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In Dart exists two kind of types.

  1. Runtime type
  2. Static type

Here is proof in Dart language specification:

The static type of null is bottom.

  1. Runtime type of null is Null
  2. Static type of null is bottom

This mean that objects in Dart can have two kind of types.

One real type that called static and one virtual type that called runtime.

That is, runtime type of null is not a bottom but a regular class Null.

class Null {
  factory Null._uninstantiable() {
    throw new UnsupportedError('class Null cannot be instantiated');

  /** Returns the string `"null"`. */
  String toString() => "null";

But at the same time value with this regular runtime type Null can be assigned to any other type because real (static) type of the null is a bottom type.

How called this technique in Dart?

The type substitution or something different?


This question about static types of values but not about static types of variables that declared with type annotations.

This is because the null is not a variable but value with static type of bottom.


Very curious case (at least for me).

void main() {
  Null _null;
  String s = _null;

I get a warning:

A value of type 'Null' cannot be assigned to a variable of type 'String'

It is quite correct. But at the same time this works.

Сurious thing with type substitution (static and runtime).

share|improve this question
The "null canot be assigned to string" warning seems like an error (either in the analyzer, or in the specification). It is statically determinable that all values of the Null type can be assigned to a variable of type String. –  lrn Feb 19 at 10:10
@lrn I just rely on facts. –  mezoni Feb 19 at 12:43
Related issue: code.google.com/p/dart/issues/detail?id=16975 –  mezoni Feb 21 at 5:24

2 Answers 2

The runtime type of a Dart value is its class. The static type of a Dart expression is what the static type inference derives it to be, and it belongs to the world of static types. That world is larger than just the classes declared in a program. The type "bottom", the type "dynamic" and the function type "int->int" are all examples of static types that do not correspond to a class.

Or in other words: values have classes, expressions have types (just as in many other languages). There is no "static type of values" because static types exist at compile time, and values exist only at runtime [1].

The static type inference algorithm is specified in the Dart language specification. It is what it is, and all that is required of it is that it is, in some way, compatible with the runtime behavior of the program.

The static type system is a program analysis that attempts to detect likely programming errors, nothing more and nothing less. If you have a static type warning, it is considered likely, but not certain, that you have a bug. The type inference system should give few false warnings, and fail to detect few actual bugs, while also being simple enough to describe, understand and implement.

Picking "bottom" as the type of "null" is just a way to make the static type system match the "assignable" relation between types, which is what assignments check at runtime, without having to check explicitly for "Null" everywhere. It's just an algorithm that happen to give a useful result.

The static type does not exist at runtime. For example, the VM contains no implementation of the static type system at all.


[1] Well, except for compile-time constant expressions.

share|improve this answer
In computer science, a value is an expression which cannot be evaluated any further (a normal form). Your words "values have classes, expressions have types" is not correct. Also you say "There is no "static type of values" because static types exist at compile time, and values exist only at runtime". For example, the expression "1 + 2" is not a value as it can be reduced to the expression "3". And as I say "a value is an expression which cannot be evaluated any furthe". So, I not agree with you in many cases that, including "values have classes, expressions have types". –  mezoni Feb 19 at 11:59
But if you change the term value to the term instance this will be correct. But you say not instance but value. So, I'm stating a fact. you are wrong in their judgments –  mezoni Feb 19 at 12:03
"Picking" bottom "as the type of" null "is just a way ...". This is a right way. But make Null class visible for user code is wrong. It must be internal type or private class _Null. This will automatically remove all the questions why you went for a compromise because in this case expression value is Null will be not possible due visibility protection level of this class (or type, if it will be internal type). –  mezoni Feb 19 at 12:25
If all you have is syntax, then values are expressions. For rewrite semantics, that is what you get. If you have a denotational semantics, then your syntax and your values may live in different domains. –  lrn Feb 19 at 13:54
I am not about semantics. I am about syntax. What semantic we will get when use this syntax? Your compromise make that the with the correct syntax (that identical for all kind of objects) we get different semantics with some kinds of objects. In our case with null value and Null class. But if with null value we have no problem than with public Null class with have different semantics than with all other simalar classes. Where in source code we can see that class Null is a bottom type? Nowhere. I can call this as compromise (different) semantics with the same syntax in source code!!! –  mezoni Feb 19 at 14:09

When you declare a class and write type annotations this are static types. As type annotations are not used at runtime you can assign a value of type Foo to a variable of type Bar. Even if the static type is Foo the runtime type is Bar.

Might be wrong. I haven't taken a closer look at those matters yet.

share|improve this answer
Please, give me example that will be work in checked mode (as with null). Also, if you not know we add annotations to variables (value storages) but not to the values. The null is not declared as the variable. It is a value of some type (value of bottom type). You say "Even if the static type is Foo the runtime type is Bar". Static type of what? Static type of value or static type of variable? I ask the question about static types of values but not about static types of variables. This is very different concepts Remember that null is not a variable (storage), it just a value (rvalue). –  mezoni Feb 19 at 5:50

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