lci/lib/miniFun/TypeChecker.ml

module Utility = Utility
open Types;;

Random.self_init ()

let rec evaluate_type (program: t_exp) context =
  match program with
    Integer _ -> IntegerType
  | Boolean _ -> BooleanType
  | Variable x -> (match VariableMap.find_opt x context with
        None -> raise (AbsentAssignment ("The variable " ^ x ^ " is not defined."))
      | Some t -> t)
  | Function (xs, typef, fbody) -> (
      match typef with
        FunctionType (tin, tout) -> (
          if List.length xs != List.length tin then
            raise (WrongTypeSpecification "Type specification for function has wrong arity.")
          else
            let context1 = List.fold_left2 (fun acc x t -> VariableMap.add x t acc) context xs tin in
            match (evaluate_type fbody context1 = tout) with
              (false) -> raise (WrongTypeSpecification "Function does not return specified type.")
            | (true) -> typef
        )
      | _ -> raise (WrongTypeSpecification "Specification of function is not a function type.")
    )
  | Application (f, xs) -> (
      match evaluate_type f context with
        FunctionType (tin, tout) -> (
          let rec helper params typeparams =
            match (params, typeparams) with
              ([], _) -> typeparams
            | (_, []) -> raise (WrongArity ("Function application has arity " ^
                                             (List.length tin |> string_of_int) ^
                                             ", but was applied to " ^
                                             (List.length xs |> string_of_int) ^
                                             " parameters"))
            | (p::tlparams, v::tltypeparams) ->
              if evaluate_type p context = v then
                helper tlparams tltypeparams
              else
                raise (WrongType "Argument with wrong type.")
          in
          match helper xs tin with
            [] -> tout
          | t -> FunctionType (t, tout)
        )
      | _ -> raise (WrongType "Applying to a non function type")
    )
  | Plus (x, y)
  | Minus (x, y)
  | Times (x, y)
  | Division (x, y)
  | Modulo (x, y)
  | Power (x, y) -> (
      match (evaluate_type x context, evaluate_type y context) with
      | (IntegerType, IntegerType) -> IntegerType
      | (IntegerType, _) -> raise (WrongType "Second term is not an integer.")
      | (_, _) -> raise (WrongType "First term is not an integer.")
    )
  | PowerMod (x, y, z) -> (
      match (evaluate_type x context, evaluate_type y context, evaluate_type z context) with
      | (IntegerType, IntegerType, IntegerType) -> IntegerType
      | (IntegerType, IntegerType, _) -> raise (WrongType "Third term is not an integer.")
      | (IntegerType, _, _) -> raise (WrongType "Second term is not an integer.")
      | (_, _, _) -> raise (WrongType "First term is not an integer.")
    )
  | Rand (x) -> (
      match (evaluate_type x context) with
      | (IntegerType) -> IntegerType
      | (_) -> raise (WrongType "Term is not an integer.")
    )
  | BAnd (x, y)
  | BOr (x, y) -> (
      match (evaluate_type x context, evaluate_type y context) with
      | (BooleanType, BooleanType) -> BooleanType
      | (BooleanType, _) -> raise (WrongType "Second term is not a boolean.")
      | (_, _) -> raise (WrongType "First term is not a boolean.")
    )
  | BNot (x) -> (
      match (evaluate_type x context) with
      | (BooleanType) -> BooleanType
      | (_) -> raise (WrongType "Term is not a boolean.")
    )
  | Cmp (x, y)
  | CmpLess (x, y)
  | CmpLessEq (x, y)
  | CmpGreater (x, y)
  | CmpGreaterEq (x, y) -> (
      match (evaluate_type x context, evaluate_type y context) with
      | (IntegerType, IntegerType) -> BooleanType
      | (IntegerType, _) -> raise (WrongType "Second term is not an integer.")
      | (_, _) -> raise (WrongType "First term is not an integer.")
    )
  | IfThenElse (guard, if_exp, else_exp) -> (
      match (evaluate_type guard context, evaluate_type if_exp context, evaluate_type else_exp context) with
        (BooleanType, t1, t2) -> (
          if t1 = t2 then
            t1
          else
            raise (WrongType "If branches do not have the same type.")
        )
      | (_, _, _) -> raise (WrongType "If guard is not a boolean.")
    )
  | LetIn (x, xval, rest) ->
    let typex = evaluate_type xval context in
    evaluate_type rest (VariableMap.add x typex context)
  | LetFun (f, xs, typef, fbody, rest) ->
    match typef with
      FunctionType (tin, tout) -> (
        if List.length xs != List.length tin then
          raise (WrongArity "Type specification for function has wrong arity.")
        else
          let context1 = VariableMap.add f typef context in
          let context2 = List.fold_left2 (fun acc x t -> VariableMap.add x t acc) context1 xs tin in
          match (evaluate_type fbody context2 = tout, evaluate_type rest context1) with
            (false, _) -> raise (WrongTypeSpecification "Function does not return specified type."
            )
          | (true, t) -> t
      )
    | _ -> raise (WrongTypeSpecification "Specification of function is not a function type.")

let typecheck (program: t_exp) =
  match evaluate_type program VariableMap.empty with
    FunctionType ([IntegerType], IntegerType) -> true
  | _ -> raise (WrongType "Program is not a function from int to int.")