In the following example, main is allowed to call a sniff function on Dog that I would prefer would somehow break. If I say exactly what a Dog can do, but somehow the client knows more and can get the object to do more with that special knowledge - I think that is an encapsulation leak. I don't necessarily want it to die in the general case, but is there a flag or way to run that would enforce that only methods be called if they exist. I know the language supports the knowledge that something is wrong since the Dart Editor displays a warning: The method 'sniff' is not defined for the class 'Dog'. Even when run with --checked flag, this runs fine.

So suppose similar code were invoked by a test. Is there a flag in Dart or some code to cause it to fail when the test is run?

abstract class Dog {
  void run();
  void bark();

class BigDog implements Dog {
  void run() => print("Big dog running");
  void bark() => print("Woof");
  void sniff() => print("Sniff");

main() {
  Dog bd = new BigDog();
  • What's wrong with restricting the scope to the library? void _sniff()
    – MarioP
    Aug 7, 2013 at 7:39
  • sniff is bad example, I should have used something only big dogs do. But, using private _sniff does not address the general problem. It's like saying, "here is a nice interface, go make all the derivatives you want, just make sure all methods you add are private". I don't want to stop the world from sniffing, just base Dog instances. The reason this came up is I had some thorough tests that were all passing, but I use emacs. I loaded project into Dart Editor and found the issues. I don't want to change the language, just automate a requirement for 0 or near 0 analysis warnings. Aug 7, 2013 at 12:13

2 Answers 2


You should ensure to run the tests in checked mode dart -c testfile.dart then type annotations are taken into account. You shouldn't use checked mode in production though because it slows down your application.


This isn't possible. The problem is that your instance really is a BigDog; and therefore it really has a sniff method. An important goal in Dart is that type annotations do not affect runtime behaviour; therefore your Dog annotation is unable to change the behaviour.

The tooling is able to highlight this because it does use the type annotations.

This sort of question comes up a lot in the Dart bug tracker; but it would be a pretty fundamental change to allow type annotations to change behaviour, so it's not something I expect would ever be considered; confusing as it might be. See here for some more info on this.

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