lci/test/testingTypeFun.ml

open Lang.MiniTyFun
open Lang.MiniFunTypes

(* -------------------------------------------------------------------------- *)
(* Error absent assignment program *)

let program =
  Function
    (["a"],
     FunctionType ([IntegerType], IntegerType),
     Variable "x"
    )
;;

match typecheck program with
  Error (`AbsentAssignment _) -> Printf.printf "Error absent assignment program: error (success)\n"
| _ -> Printf.printf "Error absent assignment program: failed\n"

(* -------------------------------------------------------------------------- *)
(* Error wrong arity program *)

let program =
  Function
    (["a"],
     FunctionType ([IntegerType; IntegerType], IntegerType),
     (Variable "a")
    )
;;

match typecheck program with
  Error (`WrongTypeSpecification _) -> Printf.printf "Error wrong arity program 1: error (success)\n"
| _ -> Printf.printf "Error wrong arity program 1: failed\n"

let program =
  LetFun
    ("f",
     ["a"; "b"],
     FunctionType ([IntegerType; IntegerType], IntegerType),
     (Variable "a"),
     Function (["x"], FunctionType ([IntegerType], IntegerType), Application (Variable "f", [Integer 1; Integer 2; Variable "x"]))
    )
;;

match typecheck program with
  Error (`WrongArity _) -> Printf.printf "Error wrong arity program 2: error (success)\n"
| _ -> Printf.printf "Error wrong arity program 2: failed\n"

(* -------------------------------------------------------------------------- *)
(* Error wrong return type program *)

let program =
  Function
    (["a"],
     FunctionType ([IntegerType], BooleanType),
     (Variable "a")
    )
;;

match typecheck program with
  Error (`WrongTypeSpecification _) -> Printf.printf "Error wrong return type program: error (success)\n"
| _ -> Printf.printf "Error wrong return type program: failed\n"

(* -------------------------------------------------------------------------- *)
(* Error wrong specification program *)

let program =
  Function
    (["a"],
     IntegerType,
     (Variable "a")
    )
;;

match typecheck program with
  Error (`WrongTypeSpecification _) -> Printf.printf "Error wrong specification program: error (success)\n"
| _ -> Printf.printf "Error wrong specification program: failed\n"

(* -------------------------------------------------------------------------- *)
(* Error wrong input type program *)

let program =
  Application (
    Function
      (["a"; "b"],
       FunctionType ([IntegerType; IntegerType], IntegerType),
       (Variable "a")
      ),
    [Boolean false]
  )
;;

match typecheck program with
  Error (`WrongType _) -> Printf.printf "Error wrong input type program: error (success)\n"
| _ -> Printf.printf "Error wrong input type program: failed\n"

(* -------------------------------------------------------------------------- *)
(* Error not a function program *)

let program =
  Application (
    Integer 0,
    [Boolean false]
  )
;;

match typecheck program with
  Error (`WrongType _) -> Printf.printf "Error not a function program: error (success)\n"
| _ -> Printf.printf "Error not a function program: failed\n"

(* -------------------------------------------------------------------------- *)
(* Error if branches with different types program *)

let program =
  Function (
    ["x"],
    FunctionType ([IntegerType], IntegerType),
    IfThenElse (Cmp (Integer 1, Integer 2), Boolean true, Integer 1)
  )
;;

match typecheck program with
  Error (`WrongType _) -> Printf.printf "Error if branches with different types program: error (success)\n"
| _ -> Printf.printf "Error if branches with different types program: failed\n"

(* -------------------------------------------------------------------------- *)
(* Error if guard is not a boolean program *)

let program =
  Function (
    ["x"],
    FunctionType ([IntegerType], IntegerType),
    IfThenElse (Integer 1, Integer 2, Integer 1)
  )
;;

match typecheck program with
  Error (`WrongType _) -> Printf.printf "Error if guard is not a boolean program: error (success)\n"
| _ -> Printf.printf "Error if guard is not a boolean program: failed\n"


(* -------------------------------------------------------------------------- *)
(* Identity program *)
let program =
  Function
    (["a"],
     FunctionType ([IntegerType], IntegerType),
     (Variable "a")
    )
;;

match typecheck program with
  Ok _ -> Printf.printf "Identity program: success\n"
| _ -> Printf.printf "Identity program: failed\n"

(* -------------------------------------------------------------------------- *)
(* Constant program *)
let program =
  Function
    (["a"],
     FunctionType ([IntegerType], IntegerType),
     (Integer 1)
    )
;;

match typecheck program with
  Ok _ -> Printf.printf "Constant program: success\n"
| _ -> Printf.printf "Constant program: failed\n"

(* -------------------------------------------------------------------------- *)
(* Partial application of function program *)
let program =
  LetIn
    ("f",
     (Function (["x"; "y"],
                FunctionType ([IntegerType; IntegerType], IntegerType),
                Plus (Variable "x", Variable "y"))),
     (Application (Variable "f", [Integer 3]))
    )
;;

match typecheck program with
  Ok _ -> Printf.printf "Partial application of function program 1: success\n"
| _ -> Printf.printf "Partial application of function program 1: failed\n"

(* -------------------------------------------------------------------------- *)
(* Partial application of function program *)
let program =
  LetFun
    ("f",
     ["x"],
     FunctionType ([IntegerType], FunctionType ([IntegerType], IntegerType)),
     (Function (["y"],
                FunctionType ([IntegerType], IntegerType),
                Plus (Variable "x", Variable "y"))),
     (Application (Variable "f", [Integer 3]))
    )
;;

match typecheck program with
  Ok _ -> Printf.printf "Partial application of function program 2: success\n"
| _ -> Printf.printf "Partial application of function program 2: failed\n"

(* -------------------------------------------------------------------------- *)
(* Passing functions to functions program *)
let program =
  LetIn
    ("f",
     (Function (
         ["z"],
         FunctionType ([FunctionType ([IntegerType], IntegerType)], FunctionType ([FunctionType ([IntegerType], IntegerType)], FunctionType ([IntegerType], IntegerType))),
         (Function (
             ["y"],
             FunctionType ([FunctionType ([IntegerType], IntegerType)], FunctionType ([IntegerType], IntegerType)),
             Function (
               ["x"],
               FunctionType ([IntegerType], IntegerType),
               (IfThenElse (
                   CmpLess (Variable "x", Integer 0),
                   (Application (Variable "y", [Variable "x"])),
                   (Application (Variable "z", [Variable "x"]))
                 )))
           ))
       )),
     (Application
        (
          (Application
             (Variable "f",
              [Function (["x"], FunctionType ([IntegerType], IntegerType), Plus (Variable "x", Integer 1))]
             )
          ),
          [Function (["x"], FunctionType ([IntegerType], IntegerType), Minus (Variable "x", Integer 1))]
        )
     )
    )
;;

match typecheck program with
  Ok _ -> Printf.printf "Passing functions to functions program: success\n"
| _ -> Printf.printf "Passing functions to functions program: failed\n"

(* -------------------------------------------------------------------------- *)
(* Recursive function program *)
let program =
  LetFun
    ("f",
     ["x"],
     FunctionType ([IntegerType], IntegerType),
     (IfThenElse (CmpLess (Variable "x", Integer 2),Integer 1, Plus (Variable "x", Application (Variable "f", [Minus (Variable "x", Integer 1)])))),
     (Variable "f")
    )
;;

match typecheck program with
  Ok _ -> Printf.printf "Recursive function program: success\n"
| _ -> Printf.printf "Recursive function program: failed\n"

(* -------------------------------------------------------------------------- *)
(* Scope program *)
let program =
  LetIn
    ("f",
     (LetIn ("a", Integer 1, (Function (["y"], FunctionType ([IntegerType], IntegerType), Plus (Variable "y", Variable "a"))))),
     (LetIn ("a", Integer 2, Variable "f"))
    )
;;

match typecheck program with
  Ok _ -> Printf.printf "Scope program: success\n"
| _ -> Printf.printf "Scope program: failed\n"

(* -------------------------------------------------------------------------- *)
(* Factorial program *)
let program =
  LetFun (
    "f",
    ["x"],
    FunctionType ([IntegerType], IntegerType),
    (IfThenElse (CmpLessEq (Variable "x", Integer 0), Integer 1, Times (Variable "x", Application (Variable "f", [Minus (Variable "x", Integer 1)])))),
    (Variable "f")
  )
;;

match typecheck program with
  Ok _ -> Printf.printf "Factorial program: success\n"
| _ -> Printf.printf "Factorial program: failed\n"

(* -------------------------------------------------------------------------- *)
(* Hailstone sequence's lenght program *)

let program =
  LetFun (
    "collatz",
    ["n"; "count"],
    FunctionType ([IntegerType; IntegerType], IntegerType),
    (
      IfThenElse (BNot (Cmp (Variable "n", Integer 1)),
                  (IfThenElse (Cmp (Modulo (Variable "n", Integer 2), Integer 0),
                               Application (Variable "collatz", [Division (Variable "n", Integer 2); Plus (Integer 1, Variable "count")]),
                               Application (Variable "collatz", [(Plus (Integer 1, Times (Integer 3, Variable "n"))); Plus (Integer 1, Variable "count")]))),
                 (Variable "count"))
    ),
    (Function (["x"],
               FunctionType ([IntegerType], IntegerType),
               Application (Variable "collatz", [Variable "x"; Integer 1])))
  )
;;

match typecheck program with
  Ok _ -> Printf.printf "Hailstone sequence's lenght program: success\n"
| _ -> Printf.printf "Hailstone sequence's lenght program: failed\n"

(* -------------------------------------------------------------------------- *)
(* Sum multiples of 3 and 5 program *)

let program =
  LetFun (
    "sum",
    ["n"],
    FunctionType ([IntegerType], IntegerType),
    (IfThenElse ((BOr (Cmp (Modulo (Variable "n", Integer 3), Integer 0), Cmp (Modulo (Variable "n", Integer 5), Integer 0))),
                 Plus (Variable "n", Application (Variable "sum", [Minus (Variable "n", Integer 1)])),
                 (IfThenElse ((CmpLessEq (Variable "n", Integer 1)),
                              (Integer 0),
                              (Application (Variable "sum", [Minus (Variable "n", Integer 1)])))
                 ))
    ),
    (Variable "sum")
  )
;;

match typecheck program with
  Ok _ -> Printf.printf "Sum multiples of 3 and 5 program: success\n"
| _ -> Printf.printf "Sum multiples of 3 and 5 program: failed\n"

(* -------------------------------------------------------------------------- *)
(* Rand program *)
let program =
  Function (
    ["x"],
    FunctionType ([IntegerType], IntegerType),
    Rand (Variable "x")
  )

;;

match typecheck program with
  Ok _ -> Printf.printf "Rand program: success\n"
| _ -> Printf.printf "Rand program: failed\n"

(* -------------------------------------------------------------------------- *)
(* Fibonacci program *)
let program =
  LetFun (
    "fib",
    ["i"; "a"; "b"],
    FunctionType ([IntegerType; IntegerType; IntegerType], IntegerType),
    (IfThenElse (Cmp (Variable "i", Integer 0),
                 Variable "a",
                 Application (Variable "fib", [Minus (Variable "i", Integer 1);
                                               Variable "b";
                                               Plus (Variable "a", Variable "b")])
                )),
    Function (["x"],
              FunctionType ([IntegerType], IntegerType),
              (Application (Variable "fib", [Variable "x"; Integer 0; Integer 1])))
  )

;;

match typecheck program with
  Ok _ -> Printf.printf "Fibonacci program: success\n"
| _ -> Printf.printf "Fibonacci program: failed\n"
Refactor 2024-10-25 21:29:49 +02:00			`open Lang.MiniTyFun`
			`open Lang.MiniFunTypes`
Type checking for miniFun, adding some tests 2024-10-24 15:35:42 +02:00
Adding more tests for the typechecking phase 2024-10-24 16:27:57 +02:00			`(* -------------------------------------------------------------------------- *)`
			`(* Error absent assignment program *)`

			`let program =`
			`Function`
			`(["a"],`
			`FunctionType ([IntegerType], IntegerType),`
Simplifying test 2024-10-26 02:11:00 +02:00			`Variable "x"`
Adding more tests for the typechecking phase 2024-10-24 16:27:57 +02:00			`)`
			`;;`

Refactoring, errors are not thrown anymore 2024-10-26 01:47:30 +02:00			`match typecheck program with`
			Error (`AbsentAssignment _) -> Printf.printf "Error absent assignment program: error (success)\n"
			`\| _ -> Printf.printf "Error absent assignment program: failed\n"`
Adding more tests for the typechecking phase 2024-10-24 16:27:57 +02:00
			`(* -------------------------------------------------------------------------- *)`
			`(* Error wrong arity program *)`

			`let program =`
			`Function`
			`(["a"],`
			`FunctionType ([IntegerType; IntegerType], IntegerType),`
			`(Variable "a")`
			`)`
			`;;`

Refactoring, errors are not thrown anymore 2024-10-26 01:47:30 +02:00			`match typecheck program with`
			Error (`WrongTypeSpecification _) -> Printf.printf "Error wrong arity program 1: error (success)\n"
			`\| _ -> Printf.printf "Error wrong arity program 1: failed\n"`
Adding more tests for the typechecking phase 2024-10-24 16:27:57 +02:00
			`let program =`
			`LetFun`
			`("f",`
			`["a"; "b"],`
			`FunctionType ([IntegerType; IntegerType], IntegerType),`
			`(Variable "a"),`
			`Function (["x"], FunctionType ([IntegerType], IntegerType), Application (Variable "f", [Integer 1; Integer 2; Variable "x"]))`
			`)`
			`;;`

Refactoring, errors are not thrown anymore 2024-10-26 01:47:30 +02:00			`match typecheck program with`
			Error (`WrongArity _) -> Printf.printf "Error wrong arity program 2: error (success)\n"
			`\| _ -> Printf.printf "Error wrong arity program 2: failed\n"`
Adding more tests for the typechecking phase 2024-10-24 16:27:57 +02:00
			`(* -------------------------------------------------------------------------- *)`
			`(* Error wrong return type program *)`

			`let program =`
			`Function`
			`(["a"],`
			`FunctionType ([IntegerType], BooleanType),`
			`(Variable "a")`
			`)`
			`;;`

Refactoring, errors are not thrown anymore 2024-10-26 01:47:30 +02:00			`match typecheck program with`
			Error (`WrongTypeSpecification _) -> Printf.printf "Error wrong return type program: error (success)\n"
			`\| _ -> Printf.printf "Error wrong return type program: failed\n"`
Adding more tests for the typechecking phase 2024-10-24 16:27:57 +02:00
			`(* -------------------------------------------------------------------------- *)`
			`(* Error wrong specification program *)`

			`let program =`
			`Function`
			`(["a"],`
			`IntegerType,`
			`(Variable "a")`
			`)`
			`;;`

Refactoring, errors are not thrown anymore 2024-10-26 01:47:30 +02:00			`match typecheck program with`
			Error (`WrongTypeSpecification _) -> Printf.printf "Error wrong specification program: error (success)\n"
			`\| _ -> Printf.printf "Error wrong specification program: failed\n"`
Adding more tests for the typechecking phase 2024-10-24 16:27:57 +02:00
			`(* -------------------------------------------------------------------------- *)`
			`(* Error wrong input type program *)`

			`let program =`
			`Application (`
			`Function`
			`(["a"; "b"],`
			`FunctionType ([IntegerType; IntegerType], IntegerType),`
			`(Variable "a")`
			`),`
			`[Boolean false]`
			`)`
			`;;`

Refactoring, errors are not thrown anymore 2024-10-26 01:47:30 +02:00			`match typecheck program with`
			Error (`WrongType _) -> Printf.printf "Error wrong input type program: error (success)\n"
			`\| _ -> Printf.printf "Error wrong input type program: failed\n"`
Adding more tests for the typechecking phase 2024-10-24 16:27:57 +02:00
			`(* -------------------------------------------------------------------------- *)`
			`(* Error not a function program *)`

			`let program =`
			`Application (`
			`Integer 0,`
			`[Boolean false]`
			`)`
			`;;`

Refactoring, errors are not thrown anymore 2024-10-26 01:47:30 +02:00			`match typecheck program with`
			Error (`WrongType _) -> Printf.printf "Error not a function program: error (success)\n"
			`\| _ -> Printf.printf "Error not a function program: failed\n"`
Adding more tests for the typechecking phase 2024-10-24 16:27:57 +02:00
			`(* -------------------------------------------------------------------------- *)`
			`(* Error if branches with different types program *)`

			`let program =`
			`Function (`
			`["x"],`
			`FunctionType ([IntegerType], IntegerType),`
			`IfThenElse (Cmp (Integer 1, Integer 2), Boolean true, Integer 1)`
			`)`
			`;;`

Refactoring, errors are not thrown anymore 2024-10-26 01:47:30 +02:00			`match typecheck program with`
			Error (`WrongType _) -> Printf.printf "Error if branches with different types program: error (success)\n"
			`\| _ -> Printf.printf "Error if branches with different types program: failed\n"`
Adding more tests for the typechecking phase 2024-10-24 16:27:57 +02:00
			`(* -------------------------------------------------------------------------- *)`
			`(* Error if guard is not a boolean program *)`

			`let program =`
			`Function (`
			`["x"],`
			`FunctionType ([IntegerType], IntegerType),`
			`IfThenElse (Integer 1, Integer 2, Integer 1)`
			`)`
			`;;`

Refactoring, errors are not thrown anymore 2024-10-26 01:47:30 +02:00			`match typecheck program with`
			Error (`WrongType _) -> Printf.printf "Error if guard is not a boolean program: error (success)\n"
			`\| _ -> Printf.printf "Error if guard is not a boolean program: failed\n"`
Adding more tests for the typechecking phase 2024-10-24 16:27:57 +02:00

Type checking for miniFun, adding some tests 2024-10-24 15:35:42 +02:00			`(* -------------------------------------------------------------------------- *)`
			`(* Identity program *)`
			`let program =`
			`Function`
			`(["a"],`
			`FunctionType ([IntegerType], IntegerType),`
			`(Variable "a")`
			`)`
			`;;`

Refactoring, errors are not thrown anymore 2024-10-26 01:47:30 +02:00			`match typecheck program with`
			`Ok _ -> Printf.printf "Identity program: success\n"`
			`\| _ -> Printf.printf "Identity program: failed\n"`
Type checking for miniFun, adding some tests 2024-10-24 15:35:42 +02:00
			`(* -------------------------------------------------------------------------- *)`
			`(* Constant program *)`
			`let program =`
			`Function`
			`(["a"],`
			`FunctionType ([IntegerType], IntegerType),`
			`(Integer 1)`
			`)`
			`;;`

Refactoring, errors are not thrown anymore 2024-10-26 01:47:30 +02:00			`match typecheck program with`
			`Ok _ -> Printf.printf "Constant program: success\n"`
			`\| _ -> Printf.printf "Constant program: failed\n"`
Type checking for miniFun, adding some tests 2024-10-24 15:35:42 +02:00
			`(* -------------------------------------------------------------------------- *)`
			`(* Partial application of function program *)`
			`let program =`
			`LetIn`
			`("f",`
			`(Function (["x"; "y"],`
			`FunctionType ([IntegerType; IntegerType], IntegerType),`
			`Plus (Variable "x", Variable "y"))),`
			`(Application (Variable "f", [Integer 3]))`
			`)`
			`;;`

Refactoring, errors are not thrown anymore 2024-10-26 01:47:30 +02:00			`match typecheck program with`
			`Ok _ -> Printf.printf "Partial application of function program 1: success\n"`
			`\| _ -> Printf.printf "Partial application of function program 1: failed\n"`
Type checking for miniFun, adding some tests 2024-10-24 15:35:42 +02:00
			`(* -------------------------------------------------------------------------- *)`
			`(* Partial application of function program *)`
			`let program =`
			`LetFun`
			`("f",`
			`["x"],`
			`FunctionType ([IntegerType], FunctionType ([IntegerType], IntegerType)),`
			`(Function (["y"],`
			`FunctionType ([IntegerType], IntegerType),`
			`Plus (Variable "x", Variable "y"))),`
			`(Application (Variable "f", [Integer 3]))`
			`)`
			`;;`

Refactoring, errors are not thrown anymore 2024-10-26 01:47:30 +02:00			`match typecheck program with`
			`Ok _ -> Printf.printf "Partial application of function program 2: success\n"`
			`\| _ -> Printf.printf "Partial application of function program 2: failed\n"`
Type checking for miniFun, adding some tests 2024-10-24 15:35:42 +02:00
			`(* -------------------------------------------------------------------------- *)`
			`(* Passing functions to functions program *)`
			`let program =`
			`LetIn`
			`("f",`
			`(Function (`
			`["z"],`
			`FunctionType ([FunctionType ([IntegerType], IntegerType)], FunctionType ([FunctionType ([IntegerType], IntegerType)], FunctionType ([IntegerType], IntegerType))),`
			`(Function (`
			`["y"],`
			`FunctionType ([FunctionType ([IntegerType], IntegerType)], FunctionType ([IntegerType], IntegerType)),`
			`Function (`
			`["x"],`
			`FunctionType ([IntegerType], IntegerType),`
			`(IfThenElse (`
			`CmpLess (Variable "x", Integer 0),`
			`(Application (Variable "y", [Variable "x"])),`
			`(Application (Variable "z", [Variable "x"]))`
			`)))`
			`))`
			`)),`
			`(Application`
			`(`
			`(Application`
			`(Variable "f",`
			`[Function (["x"], FunctionType ([IntegerType], IntegerType), Plus (Variable "x", Integer 1))]`
			`)`
			`),`
			`[Function (["x"], FunctionType ([IntegerType], IntegerType), Minus (Variable "x", Integer 1))]`
			`)`
			`)`
			`)`
			`;;`

Refactoring, errors are not thrown anymore 2024-10-26 01:47:30 +02:00			`match typecheck program with`
			`Ok _ -> Printf.printf "Passing functions to functions program: success\n"`
			`\| _ -> Printf.printf "Passing functions to functions program: failed\n"`
Type checking for miniFun, adding some tests 2024-10-24 15:35:42 +02:00
			`(* -------------------------------------------------------------------------- *)`
			`(* Recursive function program *)`
			`let program =`
			`LetFun`
			`("f",`
			`["x"],`
			`FunctionType ([IntegerType], IntegerType),`
			`(IfThenElse (CmpLess (Variable "x", Integer 2),Integer 1, Plus (Variable "x", Application (Variable "f", [Minus (Variable "x", Integer 1)])))),`
			`(Variable "f")`
			`)`
			`;;`

Refactoring, errors are not thrown anymore 2024-10-26 01:47:30 +02:00			`match typecheck program with`
			`Ok _ -> Printf.printf "Recursive function program: success\n"`
			`\| _ -> Printf.printf "Recursive function program: failed\n"`
Type checking for miniFun, adding some tests 2024-10-24 15:35:42 +02:00
			`(* -------------------------------------------------------------------------- *)`
			`(* Scope program *)`
			`let program =`
			`LetIn`
			`("f",`
			`(LetIn ("a", Integer 1, (Function (["y"], FunctionType ([IntegerType], IntegerType), Plus (Variable "y", Variable "a"))))),`
			`(LetIn ("a", Integer 2, Variable "f"))`
			`)`
			`;;`

Refactoring, errors are not thrown anymore 2024-10-26 01:47:30 +02:00			`match typecheck program with`
			`Ok _ -> Printf.printf "Scope program: success\n"`
			`\| _ -> Printf.printf "Scope program: failed\n"`
Type checking for miniFun, adding some tests 2024-10-24 15:35:42 +02:00
			`(* -------------------------------------------------------------------------- *)`
			`(* Factorial program *)`
			`let program =`
			`LetFun (`
			`"f",`
			`["x"],`
			`FunctionType ([IntegerType], IntegerType),`
			`(IfThenElse (CmpLessEq (Variable "x", Integer 0), Integer 1, Times (Variable "x", Application (Variable "f", [Minus (Variable "x", Integer 1)])))),`
			`(Variable "f")`
			`)`
			`;;`

Refactoring, errors are not thrown anymore 2024-10-26 01:47:30 +02:00			`match typecheck program with`
			`Ok _ -> Printf.printf "Factorial program: success\n"`
			`\| _ -> Printf.printf "Factorial program: failed\n"`
Type checking for miniFun, adding some tests 2024-10-24 15:35:42 +02:00
			`(* -------------------------------------------------------------------------- *)`
			`(* Hailstone sequence's lenght program *)`

			`let program =`
			`LetFun (`
			`"collatz",`
			`["n"; "count"],`
			`FunctionType ([IntegerType; IntegerType], IntegerType),`
			`(`
			`IfThenElse (BNot (Cmp (Variable "n", Integer 1)),`
			`(IfThenElse (Cmp (Modulo (Variable "n", Integer 2), Integer 0),`
			`Application (Variable "collatz", [Division (Variable "n", Integer 2); Plus (Integer 1, Variable "count")]),`
			`Application (Variable "collatz", [(Plus (Integer 1, Times (Integer 3, Variable "n"))); Plus (Integer 1, Variable "count")]))),`
			`(Variable "count"))`
			`),`
			`(Function (["x"],`
			`FunctionType ([IntegerType], IntegerType),`
			`Application (Variable "collatz", [Variable "x"; Integer 1])))`
			`)`
			`;;`

Refactoring, errors are not thrown anymore 2024-10-26 01:47:30 +02:00			`match typecheck program with`
			`Ok _ -> Printf.printf "Hailstone sequence's lenght program: success\n"`
			`\| _ -> Printf.printf "Hailstone sequence's lenght program: failed\n"`
Type checking for miniFun, adding some tests 2024-10-24 15:35:42 +02:00
			`(* -------------------------------------------------------------------------- *)`
			`(* Sum multiples of 3 and 5 program *)`

			`let program =`
			`LetFun (`
			`"sum",`
			`["n"],`
			`FunctionType ([IntegerType], IntegerType),`
			`(IfThenElse ((BOr (Cmp (Modulo (Variable "n", Integer 3), Integer 0), Cmp (Modulo (Variable "n", Integer 5), Integer 0))),`
			`Plus (Variable "n", Application (Variable "sum", [Minus (Variable "n", Integer 1)])),`
			`(IfThenElse ((CmpLessEq (Variable "n", Integer 1)),`
			`(Integer 0),`
			`(Application (Variable "sum", [Minus (Variable "n", Integer 1)])))`
			`))`
			`),`
			`(Variable "sum")`
			`)`
			`;;`

Refactoring, errors are not thrown anymore 2024-10-26 01:47:30 +02:00			`match typecheck program with`
			`Ok _ -> Printf.printf "Sum multiples of 3 and 5 program: success\n"`
			`\| _ -> Printf.printf "Sum multiples of 3 and 5 program: failed\n"`
Type checking for miniFun, adding some tests 2024-10-24 15:35:42 +02:00
			`(* -------------------------------------------------------------------------- *)`
			`(* Rand program *)`
			`let program =`
			`Function (`
			`["x"],`
			`FunctionType ([IntegerType], IntegerType),`
			`Rand (Variable "x")`
			`)`

			`;;`

Refactoring, errors are not thrown anymore 2024-10-26 01:47:30 +02:00			`match typecheck program with`
			`Ok _ -> Printf.printf "Rand program: success\n"`
			`\| _ -> Printf.printf "Rand program: failed\n"`
Type checking for miniFun, adding some tests 2024-10-24 15:35:42 +02:00
			`(* -------------------------------------------------------------------------- *)`
			`(* Fibonacci program *)`
			`let program =`
			`LetFun (`
			`"fib",`
			`["i"; "a"; "b"],`
			`FunctionType ([IntegerType; IntegerType; IntegerType], IntegerType),`
			`(IfThenElse (Cmp (Variable "i", Integer 0),`
			`Variable "a",`
			`Application (Variable "fib", [Minus (Variable "i", Integer 1);`
			`Variable "b";`
			`Plus (Variable "a", Variable "b")])`
			`)),`
			`Function (["x"],`
			`FunctionType ([IntegerType], IntegerType),`
			`(Application (Variable "fib", [Variable "x"; Integer 0; Integer 1])))`
			`)`

			`;;`

Refactoring, errors are not thrown anymore 2024-10-26 01:47:30 +02:00			`match typecheck program with`
			`Ok _ -> Printf.printf "Fibonacci program: success\n"`
			`\| _ -> Printf.printf "Fibonacci program: failed\n"`