359 lines
14 KiB
OCaml
359 lines
14 KiB
OCaml
(***********************************************************************)
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(* *)
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(* Objective Caml *)
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(* *)
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(* Xavier Leroy, projet Cristal, INRIA Rocquencourt *)
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(* *)
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(* Copyright 1996 Institut National de Recherche en Informatique et *)
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(* Automatique. Distributed only by permission. *)
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(* *)
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(***********************************************************************)
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(* $Id$ *)
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(* Introduction of closures, uncurrying, recognition of direct calls *)
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open Misc
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open Asttypes
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open Lambda
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open Clambda
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(* Auxiliaries for compiling functions *)
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let rec split_list n l =
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if n <= 0 then ([], l) else begin
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match l with
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[] -> fatal_error "Closure.split_list"
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| a::l -> let (l1, l2) = split_list (n-1) l in (a::l1, l2)
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end
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let rec build_closure_env env_param pos = function
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[] -> Tbl.empty
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| id :: rem ->
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Tbl.add id (Uprim(Pfield pos, [Uvar env_param]))
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(build_closure_env env_param (pos+1) rem)
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(* Check if a variable occurs in a [clambda] term. *)
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let occurs_var var u =
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let rec occurs = function
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Uvar v -> v = var
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| Uconst cst -> false
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| Udirect_apply(lbl, args) -> List.exists occurs args
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| Ugeneric_apply(funct, args) -> occurs funct or List.exists occurs args
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| Uclosure(fundecls, clos) -> List.exists occurs clos
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| Uoffset(u, ofs) -> occurs u
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| Ulet(id, def, body) -> occurs def or occurs body
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| Uletrec(decls, body) ->
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List.exists (fun (id, u) -> occurs u) decls or occurs body
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| Uprim(p, args) -> List.exists occurs args
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| Uswitch(arg, s) ->
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occurs arg or occurs_array s.us_cases_consts
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or occurs_array s.us_cases_blocks
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| Ustaticfail -> false
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| Ucatch(body, hdlr) -> occurs body or occurs hdlr
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| Utrywith(body, exn, hdlr) -> occurs body or occurs hdlr
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| Uifthenelse(cond, ifso, ifnot) ->
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occurs cond or occurs ifso or occurs ifnot
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| Usequence(u1, u2) -> occurs u1 or occurs u2
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| Uwhile(cond, body) -> occurs cond or occurs body
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| Ufor(id, lo, hi, dir, body) -> occurs lo or occurs hi or occurs body
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| Uassign(id, u) -> id = var or occurs u
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| Usend(met, obj, args) -> List.exists occurs (met::obj::args)
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and occurs_array a =
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try
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for i = 0 to Array.length a - 1 do
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if occurs a.(i) then raise Exit
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done;
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false
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with Exit ->
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true
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in occurs u
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(* Check if a lambda term denoting a function is ``pure'',
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that is without side-effects *and* not containing function definitions *)
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let rec is_pure = function
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Lvar v -> true
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| Lprim(Pgetglobal id, _) -> true
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| Lprim(Pfield n, [arg]) -> is_pure arg
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| _ -> false
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(* Generate a direct application *)
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let direct_apply fundesc funct ufunct uargs =
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let app_args =
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if fundesc.fun_closed then uargs else uargs @ [ufunct] in
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let app = Udirect_apply(fundesc.fun_label, app_args) in
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(if is_pure funct then app else Usequence(ufunct, app))
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(* Maintain the approximation of the global structure being defined *)
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let global_approx = ref([||] : value_approximation array)
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(* Uncurry an expression and explicitate closures.
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Also return the approximation of the expression.
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The approximation environment [fenv] maps idents to approximations.
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Idents not bound in [fenv] approximate to [Value_unknown].
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The closure environment [cenv] maps idents to [ulambda] terms.
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It is used to substitute environment accesses for free identifiers. *)
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let close_var cenv id =
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try Tbl.find id cenv with Not_found -> Uvar id
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let approx_var fenv id =
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try Tbl.find id fenv with Not_found -> Value_unknown
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let rec close fenv cenv = function
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Lvar id ->
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(close_var cenv id, approx_var fenv id)
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| Lconst cst ->
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(Uconst cst, Value_unknown)
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| Lfunction(kind, params, body) as funct ->
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close_one_function fenv cenv (Ident.create "fun") funct
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| Lapply(funct, args) ->
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let nargs = List.length args in
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begin match (close fenv cenv funct, close_list fenv cenv args) with
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((ufunct, Value_closure(fundesc, approx_res)),
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[Uprim(Pmakeblock(_, _), uargs)])
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when List.length uargs = - fundesc.fun_arity ->
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(direct_apply fundesc funct ufunct uargs, approx_res)
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| ((ufunct, Value_closure(fundesc, approx_res)), uargs)
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when nargs = fundesc.fun_arity ->
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(direct_apply fundesc funct ufunct uargs, approx_res)
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| ((ufunct, Value_closure(fundesc, approx_res)), uargs)
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when fundesc.fun_arity > 0 && nargs > fundesc.fun_arity ->
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let (first_args, rem_args) = split_list fundesc.fun_arity uargs in
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(Ugeneric_apply(direct_apply fundesc funct ufunct first_args,
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rem_args),
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Value_unknown)
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| ((ufunct, _), uargs) ->
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(Ugeneric_apply(ufunct, uargs), Value_unknown)
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end
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| Lsend(met, obj, args) ->
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let (umet, _) = close fenv cenv met in
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let (uobj, _) = close fenv cenv obj in
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(Usend(umet, uobj, close_list fenv cenv args), Value_unknown)
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| Llet(str, id, lam, body) ->
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let (ulam, alam) = close_named fenv cenv id lam in
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let (ubody, abody) = close (Tbl.add id alam fenv) cenv body in
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(Ulet(id, ulam, ubody), abody)
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| Lletrec(defs, body) ->
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if List.for_all
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(function (id, Lfunction(_, _, _)) -> true | _ -> false)
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defs
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then begin
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(* Simple case: only function definitions *)
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let (clos, infos) = close_functions fenv cenv defs in
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let clos_ident = Ident.create "clos" in
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let fenv_body =
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List.fold_right
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(fun (id, pos, approx) fenv -> Tbl.add id approx fenv)
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infos fenv in
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let (ubody, approx) = close fenv_body cenv body in
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(Ulet(clos_ident, clos,
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List.fold_right
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(fun (id, pos, approx) body ->
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Ulet(id, Uoffset(Uvar clos_ident, pos), body))
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infos ubody),
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approx)
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end else begin
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(* General case: recursive definition of values *)
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let rec clos_defs = function
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[] -> ([], fenv)
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| (id, lam) :: rem ->
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let (udefs, fenv_body) = clos_defs rem in
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let (ulam, approx) = close fenv cenv lam in
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((id, ulam) :: udefs, Tbl.add id approx fenv_body) in
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let (udefs, fenv_body) = clos_defs defs in
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let (ubody, approx) = close fenv_body cenv body in
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(Uletrec(udefs, ubody), approx)
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end
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| Lprim(Pgetglobal id, []) ->
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(Uprim(Pgetglobal id, []), Compilenv.global_approx id)
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| Lprim(Pmakeblock(tag, mut) as prim, lams) ->
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let (ulams, approxs) = List.split (List.map (close fenv cenv) lams) in
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(Uprim(prim, ulams),
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begin match mut with
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Immutable -> Value_tuple(Array.of_list approxs)
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| Mutable -> Value_unknown
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end)
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| Lprim(Pfield n, [lam]) ->
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let (ulam, approx) = close fenv cenv lam in
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(Uprim(Pfield n, [ulam]),
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match approx with
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Value_tuple a when n < Array.length a -> a.(n)
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| _ -> Value_unknown)
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| Lprim(Psetfield(n, _), [Lprim(Pgetglobal id, []); lam]) ->
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let (ulam, approx) = close fenv cenv lam in
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(!global_approx).(n) <- approx;
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(Uprim(Psetfield(n, false), [Uprim(Pgetglobal id, []); ulam]),
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Value_unknown)
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| Lprim(p, args) ->
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(Uprim(p, close_list fenv cenv args), Value_unknown)
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| Lswitch(arg, sw) ->
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let (uarg, _) = close fenv cenv arg in
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let (const_index, const_cases) =
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close_switch fenv cenv sw.sw_numconsts sw.sw_consts in
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let (block_index, block_cases) =
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close_switch fenv cenv sw.sw_numblocks sw.sw_blocks in
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(Uswitch(uarg,
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{us_index_consts = const_index;
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us_cases_consts = const_cases;
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us_index_blocks = block_index;
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us_cases_blocks = block_cases;
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us_checked = sw.sw_checked}),
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Value_unknown)
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| Lstaticfail ->
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(Ustaticfail, Value_unknown)
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| Lcatch(body, handler) ->
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let (ubody, _) = close fenv cenv body in
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let (uhandler, _) = close fenv cenv handler in
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(Ucatch(ubody, uhandler), Value_unknown)
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| Ltrywith(body, id, handler) ->
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let (ubody, _) = close fenv cenv body in
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let (uhandler, _) = close fenv cenv handler in
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(Utrywith(ubody, id, uhandler), Value_unknown)
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| Lifthenelse(arg, ifso, ifnot) ->
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let (uarg, _) = close fenv cenv arg in
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let (uifso, _) = close fenv cenv ifso in
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let (uifnot, _) = close fenv cenv ifnot in
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(Uifthenelse(uarg, uifso, uifnot), Value_unknown)
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| Lsequence(lam1, lam2) ->
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let (ulam1, _) = close fenv cenv lam1 in
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let (ulam2, approx) = close fenv cenv lam2 in
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(Usequence(ulam1, ulam2), approx)
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| Lwhile(cond, body) ->
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let (ucond, _) = close fenv cenv cond in
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let (ubody, _) = close fenv cenv body in
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(Uwhile(ucond, ubody), Value_unknown)
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| Lfor(id, lo, hi, dir, body) ->
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let (ulo, _) = close fenv cenv lo in
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let (uhi, _) = close fenv cenv hi in
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let (ubody, _) = close fenv cenv body in
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(Ufor(id, ulo, uhi, dir, ubody), Value_unknown)
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| Lassign(id, lam) ->
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let (ulam, _) = close fenv cenv lam in
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(Uassign(id, ulam), Value_unknown)
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and close_list fenv cenv = function
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[] -> []
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| lam :: rem ->
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let (ulam, _) = close fenv cenv lam in
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ulam :: close_list fenv cenv rem
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and close_named fenv cenv id = function
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Lfunction(kind, params, body) as funct ->
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close_one_function fenv cenv id funct
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| lam ->
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close fenv cenv lam
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(* Build a shared closure for a set of mutually recursive functions *)
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and close_functions fenv cenv fun_defs =
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(* Determine the free variables of the functions *)
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let fv =
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IdentSet.elements (free_variables (Lletrec(fun_defs, lambda_unit))) in
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(* Build the function descriptors for the functions.
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Initially all functions are assumed not to need their environment
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parameter. *)
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let uncurried_defs =
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List.map
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(function
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(id, (Lfunction(kind, params, body) as def)) ->
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let label =
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Compilenv.current_unit_name() ^ "_" ^ Ident.unique_name id in
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let arity = List.length params in
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let fundesc =
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{fun_label = label;
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fun_arity = (if kind = Tupled then -arity else arity);
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fun_closed = true } in
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(id, params, body, fundesc)
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| (_, _) -> fatal_error "Closure.close_functions")
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fun_defs in
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(* Build an approximate fenv for compiling the functions *)
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let fenv_rec =
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List.fold_right
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(fun (id, params, body, fundesc) fenv ->
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Tbl.add id (Value_closure(fundesc, Value_unknown)) fenv)
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uncurried_defs fenv in
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(* Determine the offsets of each function's closure in the shared block *)
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let env_pos = ref (-1) in
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let clos_offsets =
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List.map
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(fun (id, params, body, fundesc) ->
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let pos = !env_pos + 1 in
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env_pos := !env_pos + 1 + (if fundesc.fun_arity <> 1 then 3 else 2);
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pos)
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uncurried_defs in
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let fv_pos = !env_pos in
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(* This reference will be set to false if the hypothesis that a function
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does not use its environment parameter is invalidated. *)
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let useless_env = ref true in
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(* Translate each function definition *)
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let clos_fundef (id, params, body, fundesc) env_pos =
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let env_param = Ident.create "env" in
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let cenv_fv =
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build_closure_env env_param (fv_pos - env_pos) fv in
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let cenv_body =
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List.fold_right2
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(fun (id, params, arity, body) pos env ->
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Tbl.add id (Uoffset(Uvar env_param, pos - env_pos)) env)
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uncurried_defs clos_offsets cenv_fv in
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let (ubody, approx) = close fenv_rec cenv_body body in
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if !useless_env & occurs_var env_param ubody then useless_env := false;
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let fun_params = if !useless_env then params else params @ [env_param] in
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((fundesc.fun_label, fundesc.fun_arity, fun_params, ubody),
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(id, env_pos, Value_closure(fundesc, approx))) in
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(* Translate all function definitions. *)
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let clos_info_list =
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let cl = List.map2 clos_fundef uncurried_defs clos_offsets in
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(* If the hypothesis that the environment parameters are useless has been
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invalidated, then set [fun_closed] to false in all descriptions and
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recompile *)
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if !useless_env then cl else begin
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List.iter
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(fun (id, params, body, fundesc) -> fundesc.fun_closed <- false)
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uncurried_defs;
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List.map2 clos_fundef uncurried_defs clos_offsets
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end in
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(* Return the Uclosure node and the list of all identifiers defined,
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with offsets and approximations. *)
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let (clos, infos) = List.split clos_info_list in
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(Uclosure(clos, List.map (close_var cenv) fv), infos)
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(* Same, for one function *)
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and close_one_function fenv cenv id funct =
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match close_functions fenv cenv [id, funct] with
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(clos, (id, pos, approx) :: _) -> (clos, approx)
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| _ -> fatal_error "Closure.close_one_function"
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(* Close a switch *)
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and close_switch fenv cenv num_keys cases =
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let index = Array.create num_keys 0 in
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let ucases = ref []
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and num_cases = ref 0 in
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if List.length cases < num_keys then begin
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num_cases := 1;
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ucases := [Ustaticfail]
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end;
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List.iter
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(function (key, lam) ->
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let (ulam, _) = close fenv cenv lam in
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ucases := ulam :: !ucases;
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index.(key) <- !num_cases;
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incr num_cases)
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cases;
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(index, Array.of_list(List.rev !ucases))
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(* The entry point *)
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let intro size lam =
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global_approx := Array.create size Value_unknown;
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let (ulam, approx) = close Tbl.empty Tbl.empty lam in
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Compilenv.set_global_approx(Value_tuple !global_approx);
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global_approx := [||];
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ulam
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