I've noticed it's possible to create a const constructor in Dart. In the documentation, it says that const word is used to denote something a compile time constant.

I was wondering what happens when I use a const constructor to create an object. Is this like an immutable object which is always the same and available at compile time? How does the concept of const constructor actually work? How is a const constructor different from a "regular" constructor?


Const constructor creates a "canonicalized" instance.

That is, all constant expressions begin canonicalized, and later these "canonicalized" symbols are used to recognize equivalence of these constants.


A process for converting data that has more than one possible representation into a "standard" canonical representation. This can be done to compare different representations for equivalence, to count the number of distinct data structures, to improve the efficiency of various algorithms by eliminating repeated calculations, or to make it possible to impose a meaningful sorting order.

This means that const expressions like const Foo(1, 1) can represent any usable form that is useful for comparison in virtual machine.

The VM only needs to take into account the value type and arguments in the order in which they occur in this const expression. And, of course, they are reduced for optimization.

Constants with the same canonicalized values:

var foo1 = const Foo(1, 1); // #Foo#int#1#int#1
var foo2 = const Foo(1, 1); // #Foo#int#1#int#1

Constants with different canonicalized values (because signatures differ):

var foo3 = const Foo(1, 2); // $Foo$int$1$int$2
var foo4 = const Foo(1, 3); // $Foo$int$1$int$3

var baz1 = const Baz(const Foo(1, 1), "hello"); // $Baz$Foo$int$1$int$1$String$hello
var baz2 = const Baz(const Foo(1, 1), "hello"); // $Baz$Foo$int$1$int$1$String$hello

Constants are not recreated each time. They are canonicalized at compile time and stored in special lookup tables (where they are hashed by their canonical signatures) from which they are later reused.


The form #Foo#int#1#int#1 used in these samples is only used for comparison purposes and it is not a real form of canonicalization (representation) in Dart VM;

But the real canonicalization form must be "standard" canonical representation.

  • It would also be interesting to see a discussion of constants semantics around subclassing, inheritance, etc. – Tom Russell Jul 8 '15 at 21:36

I find Lasse's answer on Chris Storms blog a great explanation.

Dart Constant Constructors

I hope they don't mind that I copy the content.

This is a fine explanation of final fields, but it doesn't really explain const constructors. Nothing in these examples actually use that the constructors are const constructors. Any class can have final fields, const constructors or not.

A field in Dart is really an anonymous storage location combined with an automatically created getter and setter that reads and updates the storage, and it can also be initialized in a constructor's initializer list.

A final field is the same, just without the setter, so the only way to set its value is in the constructor initializer list, and there is no way to change the value after that - hence the "final".

The point of const constructors is not to initialize final fields, any generative constructor can do that. The point is to create compile-time constant values: Objects where the all field values are known already at compile time, without executing any statements.

That puts some restrictions on the class and constructor. A const constructor can't have a body (no statements executed!) and its class must not have any non-final fields (the value we "know" at compile time must not be able to change later). The initializer list must also only initialize fields to other compile-time constants, so the right-hand sides are limited to "compile-time constant expressions"[1]. And it must be prefixed with "const" - otherwise you just get a normal constructor that happens to satisfy those requirements. That is perfectly fine, it's just not a const constructor.

In order to use a const constructor to actually create a compile-time constant object, you then replace "new" with "const" in a "new"-expression. You can still use "new" with a const-constructor, and it will still create an object, but it will just be a normal new object, not a compile-time constant value. That is: A const constructor can also be used as a normal constructor to create objects at runtime, as well as creating compile-time constant objects at compilation time.

So, as an example:

class Point { 
  static final Point ORIGIN = const Point(0, 0); 
  final int x; 
  final int y; 
  const Point(this.x, this.y);
  Point.clone(Point other): x = other.x, y = other.y; //[2] 

main() { 
  // Assign compile-time constant to p0. 
  Point p0 = Point.ORIGIN; 
  // Create new point using const constructor. 
  Point p1 = new Point(0, 0); 
  // Create new point using non-const constructor.
  Point p2 = new Point.clone(p0); 
  // Assign (the same) compile-time constant to p3. 
  Point p3 = const Point(0, 0); 
  print(identical(p0, p1)); // false 
  print(identical(p0, p2)); // false 
  print(identical(p0, p3)); // true! 

Compile-time constants are canonicalized. That means the no matter how many times you write "const Point(0,0)", you only create one object. That may be useful - but not as much as it would seem, since you can just make a const variable to hold the value and use the variable instead.

So, what are compile-time constants good for anyway?

  • They are useful for enums.
  • You can use compile-time constant values in switch cases.
  • They are used as annotations.

Compile-time constants used to be more important before Dart switched to lazily initializing variables. Before that, you could only declare an initialized global variable like "var x = foo;" if "foo" was a compile-time constant. Without that requirement, most programs can be written without using any const objects

So, short summary: Const constructors are just for creating compile-time constant values.


[1] Or really: "Potentially compile-time constant expressions" because it may also refer to the constructor parameters. [2] So yes, a class can have both const and non-const constructors at the same time.

This topic was also discussed in https://github.com/dart-lang/sdk/issues/36079 with some interesting comments.

  • Is it better in terms of performance? – Faris Nasution Feb 13 '14 at 10:33
  • AFAIK const and final allow to generate more optimized JS. – Günter Zöchbauer Feb 13 '14 at 10:35
  • 2
    They are also useful for default-values in method signatures. – Florian Loitsch Feb 13 '14 at 10:50
  • Can anyone explain to me that how does this line work? Point.clone(Point other): x = other.x, y = other.y; – Dennis Jul 3 '18 at 3:46
  • 1
    const is a nice performance win for Flutter widgets according to medium.com/@mehmetf_71205/inheriting-widgets-b7ac56dbbeb1 "Use const to build your widgets Without const, selective rebuilding of the sub-tree does not happen. Flutter creates a new instance of each widget in the sub-tree and calls build() wasting precious cycles especially if your build methods are heavy." – David Chandler Nov 11 '18 at 5:58

An example demo that const instance really decide by final field.
And in this case, it cannot be predict in compile-time.

import 'dart:async';

class Foo {
  final int i;
  final int j = new DateTime.now().millisecond;
  const Foo(i) : this.i = i ~/ 10;

  toString() => "Foo($i, $j)";

void main() {
  var f2 = const Foo(2);
  var f3 = const Foo(3);

  print("f2 == f3 : ${f2 == f3}"); // true
  print("f2 : $f2"); // f2 : Foo(0, 598)
  print("f3 : $f3"); // f3 : Foo(0, 598)

  new Future.value().then((_) {
    var f2i = const Foo(2);
    print("f2 == f2i : ${f2 == f2i}"); // false
    print("f2i : $f2i"); // f2i : Foo(0, 608)

Now dart will check it.

Dart Analysis:

[dart] Can't define the 'const' constructor because the field 'j' is initialized with a non-constant value

Runtime Error:

/main.dart': error: line 5 pos 17: expression is not a valid compile-time constant final int j = new DateTime.now().millisecond;

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