In your grammar a single id can either be matched by the production
Expr ::= id or
Expr ::= id Expr*. In other words there's no way to distinguish between a nullary function application (assuming the
id Expr* production is supposed to match function applications) and variables. Maybe you meant
id Expr+ instead (disallowing nullary function applications).
Your existing code looks fine, but it's incomplete:
expr type is missing a constructor for the
id Expr* production of the grammar, i.e. you're missing a constructor that represents function applications. You should add one and then add a case for it to the
evaluate function as well.
evaluate function you're missing a case for the
Id constructor. That case should lookup the value of the given identifier in a mapping from identifiers to values (ints). To that end your
evaluate function should take such a mapping as an additional argument. It should also take another mapping from identifiers to functions, which you can then use to loop up function names in the case for function applications.
Speaking of those mappings, you currently don't have any code to represent or process definitions. You should come up with a type to represent a definition and another to represent functions. The latter type should contain the name of the function parameters and the body as an
Then you should write a function that takes a list of definitions and creates the mappings for variables and functions. For each variable definition it should evaluate the expression on the right and add the resulting values to your variable mapping. For each function definition, you should add a value of your function type to the function mapping. After processing the definitions, you should evaluate the final expression by calling your
evaluate function with that expression and the two mappings you created as arguments.
Finally you don't have any code for actually parsing the program, but I think that might be intentional.