6

I created a literal map of closures, something like:

Map<String, Function> mapOfFuncs = {
  'foo': (a, b, c) => ... ,
  'bar': (a, b, c) => ... ,
   ...
}

All good so far. Then I wanted to make this map const, as it is global within my program and should never be modified.

const Map<String, Function> MAP_OF_FUNCS = const {
  'foo': (a, b, c) => ... ,
  'bar': (a, b, c) => ... ,
   ...
}

Dart chokes on this as the literal closures in the map are not const.

On Dartpad: https://dartpad.dartlang.org/817d2cfd141b0a56fc7d

I would have thought that literal closures are const. Is there a way to make them so?

6

Closures aren't supported in const expressions. There is an open issue https://github.com/dart-lang/sdk/issues/4596 and https://github.com/Pajn/dep-const-function-literals/issues/1

If you create static functions instead, you can reference them in const map literals,but you currently can't define them inline.

  • Great finding, i placed callback comments into the issues so the correct answers might be pushed in the future by the authors. Otherwise keep pulling the information ;) – isaias-b Feb 22 '16 at 21:10
7

I suspect this might not be possible, take a look at this code:

int test1(int a, int b, int c) {
  return a;
}
int test2(final int a, final int b, final int c) {
  return a;
}

const Function f1 = test1;
const Function f2 = (final a,b,c) => a;

const Map<String, Function> MAP_OF_FUNCS = const {
  'foo': test1,
  'fam': test2,
  'bam': f1,
  'bar': f2
};

Only the first two versions referencing the static method references test1 and test2 work in this constellation. Even f1 produces a compilation error, UPDATE but compiles using dartJS as @irn from the comments pointed out. Then it is unclear why the version with f2 doesn't work.

So probably it is the assignment operator which is not able to produce a statically compiled reference for a given constant lambda expression or a static method reference for its RHS (right hand side) argument.

The documentation pointed me in testing the static const combination, but this generally only works on non top level elements like class members. Thus adding a new class makes it possible to test this.

class A {
  static const Function a1 = test1;
  static const Function a2 = (final a, final b, final c) => a;
}
const Map<String, Function> MAP_OF_FUNCS = const {
  'foo': A.a1,
  'bar': A.a2
};

However, these function definitions are valid but assigning it to the map fails as before. The documentation about maps under the built in types section shows how to create a compile time constant map using the final keyword.

final constantMap = const {
  2: 'helium',
  10: 'neon',
  18: 'argon',
};

Unfortunately, this approach has the same drawback. It might corellate with the minification limitations of symbols:

A Symbol object represents an operator or identifier declared in a Dart program. You might never need to use symbols, but they’re invaluable for APIs that refer to identifiers by name, because minification changes identifier names but not identifier symbols. ... Symbol literals are compile-time constants.

For more information on symbols, see dart:mirrors - reflection.

Maybe someone else has a better idea, but for me this seems not possible for the moment.

  • 1
    The f1 constant should be constant, and dart2js has no problem compiling it, so it seems like an analyzer bug to get a warning for it. – lrn Feb 22 '16 at 12:41
  • @lrn Updated the answer. – isaias-b Feb 22 '16 at 21:12
  • The reason f2 doesn't work is that a function expression is not a compile-time constant expression. The specification lists the possible compile-time constant expressions, and function expressions are not among them, and the initializer expression of a const variable must be a compile-time constant expression. – lrn Feb 24 '16 at 11:49

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