Entry : temp += (Expression | Declaration | UserType)* ; Declaration : Type '*' name=ID ';' ; Expression : temp1 = Primary ('*' temp2 += Primary)* ';' ; Primary : temp1 = INT | temp2 = [Declaration] ; Type : temp1 = SimpleType | temp2 = [UserType] ; SimpleType : 'int' | 'long' ; UserType : 'typedef' name=ID ';' ;
Expression are ambiguous due to the fact that both rules share the exact same syntax and problems occur because both cross references
[Declaration] as well as
[UserType] are based on the terminal rule
Therefore generating code for the grammar above will throw the ANTLR warning:
Decision can match input such as "RULE_ID '*' RULE_ID ';'" using multiple alternatives: 1, 2
I would like the rule to be chosen which was able to resolve the cross reference first.
Assume the following:
typedef x; int* x; int* b;
The AST for
should look something like:
x = Entry -> Expression -> Primary (temp1) -> [Declaration] -> Stop! * = Entry -> Expression -> Primary '*' -> Stop! b = Entry -> Expression -> Primary (temp2) -> [Declaration] -> Stop!
Entry -> Declaration
should never be considered, since
Entry -> Expression -> [Declaration]
could already validate the cross reference
Because we do not have semantic predicates in Xtext (or am I wrong?), is there a way to validate a cross reference and explicitly choose that rule based on that validation?
PS: As a few might already know, this problem stems from the C language which I am trying to implement with Xtext.