What does null! statement mean?

by

The key to understanding what null! means is understanding the ! operator. You may have used it before as the “not” operator. However, since C# 8.0 and its new “nullable-reference-types” feature, the operator got a second meaning. It can be used on a type to control Nullability, it is then called the “Null Forgiving Operator”

Typical usage

Assuming this definition:

class Person
{
    // Not every person has a middle name. We express "no middle name" as "null"
    public string? MiddleName;
}

The usage would be:

void LogPerson(Person person)
{
    Console.WriteLine(person.MiddleName.Length);  // WARNING: may be null
    Console.WriteLine(person.MiddleName!.Length); // No warning
}

This operator basically turns off the compiler null checks for this usage.

Technical Explanation

Null Safety

C# 8.0 tries to help you manage your null-values. Instead of allowing you to assign null to everything by default, they have flipped things around and now require you to explicitly mark everything you want to be able to hold a null value.

This is a super useful feature, it allows you to avoid NullReferenceExceptions by forcing you to make a decision and enforcing it.

How it works

There are 2 states a variable can be in – when talking about null-safety.

  • Nullable – Can be null.
  • Non-Nullable – Can not be null.

Since C# 8.0 all reference types are non-nullable by default.
Value types have been non-nullable since C# 2.0!

The “nullability” can be modified by 2 new (type-level) operators:

  • ! = from Nullable to Non-Nullable
  • ? = from Non-Nullable to Nullable

These operators are counterparts to one another.
The Compiler uses the information, you define with those operators, to ensure null-safety.

Examples

? Operator usage.

This operator tells the compiler that a variable can hold a null value.

  • Nullable string? x;

    • x is a reference type – So by default non-nullable.
    • We apply the ? operator – which makes it nullable.
    • x = null Works fine.

  • Non-Nullable string y;

    • y is a reference type – So by default non-nullable.
    • y = null Generates a warning since you assign a null value to something that is not supposed to be null.

Nice to know: Using string? is syntactic sugar for System.Nullable<string>

! Operator usage.

This operator tells the compiler that something that could be null, is safe to be accessed. You express the intent to “not care” about null safety in this instance.

string x;
string? y;
  • x = y
    • Illegal! Warning: "y" may be null
    • The left side of the assignment is non-nullable but the right side is nullable.
    • So it does not work, since it is semantically incorrect
  • x = y!
    • Legal!
    • y is a reference type with the ? type modifier applied so it is nullable if not proven otherwise.
    • We apply ! to y which overrides its nullability settings to make it non-nullable
    • The right and left side of the assignment are non-nullable. Which is semantically correct.

WARNING The ! operator only turns off the compiler-checks at a type-system level – At runtime, the value may still be null.

Use carefully!

You should try to avoid using the Null-Forgiving-Operator, usage may be the symptom of a design flaw in your system since it negates the effects of null-safety you get guaranteed by the compiler.

Reasoning

Using the ! operator will create very hard to find bugs. If you have a property that is marked non-nullable, you will assume you can use it safely. But at runtime, you suddenly run into a NullReferenceException and scratch your head. Since a value actually became null after bypassing the compiler-checks with !.

Why does this operator exist then?

There are valid use-cases (outlined in detail below) where usage is appropriate. However, in 99% of the cases, you are better off with an alternative solution. Please do not slap dozens of !‘s in your code, just to silence the warnings.

  • In some (edge) cases, the compiler is not able to detect that a nullable value is actually non-nullable.
  • Easier legacy code-base migration.
  • In some cases, you just don’t care if something becomes null.
  • When working with Unit-tests you may want to check the behavior of code when a null comes through.

Ok!? But what does null! mean?

It tells the compiler that null is not a nullable value. Sounds weird, doesn’t it?

It is the same as y! from the example above. It only looks weird since you apply the operator to the null literal. But the concept is the same. In this case, the null literal is the same as any other expression/type/value/variable.

The null literal type is the only type that is nullable by default! But as we learned, the nullability of any type can be overridden with ! to non-nullable.

The type system does not care about the actual/runtime value of a variable. Only its compile-time type and in your example the variable you want to assign to LastName (null!) is non-nullable, which is valid as far as the type-system is concerned.

Consider this (invalid) piece of code.

object? null;
LastName = null!;

More Related Contents:

  1. Nullable reference types with generic return type
  2. Why does Visual Studio Type a Newly Minted Array as Nullable?
  3. Nullable reference types: How to specify “T?” type without constraining to class or struct
  4. How to enable Nullable Reference Types feature of C# 8.0 for the whole project
  5. C#’s can’t make `notnull` type nullable
  6. The annotation for nullable reference types should only be used in code within a ‘#nullable’ context
  7. Why do we get possible dereference null reference warning, when null reference does not seem to be possible?
  8. Does C# 8 support the .NET Framework?
  9. How to use .NET reflection to check for nullable reference type
  10. What are Range and Index types in C# 8?
  11. Factory for IAsyncEnumerable or IAsyncEnumerator
  12. Default Interface Methods. What is deep meaningful difference now, between abstract class and interface?
  13. Can a C# class call an interface’s default interface method from its own implementation?
  14. C# 8 switch expression with multiple cases with same result
  15. Meaning of curly braces after the “is” operator
  16. What is the difference between using and await using? And how can I decide which one to use?
  17. How can I use C# 8 with Visual Studio 2017?
  18. Calling C# interface default method from implementing class
  19. Default implementation in interface is not seen by the compiler?
  20. Why does this code give a “Possible null reference return” compiler warning?
  21. What does exclamation mark mean before invoking a method in C# 8.0? [duplicate]
  22. When should we use default interface method in C#?
  23. .net core 3 yields different floating point results from version 2.2
  24. How to implement an efficient WhenEach that streams an IAsyncEnumerable of task results?
  25. How can I check if a string exists in another string
  26. Step by step tutorial to use SAP. net Connector with VS 2008 [closed]
  27. How to serialize an Exception object in C#?
  28. Multiple/single instance of Linq to SQL DataContext
  29. What is the equivalent of Java wildcards in C# generics
  30. Using Include in Entity Framework 4 with lambda expressions

Leave a Comment