C#6 Update

In C#6 ?. is now a language feature:

// C#1-5
propertyValue1 = myObject != null ? myObject.StringProperty : null; 

// C#6
propertyValue1 = myObject?.StringProperty;

The question below still applies to older versions, but if developing a new application using the new ?. operator is far better practice.

Original Question:

I regularly want to access properties on possibly null objects:

string propertyValue1 = null;
if( myObject1 != null )
    propertyValue1 = myObject1.StringProperty;

int propertyValue2 = 0;
if( myObject2 != null )
    propertyValue2 = myObject2.IntProperty;

And so on...

I use this so often that I have a snippet for it.

You can shorten this to some extent with an inline if:

propertyValue1 = myObject != null ? myObject.StringProperty : null;

However this is a little clunky, especially if setting lots of properties or if more than one level can be null, for instance:

propertyValue1 = myObject != null ? 
    (myObject.ObjectProp != null ? myObject.ObjectProp.StringProperty) : null : null;

What I really want is ?? style syntax, which works great for directly null types:

int? i = SomeFunctionWhichMightReturnNull();
propertyValue2 = i ?? 0;

So I came up with the following:

public static TResult IfNotNull<T, TResult>( this T input, Func<T, TResult> action, TResult valueIfNull )
    where T : class
    if ( input != null ) return action( input );
    else return valueIfNull;

//lets us have a null default if the type is nullable
public static TResult IfNotNull<T, TResult>( this T input, Func<T, TResult> action )
    where T : class
    where TResult : class
{ return input.IfNotNull( action, null ); }

This lets me us this syntax:

propertyValue1 = myObject1.IfNotNull( x => x.StringProperty );
propertyValue2 = myObject2.IfNotNull( x => x.IntProperty, 0);

//or one with multiple levels
propertyValue1 = myObject.IfNotNull( 
    o => o.ObjectProp.IfNotNull( p => p.StringProperty ) );

This simplifies these calls, but I'm not sure about checking this sort of extension method in - it does make the code a little easier to read, but at the cost of extending object. This would appear on everything, although I could put it in a specifically referenced namespace.

This example is a rather simple one, a slightly more complex one would be comparing two nullable object properties:

if( ( obj1 == null && obj2 == null ) || 
    ( obj1 != null && obj2 != null && obj1.Property == obj2.Property ) )

if( obj1.NullCompare( obj2, (x,y) => x.Property == y.Property ) 

What are the pitfalls of using extensions in this way? Are other coders likely to be confused? Is this just abuse of extensions?

I guess what I really want here is a compiler/language extension:

propertyValue1 = myObject != null ? myObject.StringProperty : null;

propertyValue1 = myObject?StringProperty;

This would make the complex case far easier:

propertyValue1 = myObject != null ? 
    (myObject.ObjectProp != null ? myObject.ObjectProp.StringProperty) : null

propertyValue1 = myObject?ObjectProp?StringProperty;

This would only work for value types, but you could return nullable equivalents:

int? propertyValue2 = myObject?ObjectProp?IntProperty;


int propertyValue3 = myObject?ObjectProp?IntProperty ?? 0;

11 Answers 11


We independently came up with the exact same extension method name and implementation: Null-propagating extension method. So we don't think it's confusing or an abuse of extension methods.

I would write your "multiple levels" example with chaining as follows:

propertyValue1 = myObject.IfNotNull(o => o.ObjectProp).IfNotNull(p => p.StringProperty);

There's a now-closed bug on Microsoft Connect that proposed "?." as a new C# operator that would perform this null propagation. Mads Torgersen (from the C# language team) briefly explained why they won't implement it.

  • Yeah, I asked Mads directly at TechEd - basically this feature keeps missing the cut, they might still add it in a future C# version.
    – Keith
    Mar 28 '11 at 13:20
  • @Keith Thanks for the update! (It can't hurt to keep reminding the C# team that customers would find this useful.) Mar 29 '11 at 2:33
  • They are now seriously considering it: blogs.msdn.com/b/jerrynixon/archive/2014/02/26/… Feb 28 '14 at 15:32
  • 1
    The status of the "Null propagation" feature is "Done". See Roslyn's Language feature implementation status
    – orad
    Jul 25 '14 at 17:01
  • ?. is implemented in C#6 - I've updated the question to reflect that. The answers here still apply to C#1-5
    – Keith
    Jun 15 '15 at 6:41

Here's another solution, for chained members, including extension methods:

public static U PropagateNulls<T,U> ( this T obj
                                     ,Expression<Func<T,U>> expr) 
{  if (obj==null) return default(U);

   //uses a stack to reverse Member1(Member2(obj)) to obj.Member1.Member2 
   var members = new Stack<MemberInfo>();

   bool       searchingForMembers = true;
   Expression currentExpression   = expr.Body;

   while (searchingForMembers) switch (currentExpression.NodeType)
    { case ExpressionType.Parameter: searchingForMembers = false; break;

           case ExpressionType.MemberAccess:    
           { var ma= (MemberExpression) currentExpression;
             currentExpression = ma.Expression;         
           } break;     

          case ExpressionType.Call:
          { var mc = (MethodCallExpression) currentExpression;

           //only supports 1-arg static methods and 0-arg instance methods
           if (   (mc.Method.IsStatic && mc.Arguments.Count == 1) 
               || (mc.Arguments.Count == 0))
            { currentExpression = mc.Method.IsStatic ? mc.Arguments[0]
                                                     : mc.Object; 

           throw new NotSupportedException(mc.Method+" is not supported");

        default: throw new NotSupportedException
                        (currentExpression.GetType()+" not supported");

   object currValue = obj;
   while(members.Count > 0)
    { var m = members.Pop();

       { case MemberTypes.Field:
           currValue = ((FieldInfo) m).GetValue(currValue); 

         case MemberTypes.Method:
           var method = (MethodBase) m;
           currValue = method.IsStatic
                              ? method.Invoke(null,new[]{currValue})
                              : method.Invoke(currValue,null); 

         case MemberTypes.Property:
           var method = ((PropertyInfo) m).GetGetMethod(true);
                currValue = method.Invoke(currValue,null);


      if (currValue==null) return default(U);   

   return (U) currValue;    

Then you can do this where any can be null, or none:

foo.PropagateNulls(x => x.ExtensionMethod().Property.Field.Method());
  • I love this idea! However, it (as well as all the other solutions here) doesn't seem to work within a LINQ statement. For instance when doing a .Select into a new anonymous type like .Select(s=> new {MyNewProperty = s.PropogateNulls(p=>p.Thing)}). This doesn't work. Still have to use the old null checking there. Mar 22 '16 at 23:24
  • You have to modify the code to accept static methods with two arguments, for Enumerable.Select(src, lambda) Mar 23 '16 at 5:31

If you find yourself having to check very often if a reference to an object is null, may be you should be using the Null Object Pattern. In this pattern, instead of using null to deal with the case where you don't have an object, you implement a new class with the same interface but with methods and properties that return adequate default values.


How is

propertyValue1 = myObject.IfNotNull(o => o.ObjectProp.IfNotNull( p => p.StringProperty ) );

easier to read and write than

if(myObject != null && myObject.ObjectProp != null)
    propertyValue1 = myObject.ObjectProp.StringProperty;

Jafar Husain posted a sample of using Expression Trees to check for null in a chain, Runtime macros in C# 3.

This obviously has performance implications though. Now if only we had a way to do this at compile time.

  • 1
    I agree with your first comment. The trouble it seems to me is that it's not immediately obvious from the code what it is doing. It is less cluttered, but it's only easier to understand once you know what it does.
    – xan
    Nov 21 '08 at 10:34

I just have to say that I love this hack!

I hadn't realized that extension methods don't imply a null check, but it totally makes sense. As James pointed out, The extension method call itself is not any more expensive than a normal method, however if you are doing a ton of this, then it does make sense to follow the Null Object Pattern, that ljorquera suggested. Or to use a null object and ?? together.

class Class1
    public static readonly Class1 Empty = new Class1();
x = (obj1 ?? Class1.Empty).X;
  • Extension methods by themselves aren't more expensive, however, this particular extension method is more expensive, because it requires a lambda/anonymous method. Lambdas get compiled down to class allocations in the background. Thus, it's more expensive because it requires an allocation. Jan 29 '09 at 23:06
  • 1
    @JudahHimango Lamdas are only complied to class allocations if they capture a variable (becoming a closure). If they don't, they get turned into a compiler generated static method... You can verify this by looking at a compiled DLL with something like dotPeek (jetbrains.com/decompiler)
    – John Gibb
    Feb 24 '14 at 17:50

it does make the code a little easier to read, but at the cost of extending object. This would appear on everything,

Note that you are not actually extending anything (except theoretically).

propertyValue2 = myObject2.IfNotNull( x => x.IntProperty, 0);

will generate IL code exactly as if it were written:

ExtentionClass::IfNotNull(myObject2,  x => x.IntProperty, 0);

There is no "overhead" added to the objects to support this.


To reader not in the know it looks like you're calling a method on a null reference. If you want this, I'd suggest putting it in a utility class rather than using an extension method:

propertyValue1 = Util.IfNotNull(myObject1, x => x.StringProperty );
propertyValue2 = Util.IfNotNull(myObject2, x => x.IntProperty, 0);

The "Util." grates, but is IMO the lesser syntactic evil.

Also, if you developing this as part of a team, then gently ask what others think and do. Consistency across a codebase for frequently used patterns is important.


While extension methods generally cause misunderstandings when called from null instances, I think the intent is pretty straightforward in this case.

string x = null;
int len = x.IfNotNull(y => y.Length, 0);

I would want to be sure this static method works on Value Types that can be null, such as int?

Edit: compiler says that neither of these are valid:

    public void Test()
        int? x = null;
        int a = x.IfNotNull(z => z.Value + 1, 3);
        int b = x.IfNotNull(z => z.Value + 1);

Other than that, go for it.

  • That's why there's two overloads - one that needs a default with no constraint on the result type, and one that doesn't need a default but constrains the result to reference types.
    – Keith
    Sep 24 '08 at 8:00
  • That's because int? is actually compiled to Nullable<int>, which is actually a struct. It's only compiler magic that lets you compare it to a null (it correctly fails the where TResult : class constraint). I may need to add another overload specific to Nullable<T>
    – Keith
    Sep 26 '08 at 10:53
  • On second thoughts - Nullable<int> only has two properties: HasValue an Value - both used in the ?? syntax. This shouldn't be needed for int?
    – Keith
    Oct 6 '08 at 18:55

Not an answer to the exact question asked, but there is Null-Conditional Operator in C# 6.0. I can argue it will be a poor choice to use the option in OP since C# 6.0 :)

So your expression is simpler,

string propertyValue = myObject?.StringProperty;

In case myObject is null it returns null. In case the property is a value type you have to use equivalent nullable type, like,

int? propertyValue = myObject?.IntProperty;

Or otherwise you can coalesce with null coalescing operator to give a default value in case of null. For eg,

int propertyValue = myObject?.IntProperty ?? 0;

?. is not the only syntax available. For indexed properties you can use ?[..]. For eg,

string propertyValue = myObject?[index]; //returns null in case myObject is null

One surprising behaviour of the ?. operator is that it can intelligently bypass subsequent .Member calls if object happens to be null. One such example is given in the link:

var result = value?.Substring(0, Math.Min(value.Length, length)).PadRight(length);

In this case result is null if value is null and value.Length expression wouldn't result in NullReferenceException.


Personally, even after all your explanation, I can't remember how the heck this works:

if( obj1.NullCompare( obj2, (x,y) => x.Property == y.Property ) 

This could be because I have no C# experience; however, I could read and understand everything else in your code. I prefer to keep code language agnostic (esp. for trivial things) so that tomorrow, another developer could change it to a whole new language without too much information about the existing language.


Here is another solution using myObject.NullSafe(x=>x.SomeProperty.NullSafe(x=>x.SomeMethod)), explained at http://www.epitka.blogspot.com/

  • Thanks, but that's a lot more code to do the same thing. Also your Maybe class is very similar to the framework's Nullable<T> and by using Invoke you add an unnecessary performance hit. Still - it's nice to see an alternate take on the same problem.
    – Keith
    May 28 '09 at 22:18

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.