209 lines
5.2 KiB
OCaml
209 lines
5.2 KiB
OCaml
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(* -------------------------------------------------------------------------- *)
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(* The type of lambda-terms, in de Bruijn's representation. *)
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type var = int (* a de Bruijn index *)
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type term =
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| Var of var
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| Lam of (* bind: *) term
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| App of term * term
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| Let of (* bind: *) term * term
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(* -------------------------------------------------------------------------- *)
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(* An environment-based big-step interpreter. This is the same interpreter
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that we programmed in Coq, except here, in OCaml, fuel is not needed. *)
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type cvalue =
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| Clo of (* bind: *) term * cenv
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and cenv =
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cvalue list
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let empty : cenv =
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[]
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exception RuntimeError
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let lookup (e : cenv) (x : var) : cvalue =
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try
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List.nth e x
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with Failure _ ->
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raise RuntimeError
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let rec eval (e : cenv) (t : term) : cvalue =
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match t with
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| Var x ->
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lookup e x
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| Lam t ->
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Clo (t, e)
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| App (t1, t2) ->
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let cv1 = eval e t1 in
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let cv2 = eval e t2 in
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let Clo (u1, e') = cv1 in
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eval (cv2 :: e') u1
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| Let (t1, t2) ->
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eval (eval e t1 :: e) t2
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(* -------------------------------------------------------------------------- *)
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(* Term/value/environment printers. *)
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open Printf
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let rec print_term f = function
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| Var x ->
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fprintf f "(Var %d)" x
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| Lam t ->
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fprintf f "(Lam %a)" print_term t
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| App (t1, t2) ->
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fprintf f "(App %a %a)" print_term t1 print_term t2
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| Let (t1, t2) ->
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fprintf f "(Let %a %a)" print_term t1 print_term t2
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let rec print_cvalue f = function
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| Clo (t, e) ->
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fprintf f "< %a | %a >" print_term t print_cenv e
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and print_cenv f = function
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| [] ->
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fprintf f "[]"
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| cv :: e ->
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fprintf f "%a :: %a" print_cvalue cv print_cenv e
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let print_cvalue cv =
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fprintf stdout "%a\n" print_cvalue cv
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(* -------------------------------------------------------------------------- *)
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(* A tiny test suite. *)
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let id =
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Lam (Var 0)
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let idid =
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App (id, id)
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let apply =
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Lam (Lam (App (Var 1, Var 0)))
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let test1 eval t =
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print_cvalue (eval empty t)
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let test name eval =
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printf "Testing %s...\n%!" name;
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test1 eval idid;
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test1 eval (App (apply, id));
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test1 eval (App (App (apply, id), id));
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()
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(* -------------------------------------------------------------------------- *)
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(* Test. *)
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let () =
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test "the direct-style evaluator" eval
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(* -------------------------------------------------------------------------- *)
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(* A CPS-transformed, environment-based big-step interpreter. *)
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(* In this code, every recursive call to [evalk] is a tail call. Thus,
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it is compiled by the OCaml compiler to a loop, and requires only O(1)
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space on the OCaml stack. *)
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let rec evalk (e : cenv) (t : term) (k : cvalue -> 'a) : 'a =
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match t with
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| Var x ->
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k (lookup e x)
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| Lam t ->
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k (Clo (t, e))
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| App (t1, t2) ->
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evalk e t1 (fun cv1 ->
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evalk e t2 (fun cv2 ->
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let Clo (u1, e') = cv1 in
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evalk (cv2 :: e') u1 k))
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| Let (t1, t2) ->
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evalk e t1 (fun cv1 ->
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evalk (cv1 :: e) t2 k)
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(* It is possible to explicitly assert that these calls are tail calls.
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The compiler would tell us if we were wrong. *)
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let rec evalk (e : cenv) (t : term) (k : cvalue -> 'a) : 'a =
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match t with
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| Var x ->
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(k[@tailcall]) (lookup e x)
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| Lam t ->
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(k[@tailcall]) (Clo (t, e))
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| App (t1, t2) ->
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(evalk[@tailcall]) e t1 (fun cv1 ->
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(evalk[@tailcall]) e t2 (fun cv2 ->
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let Clo (u1, e') = cv1 in
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(evalk[@tailcall]) (cv2 :: e') u1 k))
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| Let (t1, t2) ->
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(evalk[@tailcall]) e t1 (fun cv1 ->
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(evalk[@tailcall]) (cv1 :: e) t2 k)
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let eval (e : cenv) (t : term) : cvalue =
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evalk e t (fun cv -> cv)
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(* -------------------------------------------------------------------------- *)
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(* Test. *)
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let () =
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test "the CPS evaluator" eval
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(* -------------------------------------------------------------------------- *)
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(* The above code uses heap-allocated closures, which form a linked list in the
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heap. In fact, the interpreter's "stack" is now heap-allocated. To see this
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more clearly, let us defunctionalize the CPS-transformed interpreter. *)
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(* There are four places in the above code where an anonymous continuation is
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built, so defunctionalization yields a data type of four possible kinds of
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continuations. This data type describes a linked list of stack frames! *)
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type kont =
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| AppL of { e: cenv; t2: term; k: kont }
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| AppR of { cv1: cvalue; k: kont }
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| LetL of { e: cenv; t2: term; k: kont }
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| Init
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let rec evalkd (e : cenv) (t : term) (k : kont) : cvalue =
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match t with
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| Var x ->
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apply k (lookup e x)
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| Lam t ->
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apply k (Clo (t, e))
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| App (t1, t2) ->
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evalkd e t1 (AppL { e; t2; k })
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| Let (t1, t2) ->
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evalkd e t1 (LetL { e; t2; k })
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and apply (k : kont) (cv : cvalue) : cvalue =
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match k with
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| AppL { e; t2; k } ->
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let cv1 = cv in
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evalkd e t2 (AppR { cv1; k })
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| AppR { cv1; k } ->
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let cv2 = cv in
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let Clo (u1, e') = cv1 in
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evalkd (cv2 :: e') u1 k
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| LetL { e; t2; k } ->
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let cv1 = cv in
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evalkd (cv1 :: e) t2 k
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| Init ->
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cv
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let eval e t =
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evalkd e t Init
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(* -------------------------------------------------------------------------- *)
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(* Test. *)
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let () =
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test "the defunctionalized CPS evaluator" eval
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