This is what I want I am trying to parse
type Number(); // define a type called "Number" with no member variables type Point(Number x, Number y); // define a type called Point with member variables // and something with generic types type Pair[T, V](T first, V second); // and even something cyclic: type LinkedList[T](T payload, LinkedList[T] rest);
And here's my xtext grammar that allows it:
TypeDecl returns SSType: 'type' name=TypeName ('[' typeParams += TypeName (',' typeParams += TypeName)* ']')? '(' (args += Arg (',' args += Arg)*)? ')' ';' ; TypeName returns SSTypeName: name=ID ; Type: tn = [SSTypeName] ('[' typeParams += Type (',' typeParams += Type)* ']')? ; Arg: type = Type argName = ID ;
Which works, but is way too liberal in what it accepts. If something is declared as a generic (e.g. the LinkedList in the above example) it should only be valid to use it as a generic (e.g.
LinkedList[Number] and not
LinkedList) and ideally the arity of the type arguments would be enforced.
And of course, if something is declared to not be a generic type (e.g. Number), it shouldn't be valid to give it type arguments.
Example of stuff it will wrongly accept:
type Wrong1(Number[Blah] a); // number doesn't have type arguments type Wrong2(Pair a); // Pair has type arguments type Wrong3(Pair[Number, Number, Number] a); // wrong arity
Any suggestions, comments, code or tips on how to do this properly would be much appreciated.