '09 at 12:45
  • 6
    @new is also a variable instead of a keyword: @this, @int, @return, on :) – IAbstract Jan 28 '10 at 5:59
  • This one doesn't come anywhere near: But what are the most hidden features or tricks of C# that even C# fans, addicts, experts barely know? – publicgk Aug 16 '11 at 11:15

Mixins. Basically, if you want to add a feature to several classes, but cannot use one base class for all of them, get each class to implement an interface (with no members). Then, write an extension method for the interface, i.e.

public static DeepCopy(this IPrototype p) { ... }

Of course, some clarity is sacrificed. But it works!

  • 4
    Yeah I think this is the real power of extension methods. They basically allow for implementations of interface methods. – John Bubriski Jun 8 '09 at 16:23
  • This is also handy if you're using NHibernate (or Castle ActiveRecord) and you have to use interfaces for your collections. This way you can give behavior to the collection interfaces. – Ryan Lundy Mar 5 '10 at 22:28
  • That's basically how all of the LINQ methods are implemented, for the record. – WCWedin Oct 4 '10 at 20:13
  • Here's a link that talks about what I referred to above, using extension methods with collection interfaces in NHibernate or Castle ActiveRecord:… – Ryan Lundy Mar 23 '11 at 22:34
  • 7
    If only they allowed extension properties!!!! I hated having to write an extension method that begged to be a read-only property.... – John Gibb Apr 18 '11 at 17:40

Not sure why anyone would ever want to use Nullable<bool> though. :-)

True, False, FileNotFound?

  • 87
    if expect a user to answer a yes no question then null would be appropriate if the question has not been answered – Omar Kooheji Oct 24 '08 at 12:38
  • 22
    Nullable types are handy for interaction with a database where table columns are often nullable. – tuinstoel Jan 1 '09 at 16:40
  • 11
    Yes, No, Maybee? – Dan Blair May 22 '09 at 20:19
  • 21
    Store values of a ThreeState CheckBox – Shimmy Jul 13 '09 at 15:04
  • 8
    As in SQL: Yes/no/unknown. – erikkallen Sep 9 '09 at 11:30

This one is not "hidden" so much as it is misnamed.

A lot of attention is paid to the algorithms "map", "reduce", and "filter". What most people don't realize is that .NET 3.5 added all three of these algorithms, but it gave them very SQL-ish names, based on the fact that they're part of LINQ.

"map" => Select
Transforms data from one form into another

"reduce" => Aggregate
Aggregates values into a single result

"filter" => Where
Filters data based on a criteria

The ability to use LINQ to do inline work on collections that used to take iteration and conditionals can be incredibly valuable. It's worth learning how all the LINQ extension methods can help make your code much more compact and maintainable.

  • 1
    Select also acts like the "return" function in monads. See – Mark Cidade Jan 1 '09 at 16:15
  • 1
    Using "select" is only required if you use the SQLish syntax. If you use the extension method syntax -- someCollection.Where(item => item.Price > 5.99M) -- the use of select statements isn't required. – Brad Wilson Apr 1 '10 at 18:41
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    @Brad, that (where) is a filter operation. Try doing a map operation without select... – Eloff May 10 '10 at 22:31
  • 2
    LINQ is the big thing that happened to C# in my opinion:… – Leniel Maccaferri May 29 '10 at 20:53
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    Aggregate's smallest signature is the "reduce" function, Aggregate's middle signature is the much more powerful "fold" function! – Brett Widmeier Mar 14 '11 at 22:50

for system independent newlines.

  • 10
    The annoying thing about this one, is that it isn't included into the compact framework. – Stormenet Dec 8 '08 at 7:21
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    Its worth pointing out that this is specific to the application's host platform - so if you are creating data intended for another system, you should use \n or \r\n appropriately. – Mesh Jun 2 '09 at 12:04
  • This is part of the BCL of .NET, not a feature of C# per se. – Abel Mar 10 '11 at 23:01

If you're trying to use curly brackets inside a String.Format expression...

int foo = 3;
string bar = "blind mice";
String.Format("{{I am in brackets!}} {0} {1}", foo, bar);
//Outputs "{I am in brackets!} 3 blind mice"
  • 19
    @Kyralessa: Actually, yes, they are braces, but "curly brackets" is an alternate name for them. [ and ] are square brackets, and < and > are angle brackets. See – icktoofay Mar 26 '10 at 1:22
  • 4
    You are correct. But when I commented, it didn't say "curly" brackets. – Ryan Lundy Mar 26 '10 at 2:04
  • 2
    Very nice one to point out. Remember my first String.Format looked like: String.Format("{0}I am in curly brackets{1} {2} {3}", "{","}", 3, "blind mice"); Once I found out that escaping these is done by using {{ and }} I was so happy :) – Gertjan Apr 6 '10 at 14:04
  • Muahahahaa... Programming already 3 years in .Net and I didn't know this one. :D – Arnis Lapsa Apr 23 '10 at 10:54
  • "curly" brackets acting similar to escape sequences ?? – Pratik Dec 14 '10 at 10:48
  1. ?? - coalescing operator
  2. using (statement / directive) - great keyword that can be used for more than just calling Dispose
  3. readonly - should be used more
  4. netmodules - too bad there's no support in Visual Studio
  • 6
    using can also be used to alias a long namespace to a more convenient string, i.e.: using ZipEncode = MyCompany.UtilityCode.Compression.Zip.Encoding; There's more here: – Dave R. Dec 9 '08 at 15:41
  • 2
    It really isn't the same thing. When calling Dispose, you may use the using statement, when aliasing types you are using a using directive. – Øyvind Skaar Jan 11 '09 at 19:29
  • 2
    Just in case you'd like a name to #1 (as you did with the ternary operator), ?? is called the null coalescing operator. – J. Steen Apr 23 '09 at 12:47
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    @LucasAardvark: As J Steen mentioned it's called the null coalescing operator. Search for that! – kokos Jun 21 '09 at 1:54
  • 1
    To search for ?? operator at google try: – backslash17 Dec 25 '09 at 22:06

@Ed, I'm a bit reticent about posting this as it's little more than nitpicking. However, I would point out that in your code sample:

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

If you're going to use 'is', why follow it up with a safe cast using 'as'? If you've ascertained that obj is indeed MyClass, a bog-standard cast:

c = (MyClass)obj never going to fail.

Similarly, you could just say:

MyClass c = obj as MyClass;
if(c != null)

I don't know enough about .NET's innards to be sure, but my instincts tell me that this would cut a maximum of two type casts operations down to a maximum of one. It's hardly likely to break the processing bank either way; personally, I think the latter form looks cleaner too.

  • 16
    If the cast is to the exact type (cast to "A" when object is "A", not derived from it), the straight cast is ~3x FASTER than "as". When casting a derived type (cast to "A" when object is "B", which derives from "A"), the straight cast is ~0.1x slower than "as". "is", then "as" is just silly. – P Daddy Nov 17 '08 at 7:15
  • 2
    No, but you could write "if ((c = obj as MyClass) != null)". – Dave Van den Eynde Mar 25 '09 at 12:14
  • 10
    is and as won't do user casts. So, the above code is asking with the is operator if obj is derived from MyClass (or has an implicit system defined cast). Also, is fails on null. Both of these edge cases may be important to your code. For instance, you may want to write: if( obj == null || obj is MyClass ) c = (MyClass)obj; But this is strictly different from: try { c = (MyClass)obj; } catch { } since the former will not perform any user defined conversions, but the latter will. Without the null check, the former will also not set c when obj is null. – Adam Luter Sep 9 '09 at 12:02
  • 2
    In IL, a cast goes to a CASTCLASS but an as/is go to an ISINST instruction. – John Gibb Apr 18 '11 at 17:39
  • 5
    I ran a test for this, casting IEnumerable<int> to List<int>, and casting object (new object()) to IEnumerable<int>, to make sure there are no mistakes: direct cast: 5.43ns, is->as cast: 6.75ns, as cast: 5.69ns. Then testing invalid casts: direct cast: 3125000ns, as cast: 5.41ns. Conclusion: stop worrying about the 1% factor, and just make sure you use is/as when the cast might be invalid, cause exceptions (also if handled) are VERY slow compared to casting, we're talking about a factor 578000 slower. Remember that last part, the rest doesn't matter (.Net FW 4.0, release build) – Aidiakapi Sep 13 '11 at 11:06

Maybe not an advanced technique, but one I see all the time that drives me crazy:

if (x == 1)
   x = 2;
   x = 3;

can be condensed to:

x = (x==1) ? 2 : 3;
  • 10
    The ternary operator has been banned in my group. Some people just don't like it, though I've never understood why. – Justin R. Mar 26 '09 at 19:06
  • 13
    I guess because they're not the same things, being an operator not a statement. I prefer the first approach myself. It's more consistent and easily expandable. Operators can't contain statements, so the minute you have to expand the body, you'll have to convert that ternary operator to an if statement – kervin Apr 18 '09 at 16:34
  • 16
    can be condensed to x++; Ok it's pointless ^^ – François Jun 4 '09 at 13:14
  • 5
    @Guillaume: To account for all values of x: x = 2 + System.Math.Min(1,System.Math.Abs(x-1)); – mbeckish Jun 6 '09 at 20:17
  • 38
    It's actually called the "conditional operator" - it is a ternary operator because it takes three arguments. – Blorgbeard Jun 30 '09 at 9:24

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