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I have heard of the new Dart null safety language feature (NNBD), currently the "'non-nullable' experiment". It is supposed to introduce non-nullable by default.

The feature specification can be found here and the language GitHub issue here.

How does it work and where can I try it?

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Null safety / non-nullable (by default)

The null safety / non-nullable (by default), short NNBD, feature can currently be found at nullsafety.dartpad.dev.
Keep in mind that you can read the full spec here and full roadmap here. Now, sound null safety has also been officially announced for Dart.


What does non-nullable by default mean?

void main() {
  String word;
  print(word); // illegal

  word = 'Hello, ';
  print(word); // legal
}

As you can see above, a variable being non-nullable by default means that every variable that is declared normally cannot be null. Consequently, any operation accessing the variable before it has been assigned is illegal.
Additionally, assigning null to a non-nullable variable is also not allowed:

void main() {
  String word;
  
  word = null; // forbidden
  world = 'World!'; // allowed
}

How does this help me?

If a variable is non-nullable, you can be sure that it is never null. Because of that, you never need to check it beforehand.

int number = 4;

void main() {
  if (number == null) return; // redundant

  int sum = number + 2; // allowed because number is also non-nullable
}

Remember

Instance fields in classes must be initialized if they are not nullable:

class Foo {
  String word; // forbidden

  String sentence = 'Hello, World!'; // allowed
}

See late below to modify this behavior.

Nullable types (?)

You can use nullable types by appending a question mark ? to a variable type:

class Foo {
  String word; // forbidden

  String? sentence; // allowed
}

A nullable variable does not need to be initialized before it can be used. It is initialized as null by default:

void main() {
  String? word;
  
  print(word); // prints null
}

!

Appending ! to any variable e will throw a runtime error if e is null and otherwise convert it to a non-nullable value v.

void main() {
  int? e = 5;
  int v = e!; // v is non-nullable; would throw an error if e were null

  String? word;
  print(word!); // throws runtime error if word is null

  print(null!); // throws runtime error
}

late

The keyword late can be used to mark variables that will be initialized later, i.e. not when they are declared but when they are accessed. This also means that we can have non-nullable instance fields that are initialized later:

class ExampleState extends State {
  late final String word; // non-nullable

  @override
  void initState() {
    super.initState();

    // print(word) here would throw a runtime error
    word = 'Hello';
  }
}

Accessing word before it is initialized will throw a runtime error.

late final

Final variables can now also be marked late:

late final int x = heavyComputation();

Here heavyComputation will only be called once x is accessed. Additionally, you can also declare a late final without an initializer, which is the same as having just a late variable, but it can only be assigned once.

late final int x;
// w/e
x = 5; // allowed
x = 6; // forbidden

Note that all top-level or static variables with an initializer will now be evaluated late, no matter if they are final.

required

Formerly an annotation (@required), now built-in as a modifier. It allows to mark any named parameter (for functions or classes) as required, which makes them non-nullable:

void allowed({required String word}) => null;

This also means that if a parameter should be non-nullable, it needs to be marked as required or have a default value:

void allowed({String word = 'World'}) => null;

void forbidden({int x}) // compile-time error because x can be null (unassigned)
    =>
    null;

Any other named parameter has to be nullable:

void baz({int? x}) => null;

?[]

The null aware ?[] operator was added for the index operator []:

void main() {
  List<int>? list = [1, 2, 3];

  int? x = list?[0]; // 1
}

See also this article about the syntax decision.

?..

The cascade operator now also has a new null aware operator: ?...

It causes the following cascade operations to only be executed if the recipient is not null. Therefore, the ?.. has to be the first cascade operator in a cascade sequence:

void main() {
  Path? path;

  // Will not do anything if path is null.
  path
    ?..moveTo(3, 4)
    ..lineTo(4, 3);

  // This is a noop.
  (null as List)
    ?..add(4)
    ..add(2)
    ..add(0);
}

Never

To avoid confusion: this is not something that developers have to worry about. I want to mention it for the sake of completeness.

Never is going to be a type like the previously existing Null (not null) defined in dart:core. Both of these classes cannot be extended, implemented, or mixed in, so they are not intended to be used.

Essentially, Never means that no type is allowed and Never itself cannot be instantiated.
Nothing but Never in a List<Never> satisfies the generic type constraint of the list, which means that it has to be empty. List<Null>, however, can contain null:

// Only valid state: []
final neverList = <Never>[
  // Any value but Never here will be an error.
  5, // error
  null, // error

  Never, // not a value (compile-time error)
];

// Can contain null: [null]
final nullList = <Null>[
  // Any value but Null will be an error.
  5, // error
  null, // allowed

  Never, // not a value (compile-time error)
  Null, // not a value (compile-time error)
];

Example: the compiler will infer List<Never> for an empty const List<T>.
Never is not supposed to be used by programmers as far as I am concerned.

| improve this answer | |
  • 5
    Can you give some scenarios where Never can be used? – Ramses Aldama Feb 5 at 3:46
  • 2
    We have actually decided to use "?[]" for the null-aware index operator instead of "?.[]". The latter is a little more complex grammatically, but it's what users want. – munificent Feb 5 at 3:58
  • @RamsesAldama I have added something. The specification I linked to mentions more. – creativecreatorormaybenot Feb 5 at 9:12
  • 1
    It should be pointed out that late final on a member or instance variable only checks at runtime. It is not possible to check for that at development time or compile time because of the halting problem. So you will not get IDE help with it. – Graham Feb 7 at 15:02
  • 1
    Is there a way to compile code now with non-nullables by default, or the Dartpad is the only place where this can be tried? – nbloqs Feb 10 at 13:46

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